• 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:
    In a mechanism for winding a continous traveling sheet of paper, a device including first and second parallel winder drums driven in rotation in the same direction to support a roll being wound on a core supported between the drums with a rider roll on top of the roll and mechanism for laterally moving the drums apart as a function of increase in size of the roll being wound and measured by a rider roll on the roll.
    公开号:SU1087070A3
    申请号:SU782691701
    申请日:1978-11-30
    公开日:1984-04-15
    发明作者:Вильмот Краузе Джере
    申请人:Белойт Керпорейшн (Фирма);
    IPC主号:
    专利说明:

    Ltd. The invention relates to textile manufacturing, namely, devices for winding web materials onto a mandrel. A device for winding roll materials on a mandrel containing a pair of friction parallel horizontal shafts, a pressure shaft, a mechanism for changing the distance between the shafts and means for removing the wound roll 1 is known. The disadvantage of the known device is the low quality of the winding. The aim of the invention is to improve the quality of the winding. This goal is achieved by the fact that the device for winding rolled sheet materials on a rod containing a pair of friction parallel horizontal shafts, a pressure roller, a mechanism for changing the distance between the shafts and a means for removing the wound roll, has a means of tracking the diameter of the roll with electronic sensor associated with the mechanism for changing the distance between the shafts by means of the control unit. The means for removing the wound roll is made in the form of a lever mechanism having a pusher. The device additionally has a friction shaft, wherein the shafts are installed parallel to one another, and the outer shafts are connected to a mechanism for changing the distance between the shafts. A pusher of means for removing the wound roll is placed above the friction shaft. FIG. 1 shows a device, top view, in FIG. 2 - the same, side view; in fig. 3 shows a section A-A in FIG. in fig. 4 and 5, a mechanism for changing the distance between the shafts; 6, means for removing the wound roll. I A device for winding rolled materials on a mandrel contains friction parallel spaced horizontal shafts 1 and 2 (Fig. 1). Shafts 1 and 2 support the take-up roll 3 and rotate on axes 4 and -5, at the ends of which bearings 6, 7 and 8.9 are placed. Friction shafts 1 and 2 are driven by engines 10 and 11. Engine 10 drives rotational friction shaft 1 through a drive shaft 12 with elastic couplings 13 and 14, and engine 11 friction shaft 2 through a drive shaft 15 and elastic couplings 16 and 17. Engines 10 and 11 are axially shifted relative to each other. The friction shafts 1 and 2 are shifted relative to each other as the size of the roll 3 increases so that the distance between their axes 4 and 5 increases, so as to keep the motors 10 and 11 and the drive shafts 12 and 15 in a state of alignment and ensure constant This rotation of the friction shafts 1 and 2, when they change their position relative to each other, bearings 6 and 7 of the friction shaft 1 and bearings 8 and 9 of the friction shaft 2 are mounted on rails 18 sliding in rails 19 placed in racks 20 ( Fig. 2). The motors 10 and 11 (Fig. 2) are mounted on a slide 21, 22 sliding in rails 23, 24 placed in racks 25, 26. The drive shaft 27 of the mechanism for changing the distance between the shafts rotates the output through a worm gear 28 the shafts 29, 30, which in turn, through the worm gears 31, 32, rotate the motors 10 and 11, respectively. The output shaft 29 leads to the gears of the worm gears 33, 34 of the friction shafts 1 and 2 (Fig. 1). Worm gears 33, 34 rotate screw rods 35, 36, which are screwed into brackets 37, 38 rods 35 and brackets 39, 40 rods 36. Brackets 37-40 are threaded (Fig. 1 and 3) and when the actuator and rod rotate 36 is forcibly diluted or reduced by adjusting the position of the bearings and thus the distance between the friction shafts 1 and 2. The threaded rods 41 and 42 of the engines 10 and 11 have threaded brackets 43, 44 for simultaneously moving the motors when the friction shafts 1 and 2 move. The drive shaft 27 is connected to a position control motor. 45.
    When the friction shafts 1 and 2 move apart, the force between the shaft and the roll changes (Figs. 4 and 5). ,
    The force F perpendicular to the line between the friction shaft 2 and roll 3 ,. The angle is with the force F-J, which represents the force vector that supports the roll 3. The force Fy helps to prevent the roll 3 from dislodging from the winding slot or the gap between the friction shafts 1 and 2.
