• 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:
    Arrangements for ultrasonic sealing comprising a sealing jaw (17) which is combined with an ultrasonics source (15) and a counterjaw (8). During the sealing the parts which are to be sealed to each other are pressed together between working surfaces (18, 19) of the jaws with simultaneous activation of the ultrasonics source as a result of which the parts are welded together. In the sealing of thin material layers it is very difficult to obtain a uniform compression over the whole surface which means that the risk of burning asunder or unsatisfactory sealing increases. In accordance with the invention this is prevented with the help of supporting elements (20) which engage with two stop faces (25) located in the nodal plane of the sealing jaw (17) and on the one hand determine the minimum distance between the working surface, on the other hand orientate the flexibly suspended jaw so that the working surfaces are parallel.
    公开号:SU1366045A3
    申请号:SU843829101
    申请日:1984-12-28
    公开日:1988-01-07
    发明作者:Por Andersson
    申请人:Tetra Pak Int;
    IPC主号:
    专利说明:

    The invention relates to the field of welding and can be used in the manufacture of thermoplastic packaging. The aim of the invention is to improve the quality of welding. The device contains
    welding tool 17 with a source of ultrasound and counter support 8. During welding, parts are pressed to each other by working surfaces 18,
    19 with simultaneous switching on of the ultrasound source. As a result, they are welded; during welding, uniform compression is achieved over the entire surface, as a result, the danger of combustion of certain parts of the attached strips is eliminated. During operation, the supporting hooks 20 abut against two stop surfaces 25 located in the nodal plane of the welding tool. On the one hand, the hooks determine the minimum distance between the working surfaces, and on the other, orient the flexibly suspended support so that the working surfaces are parallel. 4 il.
    'ABOUT
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    The invention relates to the field of soldering.
    The aim of the invention is to improve the quality of welding due to uniform compression of parts over the entire surface.
    Figure 1 shows the device, front view; figure 2 is the same, side view with a partial cut; on fig.Z-10 device with a partial section before the welding operation; 4 shows the device during welding.
    The device contains a molding chain 1 consisting of a set of links 15 that are in loop connections with each other, which are moved with the help of supporting wheels 3 along guides 4 on the bed 5. The endless chain 1 is driven at a constant speed at engine assistance with gear (not shown). On each link 2 of the chain, a molding half 6 is installed, the contour of which corresponds to the configuration 25 of the package that is manufactured. Two molding halves 6, located next to each other, form a recess between them, in which the first tape 7 of packaging laminate at 30 is heated to form the packaging wall. The molding halves 6 have counter supports 8. The tape 7 of the packaging laminate passes over the counter supports 8. A second tape 9 of the packaging laminate is attached to it. The longitudinal edges of the packaging material tape 9 have petals protruding in the transverse direction, which, after bending down before and sealing, must form opposite walls of the finished packages (shown on the right in Fig. 1).
    On the frame 5 there is an ultrasonic case 10 suspended on a hinged parallelogram consisting of levers 11 and two auxiliary levers 12 connected to hinges 13. Opposite ends of the levers are in loop connection with the upper and lower ends of the bracket 14, which is rigidly connected to frame 5 .
    The ultrasonic body is an ultrasonic head 15, which is flexibly suspended using a rubber mount 16. At the lower end of the ultrasonic head 15 a welding tool 17 is installed, whose working surface 18 is located above the working surface 19 of the counter support 8. Two working surfaces 18 and 19. are flat and essentially parallel to each other and the distance between them in the off position is approximately two times the thickness of the two layers being welded.
    On both sides of the counter support 8, there are hooks 20, which are part of the supporting device 21. Two hooks 20 are rigidly connected to each other by means of a transverse frame 22 and are at such a distance from the welding tool 17 and from the counter supports 8 that the latter can freely pass by the hooks with a certain backlash during the movement of the molding chain 1. The frame 22 is pivotally connected with the lower arms 23, which, like the upper 11 and auxiliary 12 arms, are fixedly rotatable in the bracket 14. Between the lower 23 and the upper Shunting levers 11 mounted air cylinder 24
    The upper surfaces of the hooks 20 in working condition abut against two stopping surfaces 25, which are located on each side of the welding tool 17. To prevent the stopping surfaces from heating, they are located in the knotted plane of ultrasonic vibrations. At this point, the amplitude of the ultrasonic oscillations is zero and therefore no energy transfer occurs.
    The device works as follows.
    The forming chain moves from left to right. As a result, the two tapes 7 and 9 of the multilayer packaging material are fed at the same speed between the forming chain 1 and the ultrasonic head.
