• 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:
    Apparatus for transporting and transferring shaped bodies (1), such as, for example, essentially limp cookie dough shaped bodies, to a transport surface (2), the apparatus for transporting the shaped bodies (1) comprising a revolving, driven conveyor belt (3) at least one deflection roller (4), a drive roller (5) and in the region of the transport surface (2) around a laterally on a machine frame (8) mounted transfer body (6) is guided, wherein the change and adaptation of the bending line (9) of the transfer body (6 ) An adjusting device (7) is provided.
    公开号:AT512953A1
    申请号:T659/2012
    申请日:2012-06-08
    公开日:2013-12-15
    发明作者:Johannes Haas;Josef Haas;Stefan Jiraschek;Peter Lambauer
    申请人:Haas Food Equipment Gmbh;
    IPC主号:
    专利说明:

    1 51 271 GP / GA / FI Transfer device with adjustable bend line of the transfer body
    The invention relates to a device for transporting and transferring shaped bodies, such as essentially non-rigid cookie dough shaped bodies, to a transport surface, wherein the device for transporting the shaped bodies comprises a revolving, driven conveyor belt, which surrounds at least one deflection roller, a drive rod and in the Area of the transport surface is guided around a laterally mounted on a machine frame transfer body.
    The field of the invention relates to devices for the transfer of moldings such as unbaked dough pies, unbaked biscuit moldings, unbaked dough pieces, but also baked biscuit moldings, brittle baked products, etc. in particular, the invention relates to a device for transferring fragile or easily deformable shaped body of a conveyor belt another transport surface, wherein the transfer takes place via a transfer edge. The quality of the transfer is all the better, the smaller the transfer gap between the conveyor belt and the other transport surface. Furthermore, the invention relates to «· · · ** ··« · ···· ♦ · ··· < ♦ L *** · ···.
    2 51 271 GP / GA / FI
    Devices that are suitable for the industrial production of bakery products such as biscuit.
    Such devices have been known for some time. In this case, conveyor belts are guided with a width of up to 3m to a plurality of pulleys, at least one drive roller and a transfer body. Furthermore, a tension roller is arranged in the course of the conveyor belt, which gives the conveyor belt a certain basic tension. The transfer body is preferably designed as a transfer knife. This means that the band is guided around a transfer edge in the region of the transfer body. This transfer edge is designed as sharp as possible to reduce or optimize the Übergabespaites. In addition, so-called transfer knives are used. These are essentially rigidly connected to a machine frame. The machine frame usually has two laterally, parallel to the transport direction of the belt extending side plates on which the transfer body is mounted. Due to the tension of the belt and the large span of the transfer body between the lateral bearing points, a deflection of the transfer body occurs along a bending line. Due to the deflection, the transfer gap changes, which subsequently leads to a poor quality transfer. In order to minimize the deflection, the transfer blades are sized larger according to the prior art. In the transport direction of the molded body, this is easily possible by choosing a larger transfer area, ie a larger dimensioning in the transport direction. However, the thickness of the transfer blade is normal to the transport direction limited by the sharp deflection of the belt. Another disadvantage of massively dimensioned transfer bodies is that high material costs are incurred during production.
    Another disadvantage of the prior art transfer devices is that the transfer blade is substantially rigidly connected to the machine frame. In certain operating situations, however, it is necessary to remove the conveyor belt from the transport surface.
    The object of the invention is therefore to provide a device for the transport and transfer of moldings, which allows a high-quality transfer and
    3 51 271 GP / GA / FI is also inexpensive to manufacture, requires little maintenance and is practical to use.
    The objects of the invention are achieved in that an adjustment device is provided for changing and adapting the bending line of the transfer body.
    Further features of the invention are that the adjusting device comprises a pressure element such as a threaded screw, a bolt or a tab, that the pressure element is supported at a support point of the transfer body that at least one, preferably two tension elements are provided that the tension elements each at a connection point are coupled to the transfer body and / or that the connection point is positioned away from the support point on the transfer body.
    Furthermore, the invention is characterized in that the support point in a central region and the connection points are provided on both sides of the central region in each case in an outer region of the transfer body, that the transfer body has a transfer surface and that the support point of the adjusting device is provided on the opposite side of the transfer body, that the transfer body has a transfer edge and is designed, for example, as transfer knife or transfer plate, that the support point is provided in the region of greatest deflection of the transfer body and / or that the connection points of the tension elements are respectively provided in the region of the machine frame on the transfer body.
