• 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 welding, in particular, to devices for welding the longitudinal edges of the cuff shells. The purpose of the invention is quality improvement. The device comprises a conveyor 1, a guide element 6 mounted parallel to the longitudinal axis of the shell 5 and adapted to interact with the longitudinal edges 3 and 4 of the shells 5, a calibration hatch 7 for the radial direction of the shells, a welding tool 9 and a transverse deflection sensor 10. The device also has an additional conveyor 8, the output section of which is overlapped with the end section of the calibration stand 7, and a magnetic device. The device can be equipped with transporting ribbons arranged symmetrically with respect to the longitudinal axis of the guide element 6 in the area of the welding tool 9. The magnetic device can be made as a permanent magnet located under the upper branch of the conveyor 8 with an intermediate non-magnetic layer between its poles or magnets whose poles of the same name are placed above the lower branches of the respective conveyor belts. Due to such an embodiment of the device after the shell leaves the calibration stand 7, the edges are brought closer by the magnetic forces of attraction of the magnetic device, which improves the quality. 2 hp ff, 5 ill. & Oh and o (lu so
    公开号:SU1657052A3
    申请号:SU874203813
    申请日:1987-12-08
    公开日:1991-06-15
    发明作者:Де Паоли Альбано;Гыси Петер
    申请人:Эльпатроник Аг (Фирма);
    IPC主号:
    专利说明:

    The invention relates to welding, in particular to a device for welding the longitudinal edges of the cans shells.
    The purpose of the invention is to improve the quality of contact butt welding of the longitudinal edges of the sides of cans.
    Fig. 1 shows a device, a general view; Fig. 2 shows a section A-A in Fig. 1; a fig. 3 shows a section B-B in Fig. 1 (in one embodiment of a magnetic device); 4 is the same with the second embodiment of the magnetic device; FIG. 5 is a section RB in FIG. A.
    The device contains a Tpaucnopicp 1, an outer guide element 2 for the longitudinal edges 3 and 4 of the shells 5, a gripping device 6 for the longitudinal movement of the shells 3, a calibration stand 7 for radially crimping the shells, an additional conveyor 8 whose inlet section is located with the overlapping zone the end section of the calibration stand 7, and the welding tool installed outside the zone of the guide element 2. The latter includes a welding tool 9 and a transverse deflection sensor 10 of the welding tool. The sensor 10 is connected to a drive (not shown) of the carriage 11 for transverse displacement of the welding tool 9.
    The guide element 2 is made in the form of a tire with lateral longitudinal grooves 1. and 13 for longitudinal crocures 3 and A of the shells 5.
    The gripping device 6 is made in the form of a closed chain conveyor, on which, in pairs at a distance equal to the length of the shell 5, the grippers 1 4 are locked for the end walls 15 of the shells 5.
    The device can be equipped with two-sided, transporting penta 16 and 17, located symmetrically with respect to the longitudinal axis of the guide element 2 in the seating area of the welding tool 9.
    In addition, the device is equipped with a magnetic device for reducing the edges of the shells 5.
    According to the first embodiment of the tool (Fig. 3), it is a permanent magnet 18 placed under the upper branch of the conveyor 8, between the poles NS and SN. located non-conductive

    P

    five
    five
    Wash the exact 19. The supporting surface 20 of the magnet 18 has a concave shape.
    According to the second embodiment of the magnetic device (Fig. 4), it consists of permanent magnets 21, the same poles of these magnets are connected by tires 22 and 23, each of which covers the lower branches 24 of the transporting tapes 16 and 17.
    The belt 25 of the conveyor 8 is located between the guide bars 26, is made of a non-magnetic material, for example rubber or rubber-like plastic, and the grippers 27 for the shells 5.
    Sensor 10 may be configured as an optical sensor or as a sensor acting on a magnetic scattering field.
    The device works as follows.
    The shells 5 by the conveyor 1 are fed into the calibration stand 7, while the longitudinal edges 3 and 4 of the shells enter the longitudinal grooves of the guide element 2 and as the sheath moves along the guide element, the edges 3 and 4 approach one another. Calibration stand 7 provides radial crimping of the shells 5.
    Along the stand 7, the sides are mixed by the grippers 14 of the gripping device 6, which interact with. end walls 15 shells 5.
    After leaving the calibration stand 7, the shells are moved by an additional conveyor 8 and transporting belts 16 and 17 to the welding zone. In the area of the additional conveyor 8 and the transporting belts 16 and 17, magnetic field lines of magnetic devices act on the shell.
    As a result of the action, magnetic attraction forces are created between the longitudinal edges 3 and 4 of the shells 5, which exclude the possibility of diverging the edges in the welding zone.
    The speed of the belt 25 is slightly lower than the speed of the chain conveyor of the gripping device 6, as a result of which the front wall 15 of the following oTerectionlessly adheres to the rear pepper wall 15 of the shell 5, which leaves the zone of action of the chain conveyor. This magnetic flux contributes to the fact that
    at
    10 2f 19
    U /,
    23
    AT
    24
    FIG.
