• 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:
    A programmable platen for use in a label applying system wherein the labels are transferred to the platen and retained thereby under negative pressure and subsequently driven from the platen by application of positive pressure. The platen comprises a number of pin like valves of differing type which are inserted into the platen in accordance with a desired configuration or program so as to provide the appropriate suction and blowing characteristics for the platen in differing applications for applying labels or the like.
    公开号:SU1077564A3
    申请号:SU813300944
    申请日:1981-06-22
    公开日:1984-02-29
    发明作者:Йохан Баумли Петер
    申请人:Baumli P J;
    IPC主号:
    专利说明:

    The invention relates to packaging technology and can be used for attaching labels to the surface of products.
    A known table for supplying labels, consisting of two plates interconnected with each other with the formation of the chamber, having coaxial holes, while the chamber is in communication with a source of vacuum or high pressure [jj.
    The disadvantage of this device is the design complexity and unreliability, and the closest in technical essence to the proposed one is a table for supplying labels, consisting of two plates interconnected to form a chamber, having coaxial holes communicated with a vacuum or high pressure source [2].
    A disadvantage of the known device is the unreliability of working with labels of various sizes and shapes.
    The purpose of the invention is to increase reliability when working with labels of various shapes and sizes.
    This goal is achieved in that the table for supplying labels, consisting of two plates interconnected to form a chamber, having coaxial openings in communication with a vacuum or high pressure source, is equipped with an additional plate with openings located coaxially with the openings of the main plates, interchangeable valve 5 pins located in the holes of the plates for communication of their holes with a source of vacuum or high pressure.
    In addition, each of the valve Ιθ pins consists of a rod, the length of which ensures its passage through the holes of all the plates, and gas-tight elements located on the rod between the plates.
    Each of the valve pins can • 5 consist of a rod, the length of which ensures its passage through the holes of the lower and middle plates, and gas-tight elements located on the rod between the above plates,
    Each of the valve pins can consist of a rod with channels formed in it for communicating one of the chambers with the surface of the upper plate 25 having a length that allows eiO to pass through the openings of all the plates and gas-tight elements located on the shaft between these plates,
    Each of the valve pins may consist of a rod with channels formed therein for a chamber located between the lower and middle plates with the surface of the upper plate having a length that allows it to pass through the holes of all plates and gas-tight elements located on the rod between the above-described plates', 5
    Gas-tight elements can be made in the form of rings,
    Valve pins can be made of plastic material.
    Gas-tight elements can 10 be made in one piece with the rods.
    In FIG. 1 shows the proposed table, in plan; in FIG. 2, section A — A in FIG. 1 (without through holes) 15. in FIG. 3 - the same, with through holes and four types of valve pins.
    The table comprises a top plate 1 with through holes 2, koto ^ q rye may be arranged in different ways, depending on the labels and their shape, middle 3 and bottom 4 plates which define between them a chamber 5 and 6 connected respectively 2 5 but with a source of vacuum and high pressure, and four types of valve pins made by casting from plastic material. One type of valve pins consists of rods 7 with a Central valve 8 and a transverse channel 9 connected to the chamber, and gas-tight rings 10 located on the rod 7 to provide sealing * between the rod 7 and the plates 1,3 and 4. Another type of valve pins · 35 goods consists of a rod 11, the length of which allows it to pass through the holes of the plates 3 and 4, and gas-tight rings 12. The third type of valve pins consists of a rod 13 40 with a central channel 14 and a transverse channel 15 in communication with one of the supply chambers vacuum or positive pressure to the surface of the upper ^ 'plate 1, and gas-tight rings 16. The fourth type of valve pins consists of a rod 17, the length of which allows it to pass through the holes of all plates and gas-tight rings 18, each of the pins protrudes from the bottom plate 4 so that the programmer could easily replace or remove them in any desired order.
    The device operates as follows.
    Labels are distributed towards the upper plate 1 of the table and are held on it by the vacuum created in the chamber 5, the latter being connected to the plate 1 via rods 13 and 11. After the surface of the product on which the label is to be glued is opposite the table with the label, pressure is supplied from the chamber 6, which through the rods 7 and 13 enters the outer surface of the upper plate 1, separates the label from it and presses it to the surface of the product.
