• 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:
    When moving insulating glass blanks (1) before, during and after the sealing thereof, conveyors (10) are used with support and moving supports (12) supporting the insulating glass blanks. The supports (12) on the conveyor (10) are aligned relative to the insulating glass blank (1) so that in the region of corners (20) of the insulating glass blank (1), ie where seal (2) over the outer circumference of Insulated glass blank (1) can survive, no support (12) abut the insulating glass blank.
    公开号:AT515212A4
    申请号:T54/2014
    申请日:2014-01-27
    公开日:2015-07-15
    发明作者:Leopold Ing Mader
    申请人:Lisec Austria Gmbh;
    IPC主号:
    专利说明:

    The invention relates to a method having the features of the introductory part of claim 1.
    Horizontal conveyors which engage the lower edge of a substantially solder-oriented insulating glass blank are known. These conveyors convey insulating glass blanks for delivery to a sealing station while they are being sealed and for feeding sealed insulating glass blanks after further sealing or further processing or storage.
    Another application of horizontal conveyors for insulating glass blanks or sealed insulating glass blanks is to convey sealed insulating glass blanks to the sealing station for transfer to another transport having a horizontal conveyor.
    The problem with conveying freshly sealed insulating glass blanks and also when moving insulating glass blanks during sealing is that the sealing compound contaminates the conveyors of the horizontal conveyors, in particular if the sealing compound projects beyond the edge joint and, for example, overlaps the edges of the glass panes of the insulating glass blank. This can go so far that the sealant is removed from the edge joint by the conveyor.
    For conveying insulating glass blanks during sealing and for conveying freshly sealed insulating glass blanks, various devices have been proposed which are intended to avoid the above-described problems.
    One proposal is to form on the lower edge of the insulating glass blank attacking funding so that they are not adhering to themIsirierglasversiegelungsmasse, including the on
    Insulating glass blank attacking parts of the funding may consist of a non-stick material or may be coated with a non-stick material. However, this has proven to be a less reliable measure.
    Also proposed are conveyors (horizontal conveyors) for insulating glass blanks which have L-shaped supports, as known, for example, from AT 384 596 B and AT 396 782 B. These promoters have proven themselves well.
    It is only problematic if sealing compound extends beyond the edges of the glass panes of the insulating glass blank, since even then the L-shaped supports come into contact with sealing compound and become dirty.
    WO 92/05333 A discloses a conveyor for insulating glass, the horizontal conveyor of which is formed with V-shaped support surfaces, for which either V-shaped arranged conveyor belts or supports with V-shaped recesses are provided so that the horizontal conveyors engage only the outer edges of the glass sheets of the insulating glass blank. Disadvantage of this known conveying device is that the sharp edges of the glass sheets wear out the conveyors quickly.
    Also known is a horizontal conveyor for insulating glass blank with two juxtaposed conveyor belts. The conveyor belts are spaced from each other by a distance equal to the width of the spacer in the insulating glass blank so that the insulating glass blank only rests on the conveyor belts of the conveyor with the lower edges of the glass sheets. This conveyor may also be suitable for conveying so-called step elements (one glass pane of the insulating glass blank being smaller than the other) since the conveyor belts can be raised or lowered independently of each other.
    From DE 28 46 785 B a sealing device is known, the conveyor belts are equipped with knob-shaped supports. As a result, the likelihood of contamination is reduced as compared to non-support conveyors, but it can occur repeatedly that pimpled conveyors come into contact with sealant, particularly in corner areas of insulating glass blanks, since the corner seal often can protrude beyond the perimeter of the insulating glass blank ,
    The invention has for its object to improve the conveying of insulating glass blanks so that the risk of contamination of the funding significantly reduced, if not turned off.
    This object is achieved according to the invention with a method having the features of claim 1.
    Preferred and advantageous embodiments of the invention are the subject matter of the subclaims.
    Since the method of the present invention operates by positioning bearings on the conveyor so that they do not engage the insulating glass blank in a region in which sealing compound can protrude beyond the outer periphery of the insulating glass blank (in particular, corner areas), there is a risk that According to the invention, supports of the conveyor come into contact with and become contaminated with sealant, significantly reduced, if not avoided.
    The method according to the invention can be used in a sealing station or else conveying means are provided, which are provided after the sealing station and are used according to the method according to the invention.
    When conveying means are provided in a sealing station using the method according to the invention, there are usually two conveying means between which there is an interruption in which a sealing nozzle is arranged and used to seal the lower portion of the edge joint. When using the method according to the invention, both conveyors work in such a way that their support does not touch the corner areas of insulating glass blanks.