    Preferably, a device according to the invention on a conveyor belt which is guided around a plurality of deflection rollers. The conveyor belt is driven circumferentially by a drive roller and in the region of the transport surface to which the moldings are to be transferred, guided by a transfer body. The transfer takes place via a transfer gap. The transfer body is preferably designed as a transfer knife. As a transfer knife while a body is referred to, which has a transfer contour and a transfer of the aforementioned moldings allowed. As a transfer contour is a flat or linear section of the transfer body or the conveyor belt in
    4 51 271 GP / GA / FI
    In the case of a sharp transfer edge, the transfer contour is defined essentially linearly transversely to the transport direction. In the case of soft, non-rigid molded bodies, which are passed over a curve, the transfer contour is defined as a section of a substantially cylindrical lateral surface, which likewise runs transversely to the transport direction of the shaped bodies. The transfer gap is provided substantially between the transport surface and the transfer contour or limited by these elements.
    Due to the band tension, a force is exerted by the band on the transfer body. The force corresponds essentially to the sum of those forces which are generated by the incoming and outgoing band in the region of the transfer body. The resultant of the two force vectors need not necessarily be in the angular symmetry of the two force vectors of the band, since the friction on the transfer body, the tensile force on the expiring band is usually greater than the tensile force in the tapered band. If the transfer body has a plane of symmetry that deviates from the direction of the resultant force of the transport belt, in addition to the pure deflection of the transfer body, a bulge or a spatial deformation occurs. By a deformation of the transfer body, the width of the transfer gap changes at least in some areas. In order to select or change the deformation of the bending line, the adjusting device according to the invention is provided.
    In order to influence the bending line of the transfer body, at least one tension element and at least one pressure element are provided according to the present invention. Preferably, both the pressure element and the tension element are supported on the transfer body. However, according to an alternative embodiment, the tension element or the pressure element may also be supported on the machine frame. In a preferred embodiment, the tension element or the tension elements are coupled at one point to the transfer body. The coupling of the tension elements with the transfer body is preferably arranged in the region or in the vicinity of the connection to the machine frame. The pressure element is preferably coupled to the transfer body in the region of the greatest deflection of the transfer body at the support point. In conventional arrangement, the support point is 5
    51 271 GP / GA / FI or the area of maximum deflection of the transfer body in the center area between the two bearing points of the transfer body on the machine frame.
    The arrangement of the pressure element and the tension elements a truss-like configuration is achieved. By changing the length of one of the elements or by changing the position of the elements relative to each other, the forces in the framework - ie in the transfer body, the pressure element and / or the tension element - can be changed. By changing the forces, the bending line of the transfer body is influenced. The pressure element is preferably coupled to the transfer body at a first region, in particular at the support point. The pressure element or the force exerted by the pressure element on the transfer body force runs substantially normal to the longitudinal extension of the transfer body or normal to the bending line of the transfer body at the point of the pressure element.
    At a second area, which is arranged remote from the coupling parts between transfer body and pressure element on the pressure element, the tension element is coupled to the pressure element. Furthermore, the pressure element is coupled to the transfer body at at least one location, preferably at two locations on an outer area of the transfer body. In the case of several tension elements can also be provided that the tension element is coupled at one point to the pressure element and at a second location with the transfer body. By changing the coupling point of the one or more tension elements with the pressure element with a constant length of the tension elements, the tensile force in the tension element can be increased and the pressure force in the pressure element can be increased. Furthermore, the balance of forces can also be adjusted by a change in length of the pressure element or by a change in length of the tension element. The arrangement of the forces substantially counteracts those forces acting on the transfer body by the conveyor belt. In particular, the compressive force of the pressure element is opposite to the resultant force of the belt tensions, wherein the two vectors need not be coaxial. Rather, the bending line can be changed by an inclination of the opposing vectors to each other.
    6 51271 GP / GA / FI
    As conveyor belts are, for example, plastic belts, flexible Kunststaffbänder, flexible metal bands, discontinuous metal bands such as Spiralglusturte, link belts, chain belts, etc. Basically, all conveyor belts are suitable for use in the device according to the invention for the transfer of moldings in particular food moldings around a knife edge or a Transfer knife are suitable.
