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Inspection of a vertical flow-wrapper

20190389141 ยท 2019-12-26

    Inventors

    Cpc classification

    International classification

    Abstract

    The invention relates to improvements of a vertical flow-wrapper, for producing tubular bags from a foil web, with a frame/housing, at which a form-fill-tube, a longitudinal-sealing means and a cross-sealing means and a cutting means are provided.

    Claims

    1. A vertical flow-wrapper comprising: a frame/housing, at which a form-fill-tube, a longitudinal-sealing means, a cross-sealing means, and a cutting means are provided, and a part, which is moveable relative to the frame/housing from an operation position into an inspection position and vice versa, wherein the cross-sealing means is provided on the part.

    2. The vertical flow-wrapper according to claim 1, wherein the part is configured to be pivoted and/or moved linearly relative to the frame/housing.

    3. The vertical flow-wrapper according to claim 1, wherein the part and/or the frame/housing comprises means to fix the part relative to the housing.

    4. The vertical flow-wrapper according to claim 1, wherein the cross-sealing means are provided on one side of the part and a drive for the cross-sealing means is provided on an opposite side of the part.

    5. The vertical flow-wrapper according to claim 1, further comprising gusset-forming means, which is provided at the part.

    6. The vertical flow-wrapper according to claim 1, further comprising safety means that is configured to block start-up of the vertical flow-wrapper, in case the part is not fixedly secured to the frame/housing.

    7. A method to inspect a drive, an electrical supply, and/or a connection to a sensory of the longitudinal-sealing means and/or the cross-sealing means of the vertical flow-wrapper according to claim 1, wherein fixation of the part at the frame/housing is loosened and the part together with the cross-sealing means is moved from the operation position into the inspection position.

    8. The method according to claim 7, wherein the means to fix the part relative to the frame/housing is loosened after the vertical flow-wrapper has been switched to a non-operation mode.

    9. The vertical flow-wrapper according to claim 1, wherein the part is plate is connected to the frame/housing by one or more hinges.

    10. The vertical flow-wrapper according to claim 1, wherein the part and/or the frame/housing comprises means to fix the part relative to the housing so that all loads that act on the part are transferred into the frame/housing.

    11. The vertical flow-wrapper according to claim 110 wherein the means is configured to he loosened and fixed by an automated drive.

    12. The vertical flow-wrapper according to claim 11, wherein the automated drive is a motor.

    13. The vertical flow-wrapper according to claim 1, wherein the part is plate, and sealing jaws/rolls are provided on one side of the plate, and a drive is provided on an opposite side of the plate.

    14. The vertical flow-wrapper according to claim 13, wherein the vertical flow-wrapper comprises a safety means that is configured to block start-up of the vertical flow-wrapper if the part is not fixedly secured to the frame/housing.

    15. The vertical flow-wrapper according to claim 14, wherein the means is a sensor, the sensor is configured to detect a position of the part relative to the frame/housing.

    16. The vertical flow-wrapper according to claim 14, wherein the part and/or the frame/housing comprises means to fix the part relative to the housing so that all loads that act on the part are transferred into the frame/housing.

    17. The vertical flow-wrapper according to claim 1, wherein the vertical flow-wrapper comprises a control system that is configured to allow loosening of the part when the vertical flow-wrapper is turned off.

    18. The vertical flow-wrapper according to claim 1, wherein the vertical flow-wrapper comprises a safety means that is configured to block start-up of the vertical flow-wrapper if the part is not fixedly secured to the frame/housing.

    19. The vertical flow-wrapper according to claim 18, wherein the means is a sensor, the sensor is configured to detect a position of the part relative to the frame/housing.

    20. The vertical flow-wrapper according to claim 19, wherein the vertical flow-wrapper comprises a control system that is configured to allow loosening of the part when the vertical flow-wrapper is turned off, and wherein the part and/or the frame/housing comprises means to fix the part relative to the housing so that all loads that act on the part are transferred into the frame/housing.

    Description

    [0017] The invention is disclosed referring to the figures of the attached drawings, by way of non-limiting examples.

    [0018] FIG. 1 shows schematically the vertical flow-wrapper according to the invention.