    When sticking labels, not all types of valve pins can be used. For example, only rods 13 and 17 can be used to feed labels, and a combination of! All rods 7, 11, 13 and 17 can! Be used to accurately hold and position the label on the ’surface of the moving container. In the case of self-adhesive labels, pressure can be used to place labels on the table.
    Using the proposed device allows you to get an economic effect, which consists in the possibility of filing labels of various shapes and sizes.
    fig.Z
    VNIIIPI Order 784/55 Circulation 694 Subscription branch PPP Patent, Uzhhorod, Project 4,
    权利要求:
    Claims (8)
    [1]
    one
    VI
    : l
    four
    (Reg. 7
    [2]
    2, A table according to claim 1, distinguished by a real one and the fact that each of the valve pins consists of a rod whose length allows it to pass through the openings of all the plates and gas-tight elements located on the rod between the plates.
    [3]
    3, Table on PP. 1 and 2, characterized in that each of. Valve pins consists of a rod, the length of which provides for its passage through the bottom holes. and middle plates, and gas-tight elements located on the rod between the said plates.
    [4]
    4, 1SPO little table, 1-3, from the fact that each of the valve pins consists of a rod with channels formed in it to communicate one of the chambers with the surface of the upper plate having a length that allows it to pass through the openings of all the plates and gas-tight elements arranged The invention relates to packaging technology and can be used to attach labels to the surface of products. There is a known table for supplying ethics with a current consisting of two plates interconnected with the formation of a chamber and having coaxial holes, the chamber being in communication with a source of vacuum or increased pressure l. The disadvantage of this device is the complexity of the design and lack of reliability in operation. The closest in technical essence to the present invention is a table for supplying labels, consisting of two plates interconnected with the formation of a chamber, and have XI coaxial holes communicated with a vacuum source. or overpressure 2. A disadvantage of the known devices is the unreliability of working with labels of various sizes and shapes. The purpose of the invention is to increase the reliability when working with labels of various sizes. The goal is achieved by the fact that a table for supplying labels, consisting of two interconnected with the formation of a chamber plates with coaxial holes, connected with a source of vacuum or burned on the rod between the indicated plates,
    [5]
    5, Table on PP. 1-4, each of which consists of a valve pin consisting of a rod with channels formed in it, to communicate a chamber located between the bottom and middle plates,
    with the surface of the upper plate having a length that allows it to pass through the openings of all the plates and gas-tight elements located on the rod between the said plates.
    [6]
    6. The table on PP. 2-5, characterized in that the gas-tight elements are designed in the form of rings.
    [7]
    7, Table on PP. 1-5, which means that the valve pins are made of plastic material.
    [8]
    8. The table on PP. 1-7, characterized in that the gas-tight elements are integrally made with rods. The pressure is provided with an additional plate with holes arranged coaxially with the holes of the main plates, replaceable valve pins arranged in the holes of the plates to communicate their holes with a source of vacuum or increased pressure. In addition, each of the valve pins consists of a rod, the length of which ensures its passage through the openings of all the plates, and gas-tight elements located on the rod between the plates. Each of the valve pins may consist of a rod, the length of which allows it to pass through the holes of the lower and middle plates, and the gas gap fcJX elements located on the rod between the above-described plates. Each of the valve pins may consist of a rod with channels formed in it to communicate one of the chambers with the top plate, having a length that allows it to pass through the openings of all the plates and gas-tight elements located on the center line between these plates. Each of the valve pins may consist of (Ytrzhn with channels formed in it to communicate the chamber positioned between the lower and middle plates with the surface of the upper plate having a length allowing it to pass through the holes of all the plates and the gas-tight elements located on the rod between the above-described plates . Gas-tight elements can be made in the form of rings, Valve pins can be made of plastic material. Gas-tight elements can be made in one About the whole with rods. In Fig. 1, the table is shown in the plan; in Fig. 2 .