Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
  • B65B53/00—Shrinking wrappers, containers, or container covers during or after packaging
  • B65B53/02—Shrinking wrappers, containers, or container covers during or after packaging by heat
  • B65B53/06—Shrinking wrappers, containers, or container covers during or after packaging by heat supplied by gases, e.g. hot-air jets
  • B65B53/066—Mobile frames, hoods, posts or the like
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65B—MACHINES, APPARATUS OR DEVICES FOR, OR METHODS OF, PACKAGING ARTICLES OR MATERIALS; UNPACKING
  • B65B59/00—Arrangements to enable machines to handle articles of different sizes, to produce packages of different sizes, to vary the contents of packages, to handle different types of packaging material, or to give access for cleaning or maintenance purposes
  • B65B59/001—Arrangements to enable adjustments related to the product to be packaged

Definitions

• the invention relates to a method for shrinking a heat-shrinkable film jacket placed around a frame, in particular in the vertical direction, shrinking of the heat-shrinkable film jacket by heating, wherein the heat-shrinkable film jacket extends at least over the upper edge of the stack of goods for top shrinkage protrudes on the upper side and on the top of the stack of goods, a, preferably over the edge of the stack of goods protruding, cover sheet film is arranged, which is welded to the heat shrink film jacket.
• the object of the invention is to provide a method by means of which the aforementioned disadvantages can be avoided and which ensures adequate climate protection by improved welding of the cover sheet film and the supernatant of the heat shrink film jacket.
• the normally rapidly rising upward hot gases are guided by the combined heat deflection and pressing over the surface of the stack to the center, so that already upon shrinkage of the sides of the stack during the upward movement of the shrinking device, a preheating of the cover sheet in the Top and a preheating of the supernatant of the heat shrink film jacket takes place. At the same time the supernatant is turned inwards.
• the still not completely cooled superimposed layers of heat shrink film jacket and cover sheet film are connected by pressing together by the combined heat deflection and pressing.
• the pressure exerted during pressing together can be varied. As a result, a particularly good welding of the superposed layers and thus a very good climate protection is achieved.
• the cover sheet is at least so large that after folding the supernatant a circumferential contact between the flattened supernatant of the heat shrink film jacket and the cover sheet is guaranteed.
• the cover sheet is greater than the stack, so that the cover sheet is folded down on all sides down.
• the heat shrink film coat can also project beyond the lower edge of the stack for carrying out a lower shrinkage. If a bottom-side sealing of the stack of goods is desired, it is also possible to provide a bottom film that preferably protrudes over the edge between the pallet and the stack of goods is welded to the heat shrink film jacket when performing the Unterschrumpfes.
• the shrinking device can initially be moved upwards for carrying out the upper shrinkage and subsequently for carrying out the lower shrinkage.
• shrinkage begins at about half the height of the stack.
• the shrinking device is first moved to half the height of the stack. Then, the shrinking device is started and initially moved vertically upwards to perform the upper shrinkage and then down to carry out the undershrink.
• the supernatant of the heat-shrinkable film jacket projecting over the top edge of the product stack in particular by means of a direct or indirect outward-pointing airflow generated by the combined heat-deflecting and pressing device, to be raised.
• a fan may be provided, which is switched to raise the supernatant to bubbles.
• the airflow impinging on the upper side is deflected outwards and thus ensures an uprighting.
• the fan can be put on suction.
• the hot gases rising along the sides of the stack and diverted in a direction parallel to the top of the stack can be sucked off, in particular by means of the combined heat deflection and pressing device.
• other embodiments are conceivable.
• the superimposed layers of heat shrink film and cover sheet can be connected at least in the top of the stack by pressing the not completely cooled superimposed layers of heat shrink film and cover sheet.
• the superimposed layers of heat-shrinkable film jacket and cover sheet film can be connected, at least in the area of the upper side of the product stack, by pressing on the layers of heat-shrinkable film jacket and cover sheet film which have not yet completely cooled.
• the invention also relates to a device for shrinking a heat-shrinkable film jacket placed around a, in particular palletized, stacked stack, with at least one shrinking device which can be moved vertically on a frame, in particular as shrink frame, for shrinking the heat shrinkable film jacket by heating, the heat shrinkable film jacket at least over the top edge protruding from the top of the stack for supersaturation shrinkage and on the top of the stack of goods, a preferably over the edge of the stack of goods Hende, cover sheet is arranged, which is welded to the heat shrink film jacket.
• Such devices are used for example in the paper industry.
• pallets with substandard format dimensions are used, which have to be packaged on a shrink packaging line.
• the shrinkage takes place after placing the cover sheet on the top of the stack and the subsequent provision of the heat shrink film jacket.
• the overhanging ends or edges of the cover sheet film and a possibly additionally provided between the pallet and stack of goods bottom sheet are thereby trapped between the heat shrink film jacket and the stack or the pallet.
