Title of Invention

AN APPARATUS FOR SHRINKING A HEAT-SHRINK FOIL

Abstract

An apparatus for shrinking a heat-shrink foil (26) wrapped in particular about a palleted object stack (12) comprising at least one shrink device (3) movable vertically up and down on a frame (2) to vertically heat and shrink the heat-shrink foil (26), the heat-shrink foil (26) projecting past the upper and/or lower edge of the object stack (12) to form an upper and/or lower shrink formation, characterized in that the apparatus comprises at least one nozzle (19) connectable to a compressed -gas source especially a compressed-air source and aimed centrally above and/or below the object stack (12) and generally vertically directed thereat, each nozzle (19) having outlet openings (21) that extend at an angle not coinciding with the flow direction inside the nozzle (19) and that are in an annular array.

Full Text

FORM 2 THE PATENTS ACT 1970 [39 OF 1970] & THE PATENTS RULES, 2003 COMPLETE SPECIFICATION [See Section 10; rule 13] "AN APPARATUS FOR SHRINKING A HEAT-SHRINK FOIL" MSK-VERPACKUNGS-SYSTEME GESELLSCHAFT MIT BESCHRANKTER HAFTUNG, of Benzstrasse, D-47533 Kleve, Germany, The following specification particularly describes the invention and the manner in which it is to be performed: Apparatus for Shrinking a Heat-shrink Foil The invention relates to an apparatus for shrinking a heat-shrink foil in particular wrapped around a palleted stack of objects. Such heat-shrink foils are used nowadays in order, for example, to secure objects for example to a pallet for transport. To this end a heat-shrink foil is wrapped around the stack of objects so that the heat-shrink foil does not slip down. This is done either directly in a shrink station or in a separate station upstream of the shrink station. In the shrink station the heat-shrink foil is blasted by the shrink device with hot gas so that the heat-shrink foil is heated to its shrink temperature and is shrunk so as to pull together around the stack of objects. The shrink device is thus movable vertically up and down so that shrinking can take place from top to bottom or from bottom to top. During shrinking air is blow partially on the stack of objects from above. US patent 4,616,471 describes an apparatus for shrining a heat-shrink foil forming a hood over a palleted object stack that is formed of at least one shrink device movable vertically up and down on a frame, the heat-shrink foil proje ting past the lower face of the object stack. A disadvantage is that this apparatus cannot produce a fold-free shrinking of the portion of the heat-shrink foil that projects above the top pf the stack of objects so that for example a packing slip on the upper side of the stack of objects between the stack of objects and the heat-shrink foil, which carries a bar code, cannot be read. It is an object of the invention to improve on an appara¬tus of the described type so that shrinking of the portion of the foil projecting upward and/or downward is improved to produce an optimal fold-free shrink. This object is attained by an apparatus for shrinking a heat-shrink foil wrapped in particular about a palleted object stack comprising at least one shrink device movable vertically up and down on a frame to heat and shrink the heat-shrink foil, the heat-shrink foil projecting past the upper and/or lower edge of the object stack to form an upper and/or lower shrink formation, characterized in that the apparatus further comprises at least one nozzle connected to a compressed air source and aimed centrally above and/or below the object stack and generally vertically directed thereat, each nozzle having outlet openings that extend at an angle not coinciding with the flow direction inside the nozzle and that are in an annular array. As a result of the angle of the outlet openings of the nozzles to the flow direction, the compressed air is not blown perpendicularly against the upper face of the object stack. Rather the compressed air is directed either obliquely against the upper surface and is there deflected against the projecting part of the foil, or -- so long as the outlet openings open generally at a 90° angle to the flow direction inside the nozzle -- is blown directly against the projecting foil part. As a result the projecting foil part is held up during the upper shrink phase so that it is uni¬formly heated by the shrink device during this upper shrink phase. As a result of this uniform heating the projecting foil part shrinks without folds onto the upper side of the object stack. Preferably each nozzle has an angled end face in which the outlet openings are provided so that the compressed air is directed at this angle in all directions. The outlet openings extend generally at an angle of 45° to the flow direction in the nozzle. In order that object stacks of different size can be provided with a shrunk foil in the shrink station, each nozzle is movable up and down. As a result the ideal spacing between the nozzle and the object stack can be set for the height of the object stack and/or the dimension of the upper face of the object stack. In order to avoid that the unshrunk heat-shrink foil slides downward, it is further provided that the apparatus for securing the heat-shrink foil on the object stack has a compacting device that preferably is mounted on a lift table for lifting the object stack. In the following an embodiment shown in the drawing is described. Therein: FIG. 1 is a side view of an apparatus according to the invention; FIG. 2 is a view through the output part of a nozzle; and FIG. 3 is a section through the structure of FIG. 2. In the figures the same reference numerals are used for the same parts. FIG. 1 shows a shrink station 1 that is formed of a frame 2 and a shrink device 3, e.g. constituted as a ring burner. The frame 2 has two masts 4 arranged next to another in a plane perpendicular to the view plane and of which only the front one is visible in this view. Both masts 4 are connected together at their upper ends by an unillustrated traverse. Each mast 4 carries a vertically movable carriage 5 guided by rollers 6 and 7. The carriages 5 are moved vertically by endless chains 8 looped at the upper and lower ends of the masts 4 over sprockets 9 and 10. A motor 11 provided in the lower region of the masts 4 drives the chains 8, both carriages 5 being moved synchronously so that they are always at the same height. The carriages 5 are connected together by the shrink device 3 which has a shape corresponding to the footprint of a stack 12 of objects -- in the illustrated example a polygonal frame-like shape -- where the area inside the shrink device 3 is large enough that it can be moved vertically along the object stack 12. Such an object stack 12 is underneath the shrink device 3 on a conveyor 13 that is formed for example as a chain, roller, or bar conveyor. The object stack 12 is comprised of a standard pallet 14 and a stack 15 of objects on it. If objects 15 of substantial size need to be packaged, no pallet 14 is needed. Underneath the object stack 12 is a lift platform or table 16 on whose upper side a lift ram 17 