    21
    Fig 5
    权利要求:
    Claims (3)
    [1]
    .Claim
    1. A device for butt welding of the longitudinal edges of the shells of cans, comprising a conveyor mounted on a parallel axis of the conveyor axis of the guide element for the longitudinal edges of the shells, a calibration stand for radial crimping of the shells and located outside the area of the guide element, a welding unit with the ability to be installed perpendicular to the longitudinal axis of the guide element movement in a plane perpendicular to the longitudinal axis of the guide element, a welding tool and a transverse deflection sensor with Arch tool, characterized in that, to improve quality, it is provided a device for magnetic information edges cans and shells mounted parallel to the axis of the gauge stand an additional conveyor, the input portion of which is overlapped with the end portion of the gauge stand area.
    [2]
    2. The device according to claim 1, which implies that the magnetic device is made in the form of a magnet installed under an additional conveyor with an intermediate non-magnetic layer located between its poles.
    [3]
    3. The device according to p. poles of the same name located respectively on each of the tapes.
    Aa
    Phi g2.
    figl v'v
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1657052A3|1991-06-15|Apparatus for butt welding of longitudinal edges of can shells
    EP0842760A3|1998-12-09|Conveyor assembly for strip material
    AT42528T|1989-05-15|BOW SEGMENT FOR GUIDING A CHAIN CONVEYOR.
    DE3880795D1|1993-06-09|DRIVE WITH TWO SPEEDS FOR MOTOR DRIVEN TAPING MACHINE.
    IT8319961D0|1983-03-08|ELECTRICALLY OPERATED APPARATUS FOR FORCE INTRODUCTION FIXING MEANS.
    KR860000198A|1986-01-27|Board Aligner
    IT8023570D0|1980-07-21|VOLTAGE DEVICE, IN PARTICULAR FOR FASTENING WHEELS OF VEHICLES ON THE TENSION SHAFT OF A BALANCING MACHINE.
    FR2354413A1|1978-01-06|WIRING AND GUIPING MACHINE
    FR2610242B1|1989-12-08|ENDLESS CHAIN TRACK WITH PLIERS FOR DRAWING MACHINE
    FR2457457A1|1980-12-19|DEVICE FOR LIFTING A SHEET STRIP IN A SUSPENSION DRYER
    FR2660785B1|1992-08-07|DEVICE FOR INSERTING ADVERTISING ON CONTINUOUS CONVEYOR BELTS.
    IT8522575D0|1985-10-22|WIDE BELT SANDING MACHINE.
    JPH02147570A|1990-06-06|Carrying device for string carrier on conveyor belt
    JPS5699200A|1981-08-10|Chain guide limit mechanism separation type travelling motor chain block
    FR2587182B1|1988-01-08|BOTTLE BELT PROVIDED WITH A DEVICE FOR QUENCHING WITHOUT DETACHING THE BELT
    JPS6122642A|1986-01-31|Wafer carrier system
    JPS5924630A|1984-02-08|Linking device for orienting sheet-like material and orientation machine utilizing it
    SE9402251L|1995-12-24|Reversing device for conveyor belt
    JPS6016337A|1985-01-28|Direction aligning device
    EP0228157A3|1988-04-06|Method and apparatus for scribing grain oriented silicon steel strip
    JPS54108390A|1979-08-24|Transfer type cell guide device of container ship
    SU878676A2|1981-11-07|Steep-inclined belt conveyer
    JPS61226240A|1986-10-08|Workpiece clamp device
    FR2723731B1|1996-11-08|DEVICE FOR TENSIONING AN ENDLESS DRIVE CHAIN, ESPECIALLY FOR A CONVEYOR.
    EP0643000A4|1995-01-30|Paper piece conveying system.