    [0019] FIGS. 2a and b shows the inventive vertical flow wrapper with the part in the operating position

    [0020] FIG. 3 shows the inventive vertical flow wrapper with the part in the inspection position

    [0021] In FIG. 1, the vertical flow-wrapper 1 according to the invention is schematically shown. A vertical flow wrapper is a packaging machine, which forms a plane foil web into a foil tube, which is transported along a form-fill tube. Two ends of this foil tube are sealed together by a longitudinal sealing means. Subsequently, the packaging item is filled into the foil tube and a cross-seal is applied to the foil tube to close the package. Simultaneously or after applying the cross-seal, the finalized packages are cut off the foil tube. The vertical flow wrapper comprises a frame/housing 8, at which a form shoulder 3, a form-fill tube 4 and longitudinal sealing means 5 and cross-sealing means 6 are provided. The vertical flow-wrapper may comprise gusset- forming means to form the bottom and/or the top of each bag.

    [0022] A web of a foil 4, especially a weldable plastic foil 4, is supplied from a reel, which supplies the plane foil continuously or intermittently to a form shoulder 3, which shapes the foil web into a rather tubular form around a form-fill tube 2. In the context of the present invention, a tubular form of the bags or of the foil means any cross-sectional form including a circular form or another form, and especially a rectangular or generally a polygonal form. Longitudinal sealing means 5, which are provided downstream from the form shoulder, seal the edges to the foil tube together. After sealing, the bottom of the bag 7 can be formed by a special bottom forming means, for example gusset-forming means. Finally, cross seals, extending preferably perpendicularly to the direction of flow of the foil, are applied, especially by means of cross-sealing means 6. These cross sealing means 6 apply to the bag 7 not only a cross-seal closing the top of the bag 2, but these cross-sealing means 6 advantageously also provide, preferably simultaneously a cross-seal defining the bottom of the subsequent, upstream bag 2. The bags 2 produced are separated from one another by a cutting means, which are preferably incorporated into the cross-sealing means 6. Between the application of the bottomand top-cross-seal of each bag, the bag is filled with the product, preferably an edible product.

    [0023] As already mentioned above, the inventive vertical flow wrapper comprises a frame/housing 8, at which all components of the vertical flow wrapper are provided, particularly the longitudinaland cross-sealing mean 5, 6, the cutting means and if needed the gusset-forming means. Reference is made to FIGS. 2a and b, which depict, that the cross-sealing means 6 are provided outside of the frame/housing 8 of the vertical flow wrapper, while its drive 10 and its electrical connection and/or at least parts of the gear between the sealing jaws and the drive are provided inside of the frame/housing, i.e. protected by the frame/housing 8. Further, according to the invention, the longitudinaland cross-sealing mean 5, 6 and/or its drive 10 are provided at a part 11 of the frame/housing that is movable relative to the rest of the frame/housing from an operationto an inspection-position. While FIGS. 2a and b depict the operating position, FIG. 3 depicts the inspection position. In the present case, the part 11 is hinged to the frame/housing and hence pivotable relative to the housing by means of, here two, hinges 12. However, the person skilled in the art understands, that the part 11 can also or additionally be moved linearly from the operating- to the inspection-position and vice versa. In the inspection position, the drive 10, the electrical connection and/or part of the mechanics related to the sealing means 5, 6 can be inspected and/or maintained. In the operating position, however, the part 11 is fixed such to the frame, that all loads, from the sealing means 5, 6 and/or their respective drives 10 are transferred into the frame/housing and that the part 11 is in a well-defined, fixed and reproducible position relative to the frame. The part 10 is preferably designed such that it is relatively stiff, so that it does not deform during operation.

    LIST OF REFERENCE SIGNS

    [0024] 1 vertical flow-wrapper [0025] 2 form-fill tube [0026] 3 form shoulder [0027] 4 foil, film [0028] 5 longitudinal-sealing means [0029] 6 cross-sealingand/or cutting means [0030] 7 package [0031] 8 frame/housing [0032] 9 reel [0033] 10 drive for the cross-sealingand/or cutting-means [0034] 11 movable part of the frame/housing [0035] 12 hinge