    Under the action of heat and pressure of one of the tapes 7 of the packaging multilayer material, the C-shape of the molding halves 6 is preset. The central part of the second tape 9 of the packaging material is flat. Kaya and is located at some distance above the tape 7, and the petals protruding to the sides, bend down to the longitudinal side edges of the tape 7 and are welded to them. Between the two tapes 7 and 9 there is a filling tube (not shown). Thus, partially finished packages, po3
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    Steps for welding, fully or partially filled with the required content. we M.
    The execution of the transverse seam is as follows. After the molding chain 1 with the partially finished packages filled is fed to the position when the counter bearing 8 is opposite the welding tool 17, the relative movement between the support and the tool is stopped and they stop. This can be done either by stopping the feeding of the molding chain or by moving the ultrasonic head in the same direction and at the same speed as the molding chain. At this time, the shunting cylinder 24 is actuated and the piston rod moves outwards (FIG. 3), with the result that the ends of the levers are retracted from each other. Thanks to the hinged suspension of the arms in the bracket 14, their opposite ends move towards each other. In this case, the levers 11 move the ultrasonic body 10 downwards, and the lower lever 23 lifts the frame 22 with two hooks 20 upward until the hooks 20 lie on the lower surface of the counterfix 8. With the continuous upward movement of the hooks 20, the counterfinder moves behind them, and the working link 2 of the chain also rises due to its flexible attachment in the adjacent chain link. The ultrasonic head 15 is turned on, and the belts 7 and 9 are clamped between the working surfaces 18 and 19, heated and welded. Since the parallelism between the working surfaces 18 and 19 is not ideal, there is an increased pressure on one or the other end of the gap, where the packaging material is pressed harder and melts faster. In this case, the hook 20 located at this end touches its upper end surface of the locking surface 25 on the welding tool 17 earlier than that located on the opposite side. After the hook has touched one locking surface 25, the movement towards each other is stopped, as a result of which further compression of the packaging laminate material in this place does not occur. However, due to the contacting of the upper end surface of the single hook 20 and the locking surface, a torque is generated relative to the contact point, which, due to the flexible suspension of the counter support 8 and the welding tool 17, causes either the support or the welding tool to turn as long as the hook 20, located on the opposite side, also will not come into contact with the corresponding locking surface 25 on the welding tool 17 (figure 4).
    During the re-movement of the support and the tool, the welding pressure created by the shunting cylinder 24 is distributed along the entire length of the gap, resulting in energy transfer in the direction of the opposite end of the gap with simultaneous heating and pressing of two layers of a multilayer structure to a thickness that is determined by the width of the gap.
    After the movement of the support and tool stops, the supply of ultrasonic energy also stops. The pressure created by the shunting cylinder 24 continues to be maintained for some time, so that the compressed heated part of the belts 7 and 9 is cooled while maintaining pressure to ensure a good quality of the seam. After cooling, the piston rod of the cylinder 24 returns to its original position and through the levers 11 and 23 acts on the ultrasonic body 10 and the frame 22, with the result that the ultrasonic body rises and the frame lowers until the supporting wheels 3 again fall on the guides 4 of the base 5, the lower ends of the hooks 20 will not stop at an appropriate distance from the lower surface of the counter support 8. Then the seam between the two tapes 7 and 9 of the packaging laminate will be welded and the molding chain 1 can be moved again relative to ultrasound case for repeated cycle. The finished waterproof bags are separated from each other in a subsequent operation using a cutting device (not shown), after which the individual bags are removed from the recess in the molding chain 1 and transported further for further processing.
    Due to flexible suspension support 8
    and tool 17, I support 5
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    element 21 is achieved independence of the welding result from the accuracy and thoroughness of the manufacture of relevant parts of the device. In addition, wear and other inaccuracies that occur during operation do not affect the width of the gap between the working surfaces.
    Yu
    权利要求:
    Claims (1)
    [1]
    Claim
    A device for ultrasonic welding, containing an ultrasonic head with a welding tool, a counter-support mounted on the frame and a mechanism for moving products, which is equipped with a rigidly fixed base on the frame to improve the quality of welding.
    a hinged parallelogram bracket connected to an ultrasonic head, a supporting device made in the form of two hooks rigidly connected by a transverse frame, located on opposite sides of the counterpart support, and a pivoting lever mounted on the bracket with a play-cylinder fixed on one shoulder and with the frame, the pneumatic cylinder rod is connected to the articulated parallelogram of the ultrasonic head, while the supporting device is interoperable with the oscillation node planes formed in the welding tool locking surface and mating support is mounted for vertical and horizontal movement.