can engage through an aperture in the conveyor upward between the unillustrated support members of the pallet 14. A suction blower can be provided in the region of the ram 17 and underneath the conveyor 13. Both above and below the object stack 12 is a nozzle 19 that can also move up and down. Each nozzle 19 is as shown in FIG 2 of blunt shape and has an annular beveled edge face 20 that extends at an angle of about 45° to the flow direction inside the nozzle 19. Openings 21 in this edge face 20 direct jets of com¬pressed air at an angle at the object stack 12 (arrow 22). As shown in FIG. 3 the outlet openings 21 extend like a star from a supply passage 23 provided centrally in the nozzle 19. When the compressed air strikes the upper side of the object stack 12 it is deflected as shown by arrows 24 and stands u and holds erect a projecting portion 25 of a heat-shrink foil 26. In addition the compressed air coming from the nozzles 19 directs hot air from the shrink device 3 to the inside of the projecting portion 25. The shrink device 3 is supplied with gas via a supply line 27. When the nozzles 19 are only as shown provided for upper and lower shrinking, the outlet openings 21 are provided in an annular array around the face 2 0 as shown in FIG. 3 so that the compressed air moves outward in all directions. If on the contrar several nozzles 19 are provided, the outlet openings 21 of each nozzle 19 are preferably set such that each nozzle 19 directs its compressed air only at a particular portion of the object stack 12; at the same time the arrangement of the outlet openings 21 among the provided nozzles 19 is selected such that the projecting foil portion 25 of the heat-shrink foil 26 is stood up at every location by the compressed air. Shrinking with the apparatus according to the invention takes place as follows: First the object stack 12 is wrapped or wound with the heat-shrink foil 26. This can be done for example at a station upstream from the shrink station 1 or in the shrink station itself. When the wrapping takes place in a separate station the object stack 12 surrounded by the heat-shrink foil 26 is transported by the conveyor 13 to the shrink station 1. To both sides of the conveyor 13 are standard vertical foil rollers for applying the heat-shrink foil 26, from at least one of which the heat-shrink foil 2 6 rolls out. The two ends of the heat-shrink foils 26 pulled off the foil rolls are welded together. On passing the foil rolls the object stack 12 is sur¬rounded by the welded-together heat-shrink foils 26, the two heat-shrink foils 26 being joined together at the trailing region with a double weld seam. Thereafter the heat-shrink foils 26 are cut apart between the two weld seams so that the next object stack 12 can be provided with a heat-shrink foil 26. The heat-shrink foil 26 engages the object stack 12 such that it does not slide down. It is possible to provided the object stack 12 in another manner with the heat- -shrink foil 26, In the case where the heat-shrink foil 26 is not tight enough on the object stack 12, a compactor 28 is provided on the ram table 16 that presses the heat-shrink foil against the object stack and thus holds it in place. In the shrink station 1 the heat-shrink Soil 26 is shrunk by vertical movement of the shrink device 3. It is preferable that the shrinking takes plac® from top to bottom although shrinking in the opposite direction is possible. In order to achieve a good shrinking in the upper region, that is in order to shrihk the foil portion 25 projecting up above the object stack 12, compressed air is blown via the nozzles 19 against the upper surface of the object stack 12. The compressed air engages obliquely dowm on the object stack 12 (arrow 22) and is deflected thereby back ub in the direction of the arrows 24. In this manner the projectifcg foil portion 25 is pushed outward and upward so that during the upper shrink phase it is erect and thus is uniformly heated by the hot gas from the shrink device 3. As soon as the projecting foil portion 25 is heated to the shrink temperature, air feed to the nozzle 19 is cut so that the projecting foil 25 portion draws itself over the upper surface of the object stack 12. Thereafter the shrink device 3 is moved downward to shrink the side surfaces of the object stack 12, so that the heat-shrink foil 26 pulls strongly together over the side surfaces of the object stack 12. If shrinking underneath is desired, that is to engage the lower edge of the heat-shrink foil 26 around the object stack 12 or the pallet 15, the object stack 12 is raised somewhat by the ram 17 of the lifting device 16. Then the shrink device is dropped down to the level of the conveyor 13 by movement of the carriages 5. Now the lower edge of the heat-shrink foil 26 is acted on by the hot gas of the shrink device 3 so that it is heated to the shrink temperature and thus pulls tight around the lower face of the pallet 14. In order to get a good engagement underneath one also uses at least one nozzle 19. Thereafter the object stack 12 with a still hot edge of the heat-shrink foil 2 6 is again set back down on the conveyor 13 so that the hot edge is pressed between the conveyor 13 and the lower surface of the pallet 15 so as to weld together the various layers of this edge. Thus the lower edge of the heat-shrink foil 26 gains an extremely good hold. After the shrink process is over, the object stack 12 is moved out of the shrink station 1 by the conveyor 13. The above-described process is repeated for a new object stack. WE CLAIM: 1. An apparatus for shrinking a heat-shrink foil (26) wrapped in particular about a palleted object stack (12) comprising at least one shrink device (3) movable vertically up and down on a frame (2) to vertically heat and shrink the heat-shrink foil (26), the heat-shrink foil (26) projecting past the upper and/or lower edge of the object stack (12) to form an upper and/or lower shrink formation, characterized in that the apparatus comprises at least one nozzle (19) connectable to a compressed -gas source especially a compressed-air source and aimed centrally above and/or below the object stack (12) and generally vertically directed thereat, each nozzle (19) having outlet openings (21) that extend at an angle not coinciding with the flow direction inside the nozzle (19) and that are in an annular array. 2. The apparatus as claimed in claim 1, wherein each nozzle (19) has a beveled end face (20) in which the outlet openings (21) are provided. 3. The apparatus as claimed in claim 1 or 2, wherein the outlet openings (21) extend generally at an angle of 45° to the nozzle (19). 4. The apparatus as claimed in one of claims 1 to 3, wherein each nozzle (19) is movable up and down. The apparatus as claimed in one of claims 1 to 4, wherein pressing device (28) is provided to hold the heat-shrink foil (26 on the object stack (12) during shrinking. The apparatus as claimed in claim 5, wherein the pressing device (28) is mounted on a lift table (16) for the object stack (12). Dated this 16th day of July, 2001 (RANJNA MEHTA DUTT) OF REMFRY 8B SAGAR ATTORNEY FOR THE APPLICANTS