    同族专利:
    公开号 | 公开日
    HUT45436A|1988-07-28|
    GR3001225T3|1992-07-30|
    US4824007A|1989-04-25|
    ES2018231B3|1991-04-01|
    BR8706610A|1988-07-19|
    FI875411A0|1987-12-09|
    FI875411A|1988-06-10|
    CH672208A5|1989-10-31|
    EP0273135A1|1988-07-06|
    DE3643104C1|1988-03-24|
    KR880007166A|1988-08-26|
    NO875109D0|1987-12-08|
    JPS63157777A|1988-06-30|
    NO875109L|1988-06-10|
    CN87107327A|1988-06-22|
    DE3765528D1|1990-11-15|
    CA1282842C|1991-04-09|
    AU8099287A|1988-06-09|
    HU197532B|1989-04-28|
    CN1008429B|1990-06-20|
    AU593487B2|1990-02-08|
    EP0273135B1|1990-10-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3431383A|1963-06-07|1969-03-04|Continental Can Co|Edge guidance of an unseamed tube in the continuous welding of the tube|
    SU363535A1|1971-06-03|1972-12-25|Днепропетровский Трубопрокатный Завод Имени Ленина|FORMING CHAIN OF THE PIPE ELECTRIC WELDING MILL|
    JPS5175496A|1974-12-25|1976-06-30|Mitsubishi Heavy Ind Ltd|SHIIMUKENS HUTSUHO|
    CA1091773A|1977-02-14|1980-12-16|Edward G. Spisak|Welding machine|
    FR2507310B1|1981-06-04|1985-03-22|Commissariat Energie Atomique|
    JPS5987990A|1982-11-10|1984-05-21|Nisshin Steel Co Ltd|Laser beam machine|
    US4577796A|1984-10-10|1986-03-25|Kaiser Steel Corporation|Method and apparatus for tracking seam welds on pipes and the like|
    JPS61195792A|1985-02-27|1986-08-30|Toyo Seikan Kaisha Ltd|Production of can body|
    CH667411A5|1985-09-09|1988-10-14|Elpatronic Ag|FRAME GUIDANCE ON A MACHINE FOR TUBE WELDING CAN TANKS.|CH677624A5|1988-12-21|1991-06-14|Elpatronic Ag|
    JPH0616953B2|1989-05-16|1994-03-09|東洋製罐株式会社|Equipment for manufacturing outer cans for dry batteries|
    DE3932551C2|1989-09-29|1998-07-09|Krupp Kunststofftechnik Gmbh|Device for feeding rounded can bodies into the area of a welding unit|
    FR2687336B1|1992-02-14|1996-05-15|Jammes Ind Sa|AUTOMATED PRODUCTION LINE FOR WELDED ROLLED RODS.|
    NZ247529A|1993-04-30|1996-07-26|Fletcher Challenge Ltd|Structural hollow section longitudinal seam welding apparatus|
    TW294643B|1994-02-08|1997-01-01|Elpatronic Ag|
    US5768137A|1995-04-12|1998-06-16|American Research Corporation Of Virginia|Laser aligned robotic machining system for use in rebuilding heavy machinery|
    CA2322545A1|1998-03-03|1999-09-10|Elpatronic Ag|Method and device for transferring a hollow-profile blank|
    DE10007496C1|2000-02-18|2001-04-26|Dreistern Werk Maschinenbau Gmbh & Co Kg|Metal profile manufacturing line has profiling machine with rolling tools and welding device with single energy source coupled to at least 2 welding heads|
    US6871771B2|2002-04-26|2005-03-29|Douglas G. Tonjes|Automated header brazing machine|
    JP4583340B2|2006-06-14|2010-11-17|彰久 村田|Pipe holder|
    EP1914033B1|2006-10-16|2011-04-20|Soudronic AG|Conveyor device for objects having different sizes ; Welding device with such a conveyor device ; Process of welding of can bodies having different sizes|
    CN101758352B|2009-11-17|2012-02-08|武汉法利普纳泽切割系统有限公司|Longitudinal-seam laser welding positioning device for thin-wall circular tube|
    DE102012212718B3|2012-06-28|2013-08-29|Rofin-Baasel Lasertech Gmbh & Co. Kg|Apparatus, useful for separating a longitudinally extended cylindrical workpiece e.g. pipe having a diameter in a sub-millimeter range into portions, comprises clamping device having clamping jaws and insertion opening for workpiece|
    CN103659062A|2012-09-03|2014-03-26|常州森旭自动化科技有限公司|Tunnel type cylinder longitudinal seam welding machine|
    RU2510686C1|2012-10-25|2014-04-10|Российская Федерация от имени которой выступает Министерство промышленности и торговли |Method of making welded thin-wall conical shells with stiffness ribs|
    CN103111027A|2013-02-04|2013-05-22|抚顺中煤科工安全仪器有限公司|Carbon dioxide absorption pot of compressed oxygen self-rescuer and processing method|
    US9302353B2|2013-12-19|2016-04-05|Randel Brandstrom|Apparatus for cutting pipe|
    CN104889567B|2014-03-05|2017-03-29|大典五金制品(九江)有限公司|The laser welding processing technology of compressor liquid storage device|
    US20150343507A1|2014-05-28|2015-12-03|Taylor-Winfield Technologies, Inc.|Barrel tank seam welder system|
    US20180001370A1|2014-05-28|2018-01-04|Taylor-Winfield Technologies, Inc.|Barrel tank seam welder system|
    US10150176B2|2014-05-28|2018-12-11|Taylor-Winfield Technologies, Inc.|Barrel tank seam welder system|
    CN106425193A|2015-08-12|2017-02-22|王亚萍|Automatic welding machine for longitudinal joint|
    CN105149881B|2015-09-18|2018-06-26|武汉一冶钢结构有限责任公司|A kind of group of conjoined storage tank is to method|
    CN111055016B|2020-01-06|2021-09-03|武汉大族金石凯激光系统有限公司|Pipe laser welding machine|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    CH4906/86A|CH672208A5|1986-12-09|1986-12-09|
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