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    类似技术:
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    US4145236A|1979-03-20|Carton sealing method and apparatus
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    US4581873A|1986-04-15|Device for folding and sealing the head of a folded carton
    CA1071082A|1980-02-05|Apparatus and method for vibration sealing
    US4662978A|1987-05-05|Packed bag transverse sealing mechanism
    SU1366045A3|1988-01-07|Device for ultrasonic welding
    US4083737A|1978-04-11|Method and apparatus for attaching a strip of material transversely of a moving web
    US3879256A|1975-04-22|Apparatus for vibration welding of sheet materials
    CA1183439A|1985-03-05|Walking-beam band sealer
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    JPH10181705A|1998-07-07|Bag-making and packaging machine
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    DK157335B|1989-12-18|PACKAGING MACHINE WITH TIRELY ACTIVATED SEAL CLEARERS
    IT1248753B|1995-01-27|PACKAGING MACHINE WITH HOT WELDING OF PLASTIC FILMS AT VARIABLE SPEED
    RU98108537A|2000-05-20|TRANSVERSE WELDING DEVICE USED IN THE MACHINE FOR MANUFACTURE, FILLING AND SEALING OF PACKAGES
    US3970509A|1976-07-20|Apparatus for simultaneously cutting, sealing and stitching thermoplastic material
    JP2018158738A|2018-10-11|Laterally sealing device in bag-making packaging machine
    KR890003293Y1|1989-05-17|A heating sticking and cutting apparatus of a vinyl bag
    CA1237975A|1988-06-14|Vertical packaging machine
    AU594985B2|1990-03-22|Apparatus for lap splicing strip like material
    同族专利:
    公开号 | 公开日
    EP0149273B1|1988-05-11|
    EP0149273A2|1985-07-24|
    KR930003217B1|1993-04-23|
    US4606786A|1986-08-19|
    AU575894B2|1988-08-11|
    CA1229032A|1987-11-10|
    EP0149273A3|1985-08-21|
    JPH0755685B2|1995-06-14|
    KR850005351A|1985-08-24|
    SE8400009D0|1984-01-02|
    SE454683B|1988-05-24|
    SE8400009L|1985-07-03|
    DE3471063D1|1988-06-16|
    AT34142T|1988-05-15|
    AU3723984A|1985-07-11|
    SG48188G|1989-01-27|
    JPS60158006A|1985-08-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3000157A|1957-06-29|1961-09-19|Ollier Jacques Gaspard Honore|Packaging and similar machines|
    GB952581A|1962-05-12|1964-03-18|Cho Onpa Kogyo Kabushiki Kaish|Improvements in or relating to methods of and apparatus for bonding plastic materials using ultrasonic vibrations|
    US3431593A|1966-12-29|1969-03-11|Univis Inc|Ultrasonic hinge sinking apparatus|
    DE1782213A1|1967-08-03|1971-07-22|Strunck & Co Maschf H|Device for closing hollow bodies, preferably bottles made of thermoplastic material, by ultrasonic welding|
    US3683470A|1969-04-28|1972-08-15|Robert C Mcmaster|Sonic apparatus for drilling and stub setting|
    US3647599A|1969-06-16|1972-03-07|Eastman Kodak Co|Ultrasonic film splicing apparatus|
    US3837782A|1971-12-15|1974-09-24|Filper Corp|Apparatus for forming containers|
    CH562130A5|1973-01-18|1975-05-30|Tetra Pak Dev|
    ZA77281B|1976-01-28|1977-11-30|Ex Cell O Corp|Apparatus and method for vibration sealing|
    SE454584B|1982-04-13|1988-05-16|Tetra Pak Ab|DEVICE FOR PROCESSING A TUB-SHAPED MATERIAL COVER|GB8606640D0|1986-03-18|1986-04-23|Mead Corp|Ultrasonic heat sealing|
    SE9201280L|1992-04-23|1993-10-24|Tetra Laval Holdings & Finance|Apparatus for ultrasonic sealing of thermoplastic materials including a vibration generator of so-called magnetic magnetostrictive powder composite|
    US5775055A|1997-02-21|1998-07-07|Tetra Laval Holdings & Finance, S. A.|Ultrasonic sealing anvil|
    JP4603122B2|2000-02-23|2010-12-22|四国化工機株式会社|Ultrasonic sealing device|
    DE10232330B4|2002-07-17|2006-01-05|Mars Incorporated|Method and device for packaging products in films and film-wrapped product|
    NL1028625C2|2005-03-24|2006-09-27|Ideepak Holding B V|Improved sealing device for sealing foil material together by means of heat.|
    ES2323624B1|2007-08-09|2011-01-31|Fundacio Privada Ascamm|ULTRASONIC DEVICE FOR MOLDING OF MICROPIEZAS DE PLASTICO.|
    WO2013167172A1|2012-05-08|2013-11-14|Sca Hygiene Products Ab|Ultrasonic bonding device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    SE8400009A|SE454683B|1984-01-02|1984-01-02|Ultrasonic Sealing Device|
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