    The device is preferably provided "in-line" in a machine for the industrial production of baked products. This means that the machine frame of the device according to the invention is arranged substantially stationary relative to other components of the machine for the industrial production of baked products. Furthermore, a control unit is provided for controlling the drive. This control unit can be coupled to the control unit of further components of the machine for the production of bakery products and / or a control unit is provided which controls both the apparatus according to the invention and further components of the machine for the industrial production of bakery products.
    The transfer body is preferably designed as a transfer knife. This has a transfer surface, along which the molded body and the conveyor belt are guided. The transfer area of the transfer knife can be horizontal or tilted. The transfer knife itself can be foldable or fixed with the frame screwed. Furthermore, the transfer knife can be arranged displaceable and fixable in a slot of the machine frame. The transfer blade is, for example, strip-shaped, oblong, executed with approximately rectangular cross-section. The deflection of the conveyor belt on the transfer body is preferably designed such that the conveyor belt is deflected by an approximately horizontally extending transfer contour in the direction of gravity. The deflection angle is at least 90 °, preferably 90 ° to 180 °. The deflection angle is preferably measured in a vertical plane which extends in the transport direction.
    In a further consequence, the device according to the invention will be further discussed on the basis of concrete exemplary embodiments.
    7 51 271 GP / GA / FI
    Fig. 1 shows a schematic side view of a device according to the invention.
    I
    2 shows a schematic view of relevant parts of the device, wherein the viewing direction is substantially opposite to the transport direction.
    3 shows a schematic view of the kinematic conditions on the transfer body.
    4 shows a further embodiment of a device according to the invention in a schematic side view.
    Fig. 5 shows a schematic view of relevant parts of the invention, wherein the visual axis is substantially normal to the axis of symmetry of the transfer body.
    1 shows a device for transferring shaped bodies 1 from a conveyor belt 3 onto a transport surface 2. The shaped bodies 1 are conveyed in the transport direction 19 by a circulatingly driven conveyor belt 3. The transport surface 2, to which the molded bodies 1 are transferred, is shown schematically as a plate-shaped body. The transport surface 2 is executed according to the invention and according to the figures, for example, as a further conveyor belt, as a baking belt baking machine, as a furnace transfer device, as a sliding surface or as a conveyor belt of a packaging machine.
    The conveyor belt 3 is guided around a plurality of deflection rollers 4, a drive roller 5 and a transfer body 6. One of the deflection rollers 4 is preferably designed as a tension roller 20. This tension roller 20 is resiliently pressed against the conveyor belt 3 and gives the conveyor belt 3 a selectable base voltage. Further, in order to support the conveyor belt 3 in that area in which the moldings 1 are conveyed, guide means 21 are provided. These guiding means serve to support the conveyor belt 3 against gravity. The guide means may for example be plate-shaped or strip-shaped and are substantially following the conveyor belt 3 or following the transport direction 19 formed. The guide rollers 4, the drive roller 5, the tension roller 20, the transfer body 6 and I ··· ···· f * ··· ♦ · · < »· · · · · · ·«
    8 51 271 GP / GA / FI if necessary, the guide means 21 are mounted on a machine frame 8. The machine frame 8 comprises in the present embodiment, two side plates, which are substantially the transport direction 19 following, provided laterally on the device. Rotatory elements such as deflection rollers 4, drive rollers 5 and clamping rollers 20 are preferably mounted on the machine frame in rotary bearings. The guide means 21 are preferably rigidly or substantially rigidly connected to the machine frame 8. The transfer body 6 may be rigidly or movably connected to the machine frame 8. Preferably, the transfer body can to a certain extent, in particular in the field of kinematic possibilities, relative to the machine frame 8 are moved.
    The transfer of the molded body 1 is done as noted via a transfer nip 18. At the transfer contour 17 of the conveyor belt 3 of the molded body 1 at least partially velcro the conveyor belt 3 in the direction of transport surface. 2
    The resultant force vector 24 corresponds to the cumulative sum of the forces applied to the transfer body 6 by the conveyor belt 3. The resulting force is counteracted by supporting forces which engage in the outer regions of the transfer body 6, in particular in the region of the machine frame 8, on the transfer body 6 and on the machine frame.