• adequate climate protection must be ensured. This is only the case if sufficient welding is ensured between the cover sheet film placed on the stack and the heat-shrinkable film jacket designed as a band.
• the object of the invention is to provide a device by means of which the aforementioned disadvantages can be avoided and which ensures shrinkage with adequate climate protection by improved welding of the cover sheet film and the supernatant of the heat shrink film jacket.
• the hot gases which normally rise rapidly upward are guided toward the center by the combined heat deflection and pressing device over the surface of the product stack, so that already during the shrinkage of the sides of the product stack during the upward movement of the shrinking device a preheating of the cover sheet in the Area of the top and a preheating of the supernatant of the heat shrink film jacket done. At the same time the supernatant is turned inwards.
• the still not completely cooled superimposed layers of heat shrink film jacket and cover sheet film are connected by pressing together by the combined heat deflection and pressing.
• the pressure exerted during pressing together can be varied. As a result, a particularly good welding of the superposed layers and thus a very good climate protection is achieved.
• the cover sheet is at least so great that after
• the cover sheet is larger than the stack, so that the cover sheet is folded down on all sides down.
• the heat shrink film coat can also project beyond the lower edge of the stack for carrying out a lower shrinkage. If it is also desired to seal the stack on the underside, a bottom film that preferably protrudes over the edge can also be provided between the pallet and the stack, which is welded to the heat shrink film jacket when the undershrink is carried out.
• At least the area of the combined heat deflection and pressing device that can be brought into contact with the upper side of the stack is a little smaller than the inner dimensions of the shrinkage device, so that a sufficient movability of the shrinkage device during the upper shrinkage is ensured.
• the plate may preferably have a coating, preferably a Teflon coating, on the side facing the good stack.
• the side edges of the combined istur- and pressing device can be aligned approximately with the side edges of the stack. But it is also quite conceivable that the combined heat deflection and pressing device are a little smaller than the dimensions of the stack of goods. In such a case, suitable means should be provided which allow a deflection of the hot gases.
• the combined heat deflection and pressing device preferably projects laterally over the contour of the stack of goods.
• the combined Hopkinsumlenk- and pressing device may have at least one, preferably arranged approximately in the middle of the combined heat deflection and pressing, recess for the exit of parallel to the top of the stack in the direction of the center flowing hot gases upwards. Through the recess, the transferred hot gases, which flow from the edge of the upper side in the direction of the center of the upper side, are discharged upward.
• the existing flow velocities also reinforce the folding of the supernatants and the welding of the supernatant with the cover sheet.
• two successively arranged recesses are provided.
• the position of at least one recess for changing the point at which the hot gases initially flowing parallel to the upper side of the stack of goods can be changed upwards can be changed.
• the recess is for example part of a cover plate or a sliding plate, which is movable in the horizontal direction with respect to the bathumlenk- and pressing device within a contour of an opening provided in the Wärmumlenk- and pressing.
• a conveying device for sucking off the hot gases flowing parallel to the upper side of the stack in the direction of the center of the stack can be provided via at least one recess.
• the conveyor causes a negative pressure in the region of the top of the stack and thus sucked and deflected a larger amount of hot gases in the area between the top and combined istumlenk- and pressing.
• the conveyor can also be used for blowing, which serves for the initial eventual erection of the supernatant of the heat-shrinkable film jacket.
• a throttle valve may be provided in the region of at least one recess. This is when placing the combined heat deflection and pressing device and thus when pressing the not completely cooled superimposed layers of heat shrink film jacket and cover sheet in the closed position. This prevents the cover sheet in the region of the recess from being pulled upwards by the thermals of the warm air rising from the heated cover sheet surface.
• the throttle valve also allows control of the volumetric flow during shrinkage.
• At least the area of the combined heat deflection and pressing device that can be brought into contact with the not yet completely cooled superimposed layers of heat shrink film jacket and cover sheet film can be cooled. It is conceivable, e.g. a cooling system provided in the region of the underside of the combined heat-deflection and pressing device, which is cooled with water, air or another suitable cooling medium.
• the two opposite heating strips of a total of four heating strips existing shrink frame can be moved against each other.
• at least two adjacent heating strips are designed to be movable.
• At least one of the two extending substantially orthogonal to the conveying direction of the stack of heating strips for adjusting the distance between the stack on the one hand and at least one of the two substantially orthogonal to the conveying direction of the stack extending heating strips in their position by methods changeable.
• the heating strip which can be moved in relation to the remaining shrink frame may be arranged on at least one rail provided on the remaining shrink frame and a drive may be provided for a method.