    The supports according to the invention, which may be formed in the manner of benches, can be cylinder-section-shaped (back-chevron-shaped), guader-shaped or else with a concave effective surface, that is to say a surface which engages on the insulating glass blank. With concave effective surfaces, these may be V-shaped recessed, such that the supports only grip the outer edges of the glass sheets of the insulating glass blank.
    Within the scope of the invention it is possible to use supports which are made of a material on which sealant does not adhere or only slightly adhere, or the supports are coated with such a material.
    The supports may be formations (in regions thickenings or protuberances) of a conveyor belt of the conveyor or supports are connected to the conveyor belt of the conveyor, for example glued, screwed or pushed on.
    Within the scope of the invention, it is contemplated to utilize supports releasably secured to the conveyor belt so that they can be changed and the distance of the supports from one another can be changed by adding or removing supports.
    Within the scope of the invention it is also considered to design conveying means with two conveyor belts which can be adjusted in different height orientations so that step elements can be transported. Stepped supports may also be used for transporting step elements, the dimensions of the stepped supports being selected to correspond to the dimensions of the step of the insulating glass blank. For this purpose, it can be provided, for example, that in each case such stepped supports are attached to the conveyor belt of the conveyor, which correspond to the dimensions of the stage of the insulating glass blank.
    In the context of the invention is usually worked with a conveyor that is provided with supports that ensurehinhinenden frictional engagement for the slip-free transport of the insulating glass blank. In particular, if the insulating glass blank is to be sealed, it may be necessary for uniform and controlled movements of the insulating glass blank to apply additional conveying means (drivers, conveyor belts, suckers or suction belts or the like on a large surface of the insulating glass blank and the like) which in addition to the invention Fördermitteldes horizontal conveyor be active.
    In the method according to the invention, if the conveying means comprise at least one endless conveyor belt on which the supports are provided, the run of the conveyor belt which is not required for supporting an insulating glass blank, ie the lower run, cleaning devices in the form of brushes or the like can be associated. These brushes or the like can be, for example, rotary-driven round brushes.
    In the context of the invention is considered to work so that supports from the conveyor, for example, lower Trumeines a conveyor belt, if necessary by machine, be removed and after cleaning, possibly by machine, be restored.
    In one embodiment of the method according to the invention, the beginning and end (in conveying direction) of an insulating glass blank relative to the supports on the conveying means which takes over the insulating glass blank are arranged so that contamination of the supports of the conveying means by sealing compound is avoided is worked, that corner portions of a sealed insulating glass blank do not come into contact with a support of the conveyor.
    For this purpose, it is possible, for example, to work in such a way that the position of the beginning of an insulating glass blank is detected by means of a light barrier or determined from known parameters of the size of the insulating glass blank. Likewise, the end of the insulating glass blank is determined from a measurement or starting position and feed rate. Due to the thus detected positions of the (lower) corners of the insulating glass blank, the supports on the conveying means to be taken over by the insulating glass blank are moved so as not to be engaged on the insulating glass blank in the region of one of its corners. It is sufficient in one embodiment, when only the position of a support on the conveyor is known. This is particularly easy if the supports according to an exemplary embodiment have distances that are equal to each other on the conveyor.
    Moving the supports to allow them to be spaced apart from the corners of the insulating glass blank on the insulating glass blank may be accomplished by accelerating or decelerating the conveyor to which the insulating glass blank is to be transferred, or by accelerating or decelerating the conveyor unit from which the insulating glass -Rohling is taken place.
    In an exemplary embodiment of the method according to the invention, the procedure is such that spacings of supports on the conveyor are changed.
    In an exemplary embodiment of the method according to the invention, the procedure is such that spacings of supports on the conveyor are changed by attaching supports to the conveyor and / or removing supports from the conveyor.
    In an exemplary embodiment of the method according to the invention, the spacing of supports on the conveyor is changed by using a conveyor comprising two conveyor belts, wherein the conveyor belts each support the other conveyor belt and the relative position of the conveyor belts relative to one another is changed.
    In an exemplary embodiment of the method according to the invention, the procedure is such that supports for cleaning of the conveyor are removed and that cleaned supports are replaced on the conveyor.
    In an exemplary embodiment of the method according to the invention, the procedure is such that a conveyor is used which has two conveyor belts with supports which can be aligned at different elevations in order to convey insulating glass blanks in the form of step elements.
