• 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:
    1. TRANSPORTATION DEVICE milking NEPRERVNO APPLICANTS PLOSSHH paper products, in particular printed products, arriving overlapping stream, soda rzhaschee endless circulating drive and guide emoe traction device carrying disposed equidistant from one controllable grippers on said lateral direction transporting edges printed products, each of which includes stationary and movable pads, characterized in that, in order to increase the performance and reliability of the devices , Have flat gripper pads disposed at equal angles to the traction device the pinching surface, the vertex directed towards the tilting, anti opposite direction transporting i. (L; o 4 th Od 4ik
    公开号:SU1194264A3
    申请号:SU833599705
    申请日:1983-06-01
    公开日:1985-11-23
    发明作者:Райст Вальтер;Эберле Юрг
    申请人:Фераг Аг (Фирма);
    IPC主号:
    专利说明:

    2. The device according to claim 1, about tl and that the stationary pads of the grippers are connected between each other with a flexible tape.
    3. The device according to claim 1, about tons of l and the fact that the width of the clamping surface of the stationary shoe is greater than the width of the clamping shoe, according to the BejJxHOCTH of the movable shoe.
    The invention relates to the printing industry and can be used in conjunction with printing machines. The aim of the invention is to improve the performance and reliability of the device. FIG. Figure 1 shows a device for transporting articles, (a view of the pins in Fig. 2 is view A in Fig. 1; Fig. 3 is a section in Fig. 2; Fig. 4 are gripper pads carried by a pull device (on the left an open gripper , right-side closed grip.) A device for transporting continuously arriving flat paper products contains a driving endless circulating and guiding tool 1, carrying equally located scientific research institutes one relative to the other controlled grippers for a side edge in the direction of transporting 2, each of which includes a stationary block 3 and a movable block 4. Pads 4 and have flat clamping surfaces 5 and 6 at equal angles to the pull device, with the apex of the slope pointing in the direction opposite to the direction of transportation. The 3 grippers are connected by Metdu by means of a flexible tape 7. In addition, the width of the clamping surface 5 of the stationary, the pads 3 is greater than the width of the clamping surface 6 of the movable terminal 4.. The device works as follows. The conveyor belt 8 in the feed direction, shown by arrow B, brings the printed product 2 in the form of a cascade stream S to a clamping device (in Fig. 1 only the receiving section is shown, which serves to receive the cascade stream). The fixture passes in the hollow guide 9 around the guide wheel 10 (Fig. 1). The movable block 4 is in the open position at a right angle to the stationary block, but during closing, the stationary block 3 can be rotated first and then be brought to it (both movements are opposed to the spring), and can also be fixed in the closed position. The clamping surface 5. (FIG. 1) of each of the stationary pads 3 is mainly determined by the plane tilted with respect to the traction device I. The bending tape 7, with which the stationary pads 3 of all the clamps are interconnected, is fixed to the clamping surface 5 of the stationary pads 3 each of the grips. Due to this, the cascade stream S (Fig. 2) arriving at the conveyor belt 8 is loaded from above with a wavy conveyor belt, and the movable pads 4, after turning and coming to the corresponding stationary pads 3, press the cascade flow S from below to the wavy conveyor belt, and in this example, only to the subsequent trailing edge of each wave. The movable shoe 4 (Fig. 3) is in the closed state. The guide 9 is a C-shaped open profile at the bottom, in which the traction device is located. The latter consists of a chain in which a pivot pin 11 between articulated with one another
    links, extended in both directions and at both ends, bears along the chassis roller 12. In holder 13, attached to each link of the chain and projecting out of the hollow guide 9, is rigidly clamped with the help of the clamp screw 14; 15, which with its end is anchored in the gripping housing 16 The guide roller 17 is rotatably mounted on an axis 18 located at a right angle to the axle I1 and interacts mainly with the edges of the shoulders 19 facing one another and the hollow guide 9.
    The stationary block 3 is made integral with the housing 20. On the contrary, the movable shoe 4 is rigidly fixed with a clamp 21 to the rod 22, installed at a right angle to the plane defined by the stationary shoe 3, and fixed with the possibility of displacement against the action of the spring 23 in the housing 20 both in the longitudinal direction and in the direction of rotation. The spring 23 tends to hold the slide 4 in the position shown in FIG. 4 left.
    In addition, a clamp 24 is hinged on the housing 20, having an opening 25 (FIG. 3), through which the rod 22 passes. The clamp 24 is under the action of a compression spring 26 (FIG. 3) that tends to keep the clamp 21 turned down (Fig. 4, counterclockwise). Due to this construction, the rod 22 can simply be rotated and also simply can be shifted upwards from the one shown in FIG. on the left side of the position, but remains fixed in the upward displaced position, i.e. the latch 24 acts to some extent as a one-way clutch for longitudinal displacement of the rod 22, the free running of which can be ensured by raising the latch 24i.