• the Rail may be mounted on either the top or the bottom of the shrink frame with the heater bar secured to the rail by appropriate means. It is also conceivable that the heating bar has rollers at both ends, which travel on a rail mounted on the upper side of the shrink frame. Also, a kind of conveyor belt is conceivable, which is guided between two pulleys and to which the heating bar is attached.
• a device In order to ensure that the combined heat deflection and pressing device has an approximately horizontal orientation, in particular in the state applied to the upper side of the stack, a device can be provided which tilts the combined heat deflection and pressing device, in particular adjacent to the top of the stack Condition, prevented.
• At least one heating strip can consist of several heating segments, preferably of several separately activatable heating segments. In the case of a separate activation, the heating segments can be separately switched on or off.
• Such an embodiment lends itself to, since then the heating segments of the heating strips are deactivated, which no longer act on the area, by the movable (s) heating bar (s) and optionally by the non-movable (s) heating bar (s) or partial areas be included by this (of these).
• Fig. 1 is a side view of an inventive device with a shrink frame and a combined heat deflection and pressing device
• FIGS. 2-7 show different positions of the shrink frame and the combined heat deflection and contact device
• FIG. 8 is a plan view of the article according to FIG. 1
• Fig. 13 is a plan view of the article of FIGS. 11 and 12 and
• FIG. 14 is a plan view of the article according to FIGS. 9 and 10.
• FIG. 1 shows a side view of an apparatus according to the invention for shrinking a heat-shrinkable film jacket 2 placed around a stack of goods 1.
• the stack of goods 1 stands on a pallet 3 on the underside.
• the pallet 3 itself rests on a conveyor 4.
• a bottom foil 5 is first placed, the bottom foil 5 protruding over the edge of the pallet 3.
• the bottom sheet 5 of the stack for example, paper, sold.
• a cover sheet 6 is then placed on the stack 1, whereby the cover sheet 6 over the edge of the stack of goods. 1 survives.
• the cover sheet 6 is cut to length by a continuous film roll. Both the overhanging edge 7 of the bottom foil 5 and the overhanging edge 8 of the cover sheet 6 are folded down.
• a heat shrink film jacket 2 is then placed around the stack 1.
• the stack 1 can for example be driven against a film curtain from a heat shrink film, which extends transversely to the conveying direction.
• the heat shrink film sets around the stack 1 around.
• In the region of the direction of travel opposite side of the so placed around the stack 1 around the heat shrink film jacket 2 is usually welded by a vertically aligned welding bar. In this way, a band is formed, as shown in Fig. 1.
• Adjacent to the conveyor 4 is on a frame 11 via a drive 12 in the vertical direction (arrow 13) movable shrink frame 14 consisting of four heating strips 14a for shrinking by heating the heat shrink film jacket 2 is provided.
• This consists in the illustrated embodiment of a parallel to the top of the stack 1 aligned plate 16, wherein the plate 16 projects in the illustrated embodiment about 50 mm on all sides over the contour of the stack 1.
• a coating e.g. a Teflon coating, in order to avoid sticking to the cover sheet 6.
• a recess 17 for the exit of hot gases is provided in the plate 16. At these recesses
• a channel section 18 adjoins the upper side, in which a throttle flap 19 and a conveying device 20 designed as a ventilator are provided.
• Fig. 8 the configuration of the combined heat deflection and pressing device 15 is shown in detail.
• the combined shallumlenk- and pressing device 15 is attached to two struts 21, which in turn are connected to the frame 11.
• the struts 21 are fixed against each other.
• rod-shaped holding elements 23 are provided on the underside, at the lower ends of a square frame 24 is attached.
• a square frame 24 is attached in each corner of the frame 24 has an outwardly facing retaining plate 25, each with a bore 26.
• the plate 16 of the combined heat-deflection and pressing device 15 is suspended from the frame 24 at a distance, forming a free space 27 from below.
• 16 fastening pins 28 are formed with an end-side thickening 29 on the top of the plate.
• Each fastening pin 28 is guided in the associated bore 26, wherein the thickening 29 is greater than the diameter of the bore 26 and is located above the retaining plate 25.
• the channel section 18 is subdivided into a lower partial channel section 18a with a smaller contour and an upper partial channel section 18b with a larger contour, so that both partial channel sections 18a, 18b can be slid into one another.
• the particular embodiment of the combined heat deflection and pressing device 15 allows a pressing only with the actual weight of the plate 16 takes place. Only when the free space 27 has been overcome, it is also possible to work with a higher contact pressure, since in addition to the weight of the remaining parts of the combined heat deflection and pressing device 15, the force of the drive 12 also acts.
• FIGS. 1 to 7 The operation according to FIGS. 1 to 7 is as follows:
• Fig. 1 the wrapped stack 1 is ready for shrinking.
• the projecting above the top edge of the stack 1 supernatant 9 is still undirected, ie partially wise he stands tall, sometimes he is folded outward or inward.
• the shrink frame 14 moves into the position shown in Fig. 2, which corresponds approximately to half the height of the stack 1. Only when reaching this position, the shrink frame 14, which is shown in FIGS. 2 to 7 cut, started.
• the hot gases flow in the direction of the arrows 30 up along the sides of the stack of goods 1.
• the conveyor 20 stands on BI sen, so that air is blown in the direction of arrows 31 on the top and so the top projection 9 is erected.
• the throttle valve 19 is in the open position.