    In an exemplary embodiment of the method according to the invention, the procedure is such that the conveyance of insulating glass blanks is assisted by additional conveyors, such as suckers, underpressure conveyor belts, mechanical entrainers and the like, which grip on the insulating glass raw inlet.
    In an exemplary embodiment of the invention
    The procedure is such that a conveyor is used, the supports of which have distances substantially equal to twice the length of the area in which the seal in the region of a corner of the insulating glass blank projects beyond the edge of the insulating glass blank.
    In the context of the invention, conveying means are preferably used, which are designed as conveyor belts in the form of toothed belts. In addition, ordinary belt conveyors with supports, perforated metal belts with supports, whose holes engage in pins mounted on the deflecting rollers, or articulated belts are also considered.
    In the context of the invention, conveyor means are preferably used whose supports have equidistant spacings, the spacing being, for example, substantially twice the length of the region at the corner of an insulating glass blank in which sealing compound can protrude beyond the periphery of the insulating glass blank.
    Within the scope of the invention it is also considered to use conveying means whose supports have different distances from each other.
    By blank feeding of the conveying means, the conveying means can be aligned so that the position of the supports is adapted to the insulating glass blank to be taken over by the conveying means, and these come into contact with corner regions of the insulating glass blank.
    It is preferred within the scope of the invention to use conveying means which have as few supports as possible in order to minimize the risk of contamination.
    If conveyor means are to be used in the invention in which the distances between the supports are different from one another, for example variable, this can be achieved by removing supports from the conveyor or by attaching a conveyor.
    An embodiment is contemplated to use a conveyor comprising two endless conveyor belts driven synchronously but whose relative position to each other is adjustable. It is envisaged that the supports on each of the conveyor belts engage over the adjacent conveyor belt. By varying the relative position of the conveyor belts relative to each other, the spacing of the supports from each other can be adapted to the particular desired and required circumstances.
    An advantage of the method according to the invention is that, when adopting an insulating glass blank by a conveyor with supports, it is avoided that a shock is imparted by the impingement of the insulating glass blank on a support.
    The conveying means according to the invention can be designed as an endless conveyor belt with supports.
    However, it is also contemplated to form the conveyor as a chain, considering withdrawing individual supports from their operative position to prevent them from coming in contact with the insulating glass blank at one of its corners.
    An advantage of the method according to the invention is that oblique fractures are avoided at corners of the glass panes, since there attack not the insulating glass supporting system parts (support). Associated with this is the advantageous effect that the wear of the funding can be kept small.
    An advantage of the invention used funds is also
    in that, unlike e.g. the conveyors of AT 384 096 B, to the thickness of insulating glass blanks or
    Insulating glass does not need to be adjusted.
    Further details and features of the invention
    Process will become apparent from the description below
    Reference to the attached drawings. It shows:
    1 shows the ideal case of a seal of an insulating glass blank,
    2 sealing compound projecting over the circumference of the insulating glass blank, in particular in the corner region of an insulating glass blank,
    3 shows a known embodiment of a conveyor for insulating glass blanks,
    4 shows a conveyor (known) for insulating glass blanks with two adjacent conveyor belts,
    5 shows schematically a part of a conveying means which can be used according to the invention,
    6 shows the assignment of the insulating glass blank to a conveying means in carrying out the method according to the invention,
    7 shows various embodiments of supports according to the invention conveying means,
    8 shows the arrangement of conveying means in a sealing station,
    9 the application of a method according to the invention to step elements,
    10 shows a variant of the application of the method according to the invention in step elements and
    Fig. 11 is a usable within the scope of the invention funding with supports whose distances are variable from each other.
    Fig. 1 shows in a partial view of a section through a
    Double-pane insulating glass 1 the ideal form of a seal 2.
    In this ideal form, the sealing compound in the peripheral joint bounded laterally by the edges of the glass sheets 3 and 4 and inwardly by the spacer 5 is filled with sealing compound so that it does not protrude beyond the inner edges of the edges of the glass sheets 3 and 4, and preferably a concave outer surface 6 has.
    FIG. 2 shows how a seal 2, in particular in the region of corners of insulating glass 1, has a convex outer surface 5, that is to say projecting beyond the peripheral edge of the insulating glass 1 and also overlaps the edges of the glass sheets 3 and 4.