    On the rod 22 (Fig. 2-4), located above the clip 21, which fixes the movable block 4 on the rod 22, an additional node 27 is fixed. The latter carries two interdependent links, of which the first is a protrusion 28 (Fig. 3), and another - roller 29, mounted on node 27
    with the ability to rotate. The protrusion 28 (FIG. 2) interacts with the side edge 30 of the scenes 31 and, when running on this side edge, causes the rod 22 to rotate in the clockwise direction (in Fig. 2); against the action of the spring 23. The roller 29 interacts with the upper, flat side 32 (Fig. 3) of the scenes 3i, which (Fig. 4, the dashed line) forms a lifting frame. Due to this, the rod 31 and the movable shoe 4 rise after a rotational movement caused by the interaction of the protrusion 28 with the side edge 30, i.e. are brought to stationary block 3. In this position, movable block 4 remains fixed by latch 24. Thus, block 4 presses the cascade flow from below to the flexible tape 7, which has due to the inclination of the clamping surfaces of the blocks 3 a waveform.
    In order for the slide 31 to be transferred from the active position i.e. from the position when the grip is attached to the movement in the locking direction, to the rest position, when the conveyor belt 8 should not grab any articles of paper, the link 31 is fixed on the turntable 33, which, with the ps-power of the actuating element, for example the pneumatic cylinder 34 (Fig. 1 ), can be rotated from the working position to the rest position.
    One or several transfer stations of the device (not shown) can be located along the transporting branch of the traction device or in the area of the next guide (deflecting) wheel, which the transporting branch attaches to. At such a transmission station, along with the device perceiving the suspended printing a product, such as a stacking shaft or a conveyor belt, requires only a mechanism, such as a rocker or roller, which interacts with the latch 24 in such a direction that the latch 24 rotates right TIV action of the compression spring 26, whereupon the movable block 4 lightning bounces back from the position shown in FIG. 4 to the right, to the position shown in FIG. 4 to the left. Thus
    the cascade stream is released.
    The grips of the infinitely circulating drive guided throttle gear are intended to capture the side, when viewed in the direction of transport, the edge of the paper product. To increase the rigidity of the serving sideways from the grips of part 2c of the SS 27) 2c of 2927
    of the paper product being transported, the grippers have mainly flat clamping surfaces that are equally inclined with respect to the traction device. Due to this, the transported printed matter is given a waviness transversely to the direction of transport, which provides the desired increase in stiffness. fOjf r7 / //; J3
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    权利要求:
    Claims (3)
    [1]
    1. DEVICE FOR THE TRANSPORTATION OF CONTINUOUSLY ARRIVING FLAT PRODUCTS FROM PAPER, in particular, printed matter arriving in cascade stream, containing a drive endless circulating and guided traction device carrying controlled conveyors located at an equal distance from each other, lateral side transport grips for lateral printing of which includes stationary and movable blocks, it is clear that in order to increase the productivity and reliability of the device va, have flat gripper pads disposed at equal angles to the drawbar device the pinching surface, the vertex directed towards the tilting, anti <opposite direction of transportation.
    C /) with ke>
    1 194264
    [2]
    2. The device according to p. ^ Characterized in that the stationary gripper pads are interconnected by a flexible tape.
    [3]
    3. The device according to l, ^ characterized in that the width of the clamping surface of the stationary block is greater than the width of the clamping surface of the movable block.
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1194264A3|1985-11-23|Device for conveying continuously supplied flat paper articles
    US6612559B2|2003-09-02|Conveying device for collecting and transporting printed sheets placed astraddle on a first chain conveyer
    US5165516A|1992-11-24|Three-way transfer conveyor
    JP2911809B2|1999-06-23|Sorting transa
    JPH0662234B2|1994-08-17|Width sizing machine for both axes of thermoplastic film sheet
    US5199845A|1993-04-06|Article handling machine
    JP2898086B2|1999-05-31|Apparatus for dividing a stream of continuously conveyed overlapping articles
    US4448408A|1984-05-15|Gripper clamps for conveying paper sheet products
    JPH07323947A|1995-12-12|Pickup station of single gripper transfer device