    As a result of this configuration, the transfer body 6, under the load of the transport belt 3 in a simplified manner, corresponds to a laterally mounted bending beam. This has a bending line, which is determined in particular by the shape of the transfer body 6. In addition, the device according to the invention has an adjusting device 7 for influencing and / or changing the bending line,
    FIG. 2 shows a further schematic view of a device according to the invention, in particular a view of relevant parts, wherein the viewing direction is substantially opposite to the transport direction 19 in FIG. 1. Elements such as drive rollers, the conveyor belt and the transport surface are not shown in the illustration of FIG. 2. The transport direction 19 is projecting in the present representation.
    9 51 271 GP / GA / FI
    Between two side plates of the machine frame 8 of the transfer body 6 is provided. The transfer body is connected on the one hand via connecting elements 25 and on the other hand via stops 26 with the machine frame. The connecting elements 25 are designed in the present embodiment, for example, as a bolt connection, wherein the transfer body 6 is rotatable about the axes of rotation 27 of the connecting elements 25. For fixation and / or choice of the position, a stop 26 is preferably provided in the outer regions 15 of the transfer body 6. This stop is connected to the machine frame 8. In the present embodiment, the stop has a height adjustment 28. This is carried out, for example, by a threaded screw screwed into a thread. By deeper or less deep screwing the threaded screw, the distance between the connected to the machine frame 8 element and the transfer body 6 in operative contact element of the height adjustment 28 is changed. As a result, the inclination of the transfer body 6 about the axis of rotation 27 can be changed and / or selected.
    According to the preceding description, the transfer body has a certain bending line 9. For example, to guide the bending line in a straight line, an adjusting device 7 is provided. In the present embodiment, the adjusting device 7 comprises one or two tension elements 12, which are connected to the transfer body 6 at respectively one connection point 13. Furthermore, the adjusting device 7 comprises a pressure element 10, which is coupled on the one hand with the tension elements 12 and on the other hand at a support point 11 with the transfer body 6. The change in the bending line is done via an introduction of force of an element of the adjusting device 7 on the transfer body 6 in the central region 14. The opposing forces to this force can be supported according to the present embodiment of the transfer body 6 itself. For this purpose, the tension elements 12 are connected to the transfer body 6 and the pressure element 10. It is thus given a balance of forces, which results from the tensile forces in the tension elements 12 and the pressure forces in the support point 11 and / or in the pressure element 10 By changing the position of the tension elements or by changing the length of the pressure element, the forces can be changed so that the bending line 9 of the transfer body 6 is adjusted.
    10 51 271 GP / GA / FI
    The tension member 12 is connected in the present embodiment in the outer regions 15 of the transfer body 6 fixed thereto. In the middle region 14, the tension element 12 is connected to the pressure element 10 and in particular clamped between two threaded nuts. By turning the nuts on a threaded shaft, the position of the nuts can be changed. By counteracting two nuts, between which the tension member 12 is clamped, a fixation of the position can be achieved. Furthermore, the pressure element 10 comprises a screw shaft, which is screwed into a threaded bore of the transfer body 6. By providing a nut and this connection can be clamped and thus fixed.
    The support point of the adjusting device is preferably provided centrally, in particular in the central region 14.
    3 shows a detail of a side view of the kinematic conditions, in particular in the region of the transfer body 6. In a first position-that position with a solid border of the transfer body 6-the transfer body 6 is in the usual, ready-to-use position. For this purpose, the conveyor belt is guided around the transfer body 6. Due to the tension of the conveyor belt, on the one hand, a force vector 22 of the incoming conveyor belt and, on the other hand, a force vector 23 of the outgoing conveyor belt are defined. The lengths of the vectors are shown in the present representation is not proportional to the forces occurring in reality. In particular, the force vector of the outgoing belt 23 is greater than the force vector 22 of the incoming belt due to the friction of the deflection of the belt of the transfer contour in the usual belt configuration. Vector addition of the two vectors leads to the resulting force vector 24.