- section A-A in Fig. 1 (without through holes in Fig. 3 - the same, with through holes and four types of valve pins. The table consists of the top plate 1 with through holes 2, KOTO rye can be arranged differently depending on the size of the labels and their shape, the middle 3 and the bottom 4 plates, which form between them chambers 5 and b, connected respectively with a source of vacuum and overpressure, and four types of valve pins, manufactured cast from plastic material. One type of valve pins consists of rods 7 with a central valve 8 and a transverse channel 9 in communication with the chamber, and gas-tight rings 10 located on the rod 7 to provide a seal between the rod 7 and the plates 1,3 and 4. The other type of valve pins consists of the rod 11, the length of which ensures its passage through the holes of the plates 3 and 4, and the lawn of permeable rings 12. The third type of valve pins consists of a rod 13 with a central channel 14 and a transverse channel 15 communicated from one of the vacuum chambers or positive pressure to the surface of the upper plate 1, and gas-tight rings 16. The fourth type of valve ShTiftov consists of a rod 17, the length of which ensures its passage through the holes of all the plates and gas-tight rings 18, each of the pins protrudes from the bottom plate 4 so that the programmer can easily replace or remove them in any desired order. The device works as follows. The labels are distributed towards the top plate 1 of the table and are held on it by the action of the vacuum created in chamber 5, the latter being connected to the plate 1 by means of rods 13 and 11. After the surface of the product to which the label is to be pasted is opposite a table with a label, pressure is applied from chamber 6, which, through rods 7 and 13, flows to the outer surface of the upper plate 1, separates the label and presses it against the surface of the product. When labeling is applied, not all types of valve pins can be used. For example, ONLY the rods 13 and 17 can be used to feed labels, and the combination of all rods 7, 11, 13 and 17 can be used to accurately STAND and position the label on the surface of the moving container. In case of using self-adhesive labels, you can use pressure to place labels on the table. The use of the proposed device allows to obtain an economic effect, which consists in the possibility of supplying labels of various shapes and sizes.
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1077564A3|1984-02-29|Table for supplying labels
    KR890004949A|1989-05-10|Compact forming-filling-sealing machine for automatic production of sealed packages
    US2970414A|1961-02-07|Method and apparatus for blister packaging
    GB1258177A|1971-12-22|
    NZ212166A|1987-04-30|Stamping die with air passages
    ES433297A1|1976-12-01|Single dose, replaceable supply air pressure operated dispenser
    GB1409366A|1975-10-08|Apparatus for working highly viscous and like material
    GB944239A|1963-12-11|Method of packing articles and apparatus for carrying out the method
    US2863267A|1958-12-09|Air extractor and sealing device
    US3844091A|1974-10-29|Package cut-out apparatus
    GB1224393A|1971-03-10|Improvements in or relating to a method and apparatus for forming a pocketed web
    GB739015A|1955-10-26|Improvements in means for sealing materials by heat
    US3019505A|1962-02-06|Press provided with at least one die for moulding products from ceramic material
    US2564624A|1951-08-14|Method and means for making lipsticks
    US3291675A|1966-12-13|Label and indicia applying drum
    US7478662B2|2009-01-20|Apparatus for sealing foils to each other
    CA1012937A|1977-06-28|Valve member for product material depositing apparatus
    GB1517220A|1978-07-12|Semipermeable membrane separation apparatus
    US2966019A|1960-12-27|Apparatus used in filling and closing machines for evacuation of gas treatment
    GB1184481A|1970-03-18|Packaging Apparatus