    When the friction shafts 1 and 2 (Fig. 5) are moved apart, the angle C ° also moves, and the force vector F- increases. For rolls of the same size, the vertical vectors PV and fy I are the same. The horizontal forces F and F become larger when the rolls separate. The horizontal force vector Fj (increases with increasing roll.
    By adjusting the distance between the friction shafts 1 and 2, the amplitude and frequency can be adjusted so that the harmful effects of jumps disappear. The distance between the friction shafts 1 and 2 varies according to the weight and size of the roll. The size of the roll may be determined by diameter or weight. The presser shaft D6, located above roll 3, is connected to a means of monitoring the diameter of the roll 47, which has an electrical output signal that is fed through the electric wires 48 to the control unit 49. The control unit 49 is programmed to sprinkle the signal to the motor to control position 45 through the wires 50 so that the distance between the friction shafts 1 and 2 is controlled by the pressure roller 46.
    The means for removing the wound roll (FIG. 6) is made in the form of levers 51 and 52 and has a jogger 53. A friction shaft 54 is additionally installed in front of the friction shaft 2. The shafts 1 and 2 and 54 are parallel to each other. The outer friction shafts 54 and 1 are connected by a mechanism for changing the distance between the shafts. The push rod 53 is positioned above the middle friction shaft 2. The friction shaft 1 moves transversely relative to the friction shaft 2, which is in a fixed position. The push rod 53 moves transversely to the roll to push it into the levers 51. When the winding of that roll ends, a new roll is formed between the friction shafts 1 and 54.
    The friction shaft 54 moves transversely away from the friction shaft 1 by the position setting mechanism 55. The friction shaft 2 is driven and set in place by the installation mechanism 56. When the coil winding that forms between the friction shafts 2 and 54 is completed, it is pushed out support arms 52.
    The proposed design of a device for winding coiled materials on a mandrel ensures good winding quality.
    Xi
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    权利要求:
    Claims (4)
    [1]
    1. DEVICE FOR WINDING ROLLED SHEET MATERIALS ON THE Mandrel, containing a pair of friction parallel horizontal shafts, a clamping shaft, a mechanism for changing the distance between the shafts and a tool for removing wound-off. roll, characterized in that, in order to improve the quality of the winding, it has means for monitoring the diameter of the roll with an electronic sensor associated with a mechanism for changing the distance between the shafts by means of a control unit.
    [2]
    2. The device according to π. 1, characterized in that the means. in to remove the wound roll is made in the form of a lever mechanism,. having a pusher.
    [3]
    3. The device according to paragraphs. 1 and 2, characterized in that it additionally has a friction shaft, wherein the shafts are mounted parallel to one another, and the extreme shafts are connected with a mechanism for changing the distance between the shafts.
    [4]
    4. The device according to claim 2, characterized in that the collider of the means for removing the wound roll is placed above the middle friction shaft.
    SU < t 1087070 <
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1087070A3|1984-04-15|Machine for winding coiled sheet materials on mandrel
    US5226612A|1993-07-13|Apparatus for winding webs or material
    EP0604558B1|1997-02-05|Reel-up
    CA2433218A1|2003-12-25|Rewinding machine with auxiliary cylinders and respective winding method
    EP0635445B1|1999-09-22|Apparatus for winding
    US2755916A|1956-07-24|Wire storage and regulating means
    US4342432A|1982-08-03|Control system for slitter-rewinder apparatus
    DK157993B|1990-03-12|BAND FOLDING APPARATUS
    CN1950283B|2012-09-05|Method and device for continuously winding up several threads
    US5551644A|1996-09-03|Method of and a device for winding a wire-like product on a flanged reel
    US3779480A|1973-12-18|Translating winder for electric cables
    US3750973A|1973-08-07|Means and method of web slitting and winding
    SU1175360A3|1985-08-23|Apparatus for simultaneous rolling some travelling strips of material
    US3312421A|1967-04-04|Delayed return distributor