    In Fig. 3 a per se known embodiment of a conveyor for the transport of sealed insulating glass blanks is shown, as it is known, for example from the AT 384 596 Bbekannt. In this known conveying means hook-shaped abutment 7 are provided which are mounted on endless chains (not shown) and engage only the outsides of the edges of the glass sheets 3 and 4 of insulating glass 1.
    In Fig. 4, a further embodiment of a known conveyor is shown, comprising two separate conveyor belts 8, which engage under the edge of the glass sheets 3 and 4 of insulating glass and - as dashed lines drawn - can be aligned for the transport of step elements in different heights.
    In Fig. 5, a conveyor 10 is shown in a partial view, which is designed as an endless conveyor belt 11. The conveyor belt 11 may be a toothed belt, so that a good connection between the driving pulleys 13 and the conveyor belt 12 is given. As shown in Fig. 5, there are provided on the conveyor belt 11 supports 12 formed as ribs (" bench ") aligned transversely to the longitudinal extent of the conveyor belt 11.
    Fig. 7 shows that the supports 12 with the conveyor belt 11 can be one-piece formations of the conveyor belt 11, ie local thickenings thereof. Alternatively, as shown in the middle illustration of Fig. 7, the supports 11 may be connected by screws 13 or other fastening means to the endless member of the conveyor belt.
    A further possibility, shown in FIG. 7, of connecting supports 12 to the conveyor belt 11 is that the support 12 has, on its side facing the conveyor belt 11, an undercut groove 14 with which it can be pushed over a counter-profiled rail 15 of the conveyor belt 11.
    The latter two embodiments allow
    To remove supports 12 from the conveyor belt 11 of the conveyor 10 used according to the invention or to introduce additional supports 12. Thus, the distances between adjacent supports 12 can be changed (increased / decreased).
    The supports 12 can, as indicated in FIGS. 5 and 7, be semi-circular ribs in cross section. The generatrices of the envelope surface of the rib-shaped supports 12 shown in Figs. 5 and 7 are straight. In modified embodiments, the supports 12 can have concavely curved generatrices and, for example, be substantially V-shaped, as is known in principle from WO 92/05333 A.
    Within the scope of the invention, it is contemplated to associate means 10 for cleaning supports 12 with the conveyor belt 12 of the conveyor used in accordance with the invention, in order to remove any adhering sealing compound therefrom. These cleaning devices may be brushes, taking into consideration rotary driven round brushes (see WO 92 / 05333A).
    Fig. 6 shows how an insulating glass blank 1, which on a
    Roller conveyor 16 coming from the right of Fig. 6, e.g. from a assembly station in which insulating glass blanks of glass panes 3, 4 and spacers 5 are assembled, conveyed by a conveyor 10 according to the invention. It can be seen that the movements of the insulating glass blank 1 on the one hand and the conveyor 10 on the other hand are coordinated so that in the region of the corner 20 of the (sealed) insulating glass blank, ie where the seal may look like, as shown in FIG. 2, and over the circumference of the insulating glass blank 1 partially above, just no support 12 on the insulating glass blank 1angriff.
    Fig. 8 shows the situation in a sealing station 30, wherein two conveying means 10 are used with conveyor belts 11, which are equipped with supports 12, and in the gap 31 between the two conveying means 10, a sealing nozzle 32 is provided, which is indicated by an arrow. It is inFig. 8 that in the region of the corners 20 of the insulating glass blank 1, no supports 12 of the conveyor 10 used according to the invention attack, so that there is no danger that conveyors 10, their conveyor belts 11 and / or their supports 12 are contaminated by protruding seal 2 (FIG. 2).
    In Fig. 9 an embodiment is shown in which the conveyor 10 used according to the invention comprises two separate, endless conveyor belts 11 with supports 12 which can be aligned at different elevations. This makes it possible, using the method according to the invention, to transport step elements, ie insulating glass blanks 1 with differently sized glass panes 3, 4, in such a way that no supports 12 on the insulating glass blank 1 engage in the corner region.
    In Fig. 10 there is shown another embodiment of a conveying means 10 which can be used according to the invention, in which L-shaped supports 12 are provided on the endless conveyor belt 11 of the conveying means 10, which allow the transporting of step elements using the method according to the invention.
    In the context of the invention it is considered that the distances of supports 12 on the conveyor belt 11 of the conveyor 10 are adapted to the respectively prevailing conditions, in particular the size of the insulating glass blanks 1 and the like. This can be done in a simple manner in that supports 12 are mounted on the conveyor belt 11 of the conveyor 10 where they are needed.