    The transfer body 6 is connected to the machine frame 9 in the present embodiment via a Verbindungseleme'nt 25 and a stop 26 on the machine frame. Further, according to the present embodiment, the transfer body 6 is rotatably disposed about the rotation axis 27 of the connecting member 25. The position of the connecting element 25 and the axis of rotation 27 is selected such that due to the belt tension the transfer body abuts against the stop 26 ·· a # · «« «
    51 271 GP / GA / FI ·· ··· · 11 is pressed. By this kinematic arrangement is given a stable, fixed position of the transfer body 6 during operation of the device according to the invention. In particular, this means that the resulting force vector 24 extends away from the axis of rotation 27 of the connecting element, the direction of this distance being offset in the direction of the stop 26.
    In a second position - the position in which the outline of the transfer body 6 is shown by dashed lines - the transfer body 6 is folded away about the rotation axis 27 of the stop 26. By changing the position of the transfer body 6 and the conveyor belt 3 changes its position. In particular, the conveyor belt is relieved of strain by the folding away of the transfer body 6.
    As in the previous description, the stop 26 is also adjustable in height in the illustration of FIG. 3. This is done in particular via the height adjustment 28, which allows, for example by changing the length of a shaft, an adjustment of the position and / or the rotational position of the transfer body 6 about the axis of rotation 27 of the connecting element 25.
    Furthermore, in the present illustration of FIG. 3, the device and the transfer body 6 have a transfer area 16. This is arranged in the region of the transfer body and runs essentially along the transport direction 19.
    4 shows a further embodiment of the device according to the invention. 1 is a circumferentially driven conveyor belt 3 to a plurality of guide rollers 4 including a drive roller 5 and a tension roller 20 and guided to a transfer body 6. As in Fig. 1, the drive roller 5 is rotatably driven by a drive. The direction of movement of the conveyor belt follows at least in the illustrated upper region of the transport direction 19. The transport direction 19 corresponds to the transport direction of the molded body 1, which are not shown in this illustration as well as the transport surface 2. The transfer body 6 has an adjusting device 7. The adjusting device 7 in turn comprises one or more tension elements 12 and a pressure element 10. In the present embodiment
    12 51 271 GP / GA / FI is a symmetry plane of the transfer body substantially along the resulting force vector 24. Due to the geometric configuration of the force vector 24 thus runs through the cross-sectional area center of gravity of the transfer body. The force transmitted to the transfer body 6 by the belt tension thus generates a substantially two-dimensional deflection of the transfer body 6 without buckling. The bending line 9 thus essentially follows the plane of symmetry of the transfer body.
    Furthermore, a transfer area 16 is provided on the transfer body. This opens in a preferred manner in the transfer contour 17 of the transfer body 6. The arrangements of the rollers and the transfer body 6 are mounted on a machine frame 8. The machine frame 8 preferably comprises two side plates which substantially follow the transport direction 19 and are arranged vertically.
    FIG. 5 shows a view of relevant parts of FIG. 4, the viewing direction being essentially normal to the resulting force vector 24 and / or to the plane of symmetry 29 of the transfer body. The transfer body 6 is mounted laterally in the machine frame 8 and influenced by an adjusting device 7 in its shape. In particular, the bending line 9 is influenced and / or changed by the voltage of the adjusting device 7. For this purpose, the adjusting device in turn comprises tension elements 12, which are provided at connection points 13 on the transfer body 6.
    Furthermore, the force of the tension elements 12 is supported on the transfer body 6 at a support point 11. The generation of the stress and / or the forces takes place via a pressure element 10. The mode of operation of the pressure element 10 substantially corresponds to the function of the pressure element of FIG. 2 or the general part of the description.
    The tension rods 12 are shown in the illustrated embodiments as a band-shaped body. These can be performed, for example, by metal bands, metal strips, plastic strips, etc. However, the tension elements 12 may also be designed, for example, by steel cables, cables made of other materials, articulated rods, chain-like tension elements, etc. i ···· * ········································· ··············· "
    13 51 271 GP / GA / FI
    The pressure element 10 may for example be designed as a screw shank with twist nuts Baren, however, other adjustment elements such as toggle, crank mechanisms or similar devices are suitable for use in the present device.