• the distance between the heat deflecting and pressing device 15 and the top of the stack 1 is reduced.
• the distance is about 500 mm.
• the distance is reduced to about 200 mm.
• the conveyor 20 is already set to suction, so that along the sides upwardly flowing hot gases (arrows 30) are deflected in a direction parallel to the top of the stack 1 (arrow 32).
• the heat-shrinkable film jacket 2 and the cover sheet film 6 in the region of the upper side is heated sufficiently for a good upper shrinkage.
• the shrink frame 14 has reached its uppermost position.
• the shrink frame 14 is then used to shrink the sides, especially in the lower region of the product.
• Stapeis 1 vertically downward, as shown in Fig. 5.
• the hot gases arrows 32
• the recess 17 in the direction of the arrows 33.
• the shrink frame 14 has reached its lowermost position for performing the undershrink formation.
• the conveyor 20 is turned off and the throttle valve 19 is closed.
• the combined heat deflection and pressing device 15 is pressed in the direction of the arrow 34 on the top of the stack 1, so that the superimposed layers of heat shrink film jacket 2 and cover sheet 6 are connected to each other in the top by pressing the not completely cooled superimposed layers , Of course, the pressing can also be done earlier.
• the shrink frame 14 and the heat deflection and pressing device 15 is again shifted to the position shown in FIG. 7 and the wrapped and shrunk stack 1 is transported away by means of the conveyor 4.
• FIGS. 9 to 14 show a further exemplary embodiment of the device according to the invention.
• the heating bar 14a oriented orthogonally to the conveying direction 35 is designed to be movable relative to the remaining shrink frame 14. This allows an adjustment of the distance between the stack 1 on the one hand and the movable heating bar 14a of the shrinking frame 14 designed as a shrinking device. Such movability is offered when goods stack 1 different dimensions, such as length, to be packed.
• FIGS. 9, 10 and 14 show a stack 1 of lesser length. Therefore, the left heating strip 14a shown in FIGS. 9 and 10 has been moved in the direction of the opposite heating strip 14a in a direction of movement 36 oriented essentially orthogonal to this side surface. In this case, the conveying direction 35 and the direction of travel 36 are the same.
• FIGS. 11, 12 and 13 show the arrangement of the heating strips 14a in the case of a stack 1 of greater length.
• the left heater bar 14a has been moved almost completely outward.
• the heating strip 14a can be moved into two different positions.
• intermediate positions of the displaced heating strip 14a can be controlled.
• the heating bar 14a For the mobility 14 rails 37 are provided on the top of the shrink frame. About guide slide 38, the heating bar 14a slidably mounted on the two rails 37.
• a toothed belt 40 clamped between two deflection rollers 39 engages on the heating strip 14a. Not shown is a suitable drive for driving the toothed belt 40.
• the deflection rollers 39 are attached to the shrink frame 14 via bearing brackets 39a.
• the toothed belts 40 are not shown in FIGS. 13 and 14. If the two heating strips 14a adjoining the movable heating strip 14a at the end each have a plurality of separately controllable heating segments which can be activated so far, it makes sense in the position of the heating strip 14a shown in FIG. 10 if the heating segments are disabled in the end protruding portion X of the heating strips 14a with the top side mounted rails 37.
• two recesses 17 are provided in the plate 16, to each of which a channel section 18 adjoins, in each of which a throttle valve 19 and a conveying device 20 designed as a ventilator are provided.
• only one of the four heating strips 14a is designed to be movable, while the remaining part of the shrink frame 14 consisting of the other three heating strips 14a is not movable in itself and has an overall U-shaped configuration accepts.
• embodiments are also possible in which two or more heating strips 14a are movable, so that both an adaptation to the length and to the width of the stack of goods 1 is possible.
• the stack 1 is placed in the embodiment illustrated in FIGS. 9 and 10 so that the center of the stack 1 is approximately at the center of the right Recess 17 matches. Preferably, the distance on opposite sides of the stack 1 to the respective adjacent and parallel to these sides heating strips 14a is approximately equal. If the stack of goods 1 shown in FIGS. 9 and 10 is involved, then the left heating strip 14a is moved in the direction of the stack of goods 1 until the distance corresponds approximately to the distance between the other three heating strips 14a and the stack 1.
• both conveyors 20 are "active" and, for example, when sucking both throttle valves 19 are opened, since both recesses 17 are within the contour of the stack 1.
• the stack 1 is placed so that the center between the recesses 17 with the center of the top of the stack 1 is aligned approximately coincident.
• the operating situation shown in FIG. 12 for a longer stack of goods 1 and in FIG. 10 for a shorter stack of goods 1 corresponds approximately to the operating situation illustrated in FIG. 2.
• a device 41 is provided. This device 41 is provided in the region of the edge of the plate 16, which projects laterally in comparison to the other edges of the plate 16 with respect to the stack 1 most.
• the device 41 is formed as a cylinder 42 which engages a connected to the plate 16 lever arm 43 and so the plate 16 is raised in the region of this edge.
• the plate does not tilt 16 but is held in an approximately horizontal orientation, so that acts on each point of the top of the stack 1 in about the same force.
• a plurality of heating strips 14a are movable, it makes sense if a device 41 is provided in the region of each edge of the plate 16, to which a movable heating strip 14a adjoins.