    In Fig. 11, an embodiment is shown schematically, which allows to change the distances between supports 12. In this embodiment, the conveyor 10 used in the present invention comprises two juxtaposed endless conveyor belts 11. On each of the conveyor belts 11 are mounted supports 12 which protrude beyond, but are not secured to, the other adjacent conveyor belt 11.
    In Fig. 11 it is shown that the one support 12 marked by longitudinal hatching is fastened only to the conveyor belt 11 on the left in Fig. 11 and the other support 12 indicated by cross-hatching only to the right conveyor belt 11 in Fig. 11. This embodiment of a conveying means 10 makes it possible to change the distances of the supports 12 from each other by relatively moving the two conveyor belts 11 relative to each other. When the inFig. 11 is used for transporting insulating glass blanks 1, both conveyor belts 11 are synchronously driven.
    Within the scope of the invention it is contemplated to assist the transport of insulating glass blanks 1 before, during and after sealing by means of a conveyor 10 used in accordance with the invention with supports 12 by further conveyors synchronously moved with the conveyor. These further conveyors may be suction cups designed as entrainers, which are moved synchronously with the movement of the conveyor 10 and engage laterally on one of the glass panes 3 or 4 of the insulating glass blank 1.
    Alternatively, pressurized suction belts may be provided, or simply mechanical drivers engaging one of the vertical edges of insulating glass blanks 1. *** "
    In this case, the additional conveyor at least predominantly takes over the movement (advance) of an insulating glass blank 1, and the conveyor 10 with the supports 12 provided according to the invention receives the weight (or at least the majority thereof) of the insulating glass blank 1. Conveying means 10 with supports 12, in particular conveying means 10 with conveyor belts 11 having supports 12 (Figures 5-7 and 11) also have the advantage that means for removing insulating glass blanks 1 or insulating glass, e.g. from a sealing station, insulating glass blanks 1 or insulating glass can engage because there is clearance 12 between the lower edge of the insulating glass blank 1 or insulating glass and the conveyor belt 11 due to the supports 12.
    In summary, an embodiment of the invention can be described as follows:
    When moving insulating glass blanks 1 before, during and after sealing thereof, conveyors 10 are used with support plates 12 supporting and supporting the insulating glass blanks. The supports 12 on the conveyor 10 are aligned relative to the insulating glass blank 1 so that in the region of corners 20 of the insulating glass blank 1, ie where seal 2 can protrude beyond the outer periphery of the insulating glass blank 1, no supports 12 abut the insulating glass blank ,
    权利要求:
    Claims (11)
    [1]
    Claims 1. A method of conveying insulating glass blanks (1) using conveying means (10) bearing supports (12), the insulating glass blank (1) having at least one of its edges, in particular its lower edge Auflagern (12) stands up, characterized in that the supports (12) on the conveyor (10) only at a distance from corners (20) of the insulating glass blank (1), the insulating glass blank (1) supporting and promoting, attack.
    [2]
    A method according to claim 1, characterized in that by selecting the difference between the movement speeds of the insulating glass blank (1) on the one hand and the conveying means (10) with supports (12) on the other hand, supports (12) in taking over an insulating glass blank (1) the conveying means (10) are arranged only at a distance from corners (20) of the insulating glass blank (1).
    [3]
    A method according to claim 1 or 2, characterized in that supports (12) are cleaned while being spaced from the insulating glass blank (1).
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that supports (12) are used, the rib-shaped, cuboid, L-shaped or concave, z. angled, effective area are formed.
    [5]
    A method according to any one of claims 1 to 4, characterized in that supports (12) are used which are made of a material or whose outer surface is covered with a material having reduced adhesion to sealing compound.
    [6]
    A method according to any one of claims 1 to 5, characterized in that supports (12) are used which are the formations of the conveyor (10), in particular of its conveyor belt (11).
    [7]
    7. The method according to any one of claims 1 to 6, characterized in that supports. (12) which are releasably connected, for example screwed or slid, to the conveyor (10).
    [8]
    8. The method according to any one of claims 1 to 7, characterized in that as conveying means (10) at least one endless, over deflection rollers (13) guided conveyor belt (11) is used.
    [9]
    A method according to claim 8, characterized in that pads (12) are cleaned when they are at the lower run of the conveyor belt (11).
    [10]
    10. The method according to any one of claims 1 to 9, characterized in that when conveying a insulating glass blank (1) the position of a corner (20) of the same is detected that the relative movement between the insulating glass blank (1) on the one hand and conveying means (10) On the other hand, supports (12) are chosen such that supports (12) are arranged at a distance from a corner (20) of the insulating glass blank (1).