    According to a further embodiment, not shown, the pressure element 10 of FIG. 5 or FIG. 2 is replaced by a rigid element such as a rigid bolt. This is unchangeable in its length. To adapt the voltages and / or the bending line 9 of the transfer body 6, the length of the tension elements 12 can be changed. * *
    GP / GA / FI · * · «* ·· * ·· ···· 14 51 271
    1. Molded body 2. Transport surface 3. Conveyor belt 4. Deflection pulley 5. Drive roller 6. Transfer body 7. Adjustment device 8. Machine frame 9. Bending line 10. Pressure element 11 .Abstützstelle 12. Tension element 13. Junction 14. Mittenbereich 15. Außenbereich 16. Transfer area 17 Transfer contour 18. transfer gap 19. transport direction 20. tensioning roller 21. guide means 22. force vector tapered belt 23. force vector running belt 24. resultant force vector 25. connecting element 26. stop 27. rotational axis of the connecting element 28. height adjustment 29. symmetry plane
    权利要求:
    Claims (9)
    [1]
    1. Device for transporting and transferring shaped bodies (1), such as, for example, substantially limp cookie dough shaped bodies, to a transport surface (2), wherein the device for transporting the Shaped body (1) comprises a revolving, driven conveyor belt (3) which is provided with at least one deflection roller (4), a drive roller (5) and in the region of the transport surface (2) about a transfer body (6) mounted laterally on a machine frame (8). is guided, characterized in that for adjusting and adjusting the bending line (9) of the transfer body (6) an adjusting device (7) is provided.
    [2]
    2. Apparatus according to claim 1, characterized in that the adjusting device (7) has a pressure element (10) such as a threaded screw, and that the pressure element (10) at a support point (11) of the transfer body (6) is supported.
    [3]
    3. Device according to claim 1 or 2, characterized in that at least one, preferably two tension elements (12) are provided. •
    [4]
    4. Device according to one of claims 1 to 3, characterized in that the tension elements (12) are each coupled at a connection point (13) with the transfer body (6) and that the connection point (13) away from the support point (11) on Transfer body is positioned.
    [5]
    5. Device according to one of claims 1 to 4, characterized in that the support point (11) in a central region (14) and the connection points (13) on both sides of the central region (14) in each case in an outer region (15) of the transfer body (6). are provided.
    [6]
    6. Device according to one of claims 1 to 5, characterized in that the transfer body (6) has a transfer surface (16) and that the support point (11) of the adjusting device (7) on the opposite side of the transfer body (6) is provided.
    [7]
    7. Device according to one of claims 1 to 6, characterized in that the transfer body has a transfer edge and is formed, for example, as a transfer knife or transfer plate.
    [8]
    8. Device according to one of claims 1 to 7, characterized in that the support point (11) in the region of the greatest deflection of the transfer body (6) is provided.
    [9]
    9. Device according to one of claims 1 to 8, characterized in that the connection points (13) of the tension elements (12) respectively in the region of the machine frame (8) on the transfer body (6) are provided. Vienna, äm 08 June 2012 Applicant represented by: Patentanwälte Puchberger, Berger & partner
    类似技术:
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    同族专利:
    公开号 | 公开日
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    US9290324B2|2016-03-22|
    WO2013182371A1|2013-12-12|
    JP2015527053A|2015-09-17|
    AT512953B1|2015-05-15|
    EP2858509A1|2015-04-15|
    KR20150028989A|2015-03-17|
    US20150107968A1|2015-04-23|
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    BR112014029150A2|2017-06-27|
    CN104334027A|2015-02-04|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB573586A|1943-12-02|1945-11-27|John Currie Paterson|Improvements in and relating to rotary moulding machines for biscuit doughs and the like|
    DE1632356A1|1968-02-09|1970-12-03|Winkler Kg F|Device for transferring pieces of dough|