Documents:

abstract1.jpg

in-pct-2001-00832-mum-cancelled pages(30-06-2005).pdf

in-pct-2001-00832-mum-claims(granted)-(16-07-2001).doc

in-pct-2001-00832-mum-claims(granted)-(30-06-2005).pdf

in-pct-2001-00832-mum-correspondence(28-03-2006).pdf

IN-PCT-2001-00832-MUM-CORRESPONDENCE(30-8-2010).pdf

in-pct-2001-00832-mum-correspondence(ipo)-(05-10-2006).pdf

in-pct-2001-00832-mum-declaration(29-06-2005).pdf

in-pct-2001-00832-mum-drawing(30-06-2005).pdf

in-pct-2001-00832-mum-form 1(16-07-2001).pdf

IN-PCT-2001-00832-MUM-FORM 15(30-8-2010).pdf

in-pct-2001-00832-mum-form 19(27-04-2004).pdf

in-pct-2001-00832-mum-form 1a(12-07-2005).pdf

in-pct-2001-00832-mum-form 1a(30-06-2005).pdf

in-pct-2001-00832-mum-form 2(granted)-(16-07-2001).doc

in-pct-2001-00832-mum-form 2(granted)-(30-06-2005).pdf

in-pct-2001-00832-mum-form 3(16-07-2001).pdf

in-pct-2001-00832-mum-form 3(30-06-2005).pdf

in-pct-2001-00832-mum-form 5(16-07-2001).pdf

in-pct-2001-00832-mum-petition under rule 137(30-06-2005).pdf

in-pct-2001-00832-mum-petition under rule 138(30-06-2005).pdf

IN-PCT-2001-00832-MUM-PETITION UNDER SECTION 81(30-8-2010).pdf

in-pct-2001-00832-mum-power of authority(26-07-2001).pdf

in-pct-2001-00832-mum-power of authority(30-06-2005).pdf