    US3425641A|1969-02-04|Capacitor winding apparatus
    CN211569594U|2020-09-25|Tension storage device of napkin paper machine
    US5441213A|1995-08-15|Diameter feedback controlled winding device
    US3409243A|1968-11-05|Winding apparatus
    CN212893040U|2021-04-06|Flange device and roll material equipment
    SU1211189A1|1986-02-15|Device for winding web material
    SU1011294A1|1983-04-15|Apparatus for winding/unwinding elongated products
    SU1197012A1|1985-12-07|Device for applying turn insulation and winding coils of electric machines
    RU2192379C1|2002-11-10|Winding device
    SU662467A1|1979-05-15|Device for rolling carpet articles into reels
    RU14203U1|2000-07-10|WINDING AND WINDING DEVICE
    同族专利:
    公开号 | 公开日
    CA1097296A|1981-03-10|
    PH16076A|1983-06-20|
    GB2017648B|1982-10-06|
    US4171106A|1979-10-16|
    BR7807534A|1980-05-13|
    MX147077A|1982-09-30|
    JPS54132070A|1979-10-13|
    IT1160287B|1987-03-11|
    PL211026A1|1979-10-08|
    IN149950B|1982-06-12|
    PL121004B1|1982-04-30|
    IT7830314D0|1978-11-29|
    ES474966A1|1979-03-16|
    GB2017648A|1979-10-10|
    JPS5717820B2|1982-04-13|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US1455976A|1920-05-01|1923-05-22|Cutlerhammer Mfg Co|Tensioning means for web rolls and other materials|
    US1803043A|1929-04-19|1931-04-28|Bagley And Sewall Company|Paper-roll-winding mechanism|
    DE675979C|1936-10-20|1939-05-23|Kurt Fehlhaber|Double drum winder|
    US2441439A|1944-12-06|1948-05-11|Line Material Co|Method and machine for winding coils|
    DE1083374B|1956-04-16|1960-06-15|Walter Jordan G M B H|Insulating pipe winding machine|
    US3406925A|1966-12-12|1968-10-22|Dominion Eng Works Ltd|Roll ejector|
    US3599889A|1969-12-16|1971-08-17|Beloit Corp|Electronic rider roll control system|
    CA973860A|1971-09-24|1975-09-02|Gerhard W. Dorfel|Supporting-roller reeling apparatus|
    US3858820A|1973-09-27|1975-01-07|Beloit Corp|Double drum winder|
    US3869095A|1973-10-23|1975-03-04|Beloit Corp|Three drum winder|
    US3902667A|1974-03-29|1975-09-02|Clarence L Jackson|Spraying system|
    US4047676A|1974-12-17|1977-09-13|Beloit Corporation|Winder vibration dampener|US4256269A|1978-12-28|1981-03-17|Tex-Del, Inc.|Carpet roll forming apparatus and method|
    US4475696A|1982-09-29|1984-10-09|Birch Brothers Southern Incorporated|Two station winding apparatus|
    US4588138A|1984-06-29|1986-05-13|Paper Converting Machine Company|Web winding machine|
    JPS62125614U|1986-01-31|1987-08-10|
    US5080560A|1990-02-20|1992-01-14|Leroy Jack W|Dryrite borehole dewatering system|
    CA2016013A1|1990-05-03|1991-11-03|Valmet-Dominion Inc.|Double tire reel spool starter|
    US5320299A|1992-01-27|1994-06-14|Beloit Technologies, Inc.|Articulated rider roll system and method|
    FI103398B|1993-06-30|1999-06-30|Metso Paper Inc|Drum winder|
    US5441213A|1993-08-31|1995-08-15|Cooper Machinery, Inc.|Diameter feedback controlled winding device|
    US6027067A|1994-08-19|2000-02-22|Alexander Machinery, Inc.|Spread winder and method|
    DE19524905A1|1995-07-08|1997-01-09|Jagenberg Papiertech Gmbh|Coiling machine with support rolls for winding webs of material, especially paper or cardboard - has movably mounted support rollers with gap between under which is air receiver with compressed air inflow and outlet|
    DE10125192A1|2001-05-23|2002-11-28|Voith Paper Patent Gmbh|Method and device for active vibration damping in winding machines|
    DK1375400T3|2002-06-25|2004-07-19|Celli Nonwovens Spa|Rolling machine with flanks carrying cooperating pins moving along a closed path|
    DE102004037217A1|2004-07-30|2006-03-23|Phoenix Ag|winder|
    DE102005000003A1|2005-01-19|2006-07-20|Voith Paper Patent Gmbh|King roll winding machine for rolling up a length of material like paper or cardboard has an on-load roller for pressing a winding roller into a winding bed|
    DE102011112032A1|2011-08-31|2013-02-28|Andritz Küsters Gmbh|Process for winding cut fed winding material and double carrier roll|
    JP6315949B2|2013-11-19|2018-04-25|キヤノン株式会社|Sheet conveying apparatus and image forming apparatus|
    EP3385202A1|2017-04-06|2018-10-10|ABB Schweiz AG|Winding machine and method for controlling a second nip pressure|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    US05/892,216|US4171106A|1978-03-31|1978-03-31|Method of continuous winding|
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