    SU1524805A3|1989-11-23|Device for gripping and conveying stream-delivered printed product
    CA2346090A1|2000-04-13|Device for receiving and transporting objects
    JP3380561B2|2003-02-24|Gripper
    SU1192607A3|1985-11-15|Transporting device for conveying imprints from printing press to receiver table or to another printing press
    SU663294A3|1979-05-15|Device for transporting cascade flow press product
    JP2622735B2|1997-06-18|Conveying device for sheet products sent continuously, especially printed matter
    JP3839529B2|2006-11-01|Clamp for sheet
    US20080156617A1|2008-07-03|Conveyor System
    JP2622724B2|1997-06-18|Method and apparatus for processing products sent by offset overlap knitting
    KR970009256B1|1997-06-09|Conveyor gripper for conveying printed products of one or more sheets
    SE8306953L|1984-07-11|STORAGE AND TRANSPORT DEVICE FOR LOADING PLATES
    CA2308501C|2007-01-02|Clamp for holding flat objects
    US6237751B1|2001-05-29|Clamping claw for an endless conveyer
    JP4567257B2|2010-10-20|Apparatus for guiding and delivering a sheet from a first cylinder to a second cylinder directly adjacent by a holding element for guiding and delivering the sheet in a machine for processing the sheet
    SU120154A1|1958-11-30|Belt conveyor
    US4641829A|1987-02-10|Screen printing machine having a stationary printing table
    同族专利:
    公开号 | 公开日
    AU1506383A|1983-12-08|
    FI831917L|1983-12-03|
    NO153886C|1986-06-11|
    DE3361987D1|1986-03-13|
    JPS58220045A|1983-12-21|
    EP0095602A1|1983-12-07|
    DK248983D0|1983-06-01|
    DK155214C|1989-07-17|
    NO153886B|1986-03-03|
    EP0095602B1|1986-01-29|
    JPH0829875B2|1996-03-27|
    FI72700C|1987-07-10|
    AU554453B2|1986-08-21|
    DK155214B|1989-03-06|
    FI72700B|1987-03-31|
    US4512457A|1985-04-23|
    FI831917A0|1983-05-30|
    NO831978L|1983-12-05|
    MX156631A|1988-09-20|
    AT17697T|1986-02-15|
    DD209790A5|1984-05-23|
    CA1193625A|1985-09-17|
    DK248983A|1983-12-03|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US1079218A|1912-11-23|1913-11-18|James J Curtis|Conveyer.|
    US1920715A|1931-03-23|1933-08-01|Antone Wayne Julian|Laundry flat piece spreader and carrier|
    GB752322A|1953-12-09|1956-07-11|Daverio & Cie A G|Method and device for the conveying of flat paper goods|
    CH559692A5|1973-01-12|1975-03-14|Ferag Ag|
    CH592562A5|1974-05-28|1977-10-31|Ferag Ag|
    US4424965A|1981-06-04|1984-01-10|Advance Enterprises, Inc.|High speed transport system for newspapers and the like|US4638906A|1985-11-19|1987-01-27|Harris Graphics Corporation|Conveyor assembly|
    US4746007A|1986-02-20|1988-05-24|Quipp Incorporated|Single gripper conveyor system|
    DE3861306D1|1987-07-21|1991-01-31|Ferag Ag|TRANSPORTER FOR LARGE PRODUCTS, ESPECIALLY PRINTED PRODUCTS.|
    CH683913A5|1987-10-23|1994-06-15|Ferag Ag|Feed for continuously accumulating fabrics, in particular printed products.|
    EP0330868B1|1988-03-03|1992-04-22|Ferag AG|Process and device for conveying away printed products fed in a shingled formation|
    IT1228029B|1988-12-15|1991-05-27|Salvagnini Transferica S P A S|FLAT SHEET MANIPULATOR, IN PARTICULAR OF SHEET METAL|
    CH680922A5|1990-04-11|1992-12-15|Grapha Holding Ag|
    SE9103290L|1991-11-07|1993-05-08|Wamag Idab Ab|PROCEDURE AND DEVICE TO OPEN A SELF-CLOSED GRIPPING ON A GRIPPING TRANSPORT|
    DK0561308T3|1992-03-17|1996-12-02|Graphic Management Assoc|Interior with a movable conveyor and grippers|
    DE59505081D1|1994-11-18|1999-03-25|Grapha Holding Ag|Process for the production of adhesive-bound books, brochures or the like products|
    US6736391B1|1998-04-28|2004-05-18|Ferag Ag|Method and apparatus for further conveyance of flat objects arriving in a lamellar flow|
    AT228473T|1998-09-04|2002-12-15|Ferag Ag|CONVEYING DEVICE FOR FLEXIBLE, LARGE OBJECTS INCLUDED IN A DANDEL INFORMATION|
    JP2002528356A|1998-10-26|2002-09-03|フェラークアーゲー|Method and apparatus for transporting printed matter|
    DE50005297D1|1999-05-31|2004-03-25|Ferag Ag|Method and device for transporting objects in a scale formation|
    DE50003795D1|1999-06-23|2003-10-30|Ferag Ag|Device for removing scale stream parts from a scale stream|
    US6386816B1|1999-08-30|2002-05-14|Tokyo Kikai Seisakusho, Ltd.|Printed matter transport device|
    DK1274639T3|2000-04-20|2006-02-13|Ferag Ag|Device for transporting flat objects|
    EP1834913A1|2006-03-17|2007-09-19|Ferag AG|Device for picking up and conveying of flat products|
    AU2008328461B2|2007-11-22|2013-06-13|Ferag Ag|Conveyor system and method for conveying planar products|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    CH338682|1982-06-02|
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