    AT326088B|1975-11-25|VALVE AND MIXING DEVICE FOR MIXING TWO FLOWING MEDIA SUPPLIED UNDER PRESSURE
    US3764051A|1973-10-09|Apparatus for clamping sheet material to a rotary drum
    GB279170A|1927-10-24|Improvements in or relating to wrapping machines
    SU580813A3|1977-11-15|Device for joining bottom with cylinder of articles made of thermoplastic material
    JPS5865523A|1983-04-19|Hydraulic drawing device
    同族专利:
    公开号 | 公开日
    DK253481A|1981-12-24|
    PT73243B|1982-10-15|
    FI64779C|1984-01-10|
    ES503240A0|1982-05-01|
    DE3124337C2|1990-12-06|
    NL8103029A|1982-01-18|
    AT385012B|1988-02-10|
    GB2078668A|1982-01-13|
    NZ197335A|1985-03-20|
    CH653633A5|1986-01-15|
    PL231813A1|1982-01-18|
    ES8204379A1|1982-05-01|
    US4392913A|1983-07-12|
    BE889331A|1981-10-16|
    DE3124337A1|1982-04-22|
    NO812127L|1981-12-28|
    PL128324B1|1984-01-31|
    CA1165283A|1984-04-10|
    FR2484956B1|1985-05-24|
    JPH0217418B2|1990-04-20|
    FR2484956A1|1981-12-24|
    FI811778L|1981-12-24|
    GR74581B|1984-06-29|
    JPS5737535A|1982-03-01|
    ATA264781A|1987-07-15|
    PT73243A|1981-07-01|
    SE8103880L|1981-12-24|
    YU150881A|1984-08-31|
    FI64779B|1983-09-30|
    GB2078668B|1983-12-21|
    SE442980B|1986-02-10|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB752469A|1954-02-27|1956-07-11|Press Equipment Ltd|Suction devices for picking up articles|
    US3483059A|1965-12-17|1969-12-09|Avery Products Corp|Applicator for pressure-sensitive adhesive labels|
    US3379466A|1966-09-07|1968-04-23|Procter & Gamble|Pressure-sensitive label receiving and applying station|
    DE2054924B2|1969-11-21|1973-11-15|O.R.M.A.G. S.R.L., Novegro Di Segrate, Mailand |Pneumatically acting device on sheet feeders for printing machines to remove the attraction caused by electrostatic charge|
    US3645832A|1970-02-02|1972-02-29|Avery Products Corp|Pneumatic label application system|
    US3984277A|1972-09-15|1976-10-05|Compac Corporation|Label applicator|
    US3888725A|1973-03-16|1975-06-10|Compac Corp|Air manifold with mask and label applicator utilizing the same|
    US3885705A|1974-03-12|1975-05-27|Compac Corp|Label applicator with retention means for flexible air tubes|US4680082A|1985-10-04|1987-07-14|Markem Corporation|Label applicator|
    US4741748A|1986-01-30|1988-05-03|Corning Glass Works|Heating oven for preparing optical waveguide fibers|
    JPS62130007U|1986-02-08|1987-08-17|
    GB8704893D0|1987-03-03|1987-04-08|Waddington John Plc|Handling of sheet materials|
    WO1988010213A1|1987-06-17|1988-12-29|Terumo Kabushiki Kaisha|Label bonding die for flexible articles|
    US5232540A|1991-09-30|1993-08-03|Ithaca Industries, Inc.|Automatic labeling machine and method|
    US5470420A|1992-07-31|1995-11-28|Eastman Kodak Company|Apparatus for label application using Bernoulli Effect|
    DE9310301U1|1993-07-10|1993-10-14|Farbfoto Schnellservice Siegfr|Labeling device|
    GB2291856B|1994-07-28|1998-09-30|Novatronic Sa|Long-distance labelling machine for mass-labelling of packages of different sizes and shapes|
    US5753072A|1995-06-05|1998-05-19|Monarch Marking Systems, Inc.|Label applicator and method of making same|
    DE19606199C1|1996-02-21|1997-04-10|Bizerba Gmbh & Co Kg|Equipment to apply labels to packets and articles|
    DE19637822C1|1996-09-17|1998-03-26|Deutsch Zentr Luft & Raumfahrt|Micromechanical tool|
    GB2330127B|1997-10-08|2002-01-30|Markem Tech Ltd|Label applying apparatus|
    JP3444236B2|1999-05-21|2003-09-08|日本電気株式会社|Label sticking device|
    GB2353269A|1999-08-20|2001-02-21|Markem Tech Ltd|Method and apparatus for conveying lamina objects|
    DE20203307U1|2002-03-01|2003-07-10|Avery Dennison Corp|Application head for an application device|
    US6845800B2|2002-05-31|2005-01-25|Illinois Tool Works, Inc.|Tamp pad for label printer applicator|
    US8215943B2|2006-06-01|2012-07-10|Avery Dennison Corporation|Heat-transfer label assembly and apparatus for applying heat-transfer labels|
    EP2996945A1|2013-05-17|2016-03-23|NuLabel Technologies, Inc.|Automated label application device|
    DE102015119139A1|2015-11-06|2017-05-11|Espera-Werke Gmbh|Stamp foot for a label stamp and apparatus and method for labeling individual packages|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    AUPE415780|1980-06-23|
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