Landscapes

• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Basic Packing Technique (AREA)
• Labeling Devices (AREA)
• Closing Of Containers (AREA)
• Laminated Bodies (AREA)
• Packages (AREA)

Priority Applications (1)

Applications Claiming Priority (3)

Publications (2)

Family

ID=36580598

Family Applications (1)

Country Status (10)

Families Citing this family (14)

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• 2005
  • 2005-12-24 DE DE202005020192U patent/DE202005020192U1/de not_active Expired - Lifetime
• 2006
  • 2006-10-23 BR BRPI0617755-7A patent/BRPI0617755B1/pt not_active IP Right Cessation
  • 2006-10-23 CA CA2626566A patent/CA2626566C/fr not_active Expired - Fee Related
  • 2006-10-23 WO PCT/EP2006/010198 patent/WO2007048558A1/fr active Application Filing
  • 2006-10-23 DE DE502006003909T patent/DE502006003909D1/de active Active
  • 2006-10-23 AT AT06806469T patent/ATE432876T1/de active
  • 2006-10-23 PL PL06806469T patent/PL1940686T3/pl unknown
  • 2006-10-23 EP EP06806469A patent/EP1940686B1/fr active Active
  • 2006-10-23 US US12/090,104 patent/US7703263B2/en active Active
  • 2006-10-23 ES ES06806469T patent/ES2328281T3/es active Active
  • 2006-10-23 PT PT06806469T patent/PT1940686E/pt unknown

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