    [11]
    A method according to claim 10, characterized in that the speed of movement of the conveyor (10) with the supports (12) is changed.
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    同族专利:
    公开号 | 公开日
    AT515212B1|2015-07-15|
    US9567793B2|2017-02-14|
    EP2971426B1|2017-04-19|
    CN105264160B|2016-11-30|
    UA114993C2|2017-08-28|
    KR20150133844A|2015-11-30|
    EP2971426A1|2016-01-20|
    KR101816762B1|2018-01-09|
    CN105264160A|2016-01-20|
    US20160115728A1|2016-04-28|
    RU2602367C1|2016-11-20|
    WO2015109348A1|2015-07-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE2816437B1|1978-04-15|1979-08-16|Karl Lenhardt|Device for automatically filling the edge joints of insulating glass panes with a sealant by filling nozzles|
    DE8318401U1|1983-06-24|1983-09-15|Lisec, Peter, Amstetten-Hausmening, Niederösterreich|Device for conveying sheet-like elements|
    DE3942960A1|1989-04-28|1990-10-31|Lenhardt Maschinenbau|DEVICE FOR CONVEYING INSULATED GLASS PANELS STICKED TO THE EDGE|
    DE2846785C2|1978-10-27|1984-07-19|Karl 7531 Neuhausen Lenhardt|Device for automatically filling the edge joints of double or multiple insulating glass panes with a sealant using filling nozzles|
    AT384596B|1980-09-22|1987-12-10|Lisec Peter Glastech Ind|DEVICE FOR CONVEYING INSULATED GLASS DISCS|
    DE3220882A1|1981-08-14|1983-04-14|VEB Wohnungsbaukombinat "Wilhelm Pieck" Suhl, DDR 6000 Suhl|Composite element which can be assembled|
    AT387372B|1983-04-25|1989-01-10|Lisec Peter|DEVICE FOR CONVEYING TABLED COMPONENTS, ESPECIALLY INSULATED GLASS PANELS|
    DE4029669C1|1990-09-19|1991-07-18|Lenhardt Maschinenbau Gmbh, 7531 Neuhausen, De|
    AT396782B|1991-12-23|1993-11-25|Lisec Peter|DEVICE FOR PROMOTING INSULATED GLASS PANELS INCLUDING SOMETHING RIGHT|
    KR100245882B1|1997-12-06|2000-03-02|서두칠|Conveyor for conveying hot glass product|
    DE19909638C2|1999-03-05|2002-11-07|Lenhardt Maschinenbau|Device for conveying insulating glass panes|
    KR100673854B1|2005-08-31|2007-01-24|주식회사 디앤씨엔텍|Cleaning system for the conveyor belt|
    TWI476139B|2011-06-30|2015-03-11|Sfa Engineering Corp|Apparatus for transferring substrates|
    DE102012210618A1|2012-01-26|2013-08-01|Singulus Stangl Solar Gmbh|Apparatus and method for treating plate-shaped process material|CN106553788A|2016-12-01|2017-04-05|重庆渝牛食品有限公司|For producing the cutting packer of sticky candy|
    EP3798402A1|2019-09-27|2021-03-31|Saint-Gobain Glass France|Insulating glass unit with small central window|
    法律状态:
    2019-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20190127 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA54/2014A|AT515212B1|2014-01-27|2014-01-27|Method for conveying insulating glass blanks|ATA54/2014A| AT515212B1|2014-01-27|2014-01-27|Method for conveying insulating glass blanks|
    RU2015144691/12A| RU2602367C1|2014-01-27|2015-01-26|Method of insulating glass units workpieces transportation|
    PCT/AT2015/000010| WO2015109348A1|2014-01-27|2015-01-26|Method for conveying insulation glass blanks|
    US14/784,526| US9567793B2|2014-01-27|2015-01-26|Method for conveying insulation glass blanks|
    CN201580000799.7A| CN105264160B|2014-01-27|2015-01-26|For the method carrying insulating glass blank|
    KR1020157030847A| KR101816762B1|2014-01-27|2015-01-26|Method for conveying insulation glass blanks|
    UAA201607125A| UA114993C2|2014-01-27|2015-01-26|Method for conveying insulation glass blanks|
    EP15705478.4A| EP2971426B1|2014-01-27|2015-01-26|Method for conveying insulation glass blanks|
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