    DE4310545A1|1992-10-27|1994-04-28|House Food Industrial Co|Dough carriage conveyors - have structured deflection path for end of leading belt and gap to start of next belt for transfer without distortion|
    US5564554A|1994-11-01|1996-10-15|Lawrence Equipment, Inc.|Reciprocating accumulation conveyor|
    US20030228396A1|2002-06-07|2003-12-11|Hiroyuki Okaizumi|Method and apparatus for producing a continuous food shaped as a bar and a belt conveyor used for its production|
    AT41399B|1908-07-09|1910-03-25|Duve Geb|Support device for bicycles or the like.|
    US1656114A|1926-02-19|1928-01-10|Hollingsworth William|Conveyer|
    US2438068A|1944-08-19|1948-03-16|Jeffrey Mfg Co|Conveyor slack take-up mechanism|
    US3456776A|1967-10-26|1969-07-22|Koch Supplier Inc|Belt conveyor for sanitary food conveying|
    FR2420701B2|1978-03-21|1983-05-20|Gemignani Francois|
    US4206994A|1978-09-20|1980-06-10|Xerox Corporation|Belt tensioning system|
    DE3568760D1|1985-08-20|1989-04-20|Rheon Automatic Machinery Co|Method for arraying and conveying rows of products|
    GB2232456B|1989-06-08|1993-06-16|Heidelberger Druckmasch Ag|Drive wheel phase relationship adjustment device|
    US5605222A|1996-04-24|1997-02-25|Illinois Tool Works Inc.|Dual knife edge transfer conveyor|
    JP2005179038A|2003-12-24|2005-07-07|Daifuku Co Ltd|Conveyor facility|
    US7698977B2|2004-11-19|2010-04-20|Aew Delford Group Limited|Combined articulated jump conveyor and slicing machine|
    US7681719B2|2005-07-21|2010-03-23|Dorner Mfg. Corp.|Sanitary conveyor transfer tail assembly|
    JP5186131B2|2007-04-17|2013-04-17|レオン自動機株式会社|Dough weighing conveyor and dough weighing cutting device|AT512954B1|2012-06-08|2016-04-15|Haas Food Equipment Gmbh|Furnace transfer with a discontinuous conveyor belt|
    US9834384B2|2016-01-23|2017-12-05|John Bean Technologies Corporation|Gap adjustment assembly for blade portioner conveyors|
    CN105692077A|2016-03-23|2016-06-22|中国重型机械研究院股份公司|Adjusting mechanisms for tensioning and deviation of belt conveyor|
    WO2018197685A1|2017-04-28|2018-11-01|Haas Food Equipment Gmbh|Dough transporting device|
    KR102135321B1|2020-03-31|2020-07-17|이용근|Food overlapping preventing apparatus for food packing device and food packing device comprising the food overlapping preventing apparatus for food packing device|
    CN111453348B|2020-04-08|2021-10-08|安吉申力机械有限公司|Hydraulic automatic feeding equipment|
    法律状态:
    2022-02-15| MM01| Lapse because of not paying annual fees|Effective date: 20210608 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA659/2012A|AT512953B1|2012-06-08|2012-06-08|Transfer device with adjustable bend line of transfer body|ATA659/2012A| AT512953B1|2012-06-08|2012-06-08|Transfer device with adjustable bend line of transfer body|
    JP2015515444A| JP2015527053A|2012-06-08|2013-05-08|Delivery device with adjustable deflection curve of delivery structure|
    BR112014029150A| BR112014029150A2|2012-06-08|2013-05-08|transfer apparatus with adjustable transfer body bending line|
    RU2014153995A| RU2014153995A|2012-06-08|2013-05-08|TRANSMISSION DEVICE WITH ADJUSTABLE TRANSMISSION BENDING LINE|
    PCT/EP2013/059612| WO2013182371A1|2012-06-08|2013-05-08|Transfer apparatus with adjustable deflection curve of the transfer element|
    KR20157000500A| KR20150028989A|2012-06-08|2013-05-08|Transfer apparatus with adjustable deflection curve of the transfer element|
    EP13728124.2A| EP2858509A1|2012-06-08|2013-05-08|Transfer apparatus with adjustable deflection curve of the transfer element|
    US14/405,411| US9290324B2|2012-06-08|2013-05-08|Transfer apparatus with adjustable bending line of the transfer body|
    CN201380029765.1A| CN104334027A|2012-06-08|2013-05-08|Transfer apparatus with adjustable deflection curve of the transfer element|
    ARP130101952| AR091255A1|2012-06-08|2013-06-03|TRANSFER DEVICE WITH ADJUSTABLE CURVATION LINE OF THE TRANSFER BODY|
    PH12014502702A| PH12014502702A1|2012-06-08|2014-12-03|Transfer apparatus with adjustable deflection curve of the transfer element|
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