EP0136424A2 - Method and machine for closing a receptacle with a cover, preferably made of an elastic material - Google Patents

Abstract

1. Method for closing a filled container (12), which is preferably arranged horizontally and preferably consists of a plastically deformable material, with a lid blank (11), which preferably consists of an elastic material, the container (12) comprising a first flange part (66), which extends horizontally outwards, and a second flange part (67), which adjoins the latter vertically, the lid blank (11) comprising an edge area which projects beyond the second flange part (67), the lid blank (11) being drawn into the container (12), the edge area of the lid blank (11) or a part of the edge area being pushed into the corner formed by the first and second flange parts (66, 67) and the second flange part (67) being folded over in the direction of the first flange part (66), until the edge area of the lid blank (11) is gripped between the two flange parts (66, 67), and possibly being pressed on, characterised in that during the folding operation the edge area of the lid blank (11) is held flatly against at least one flange part (66, 67) in the corner formed by the two flange parts (66, 67) against the restoring force produced when the lid blank (11) is drawn into the container (12).

Description

The invention relates to a method and a device for closing a preferably horizontally arranged, filled container made of preferably plastically deformable material with a lid blank made of preferably elastic material, the container having a horizontally outwardly extending first flange part and a second vertically adjoining one The flange part and the cover blank have an edge region projecting beyond the second flange part, the cover blank is drawn into the container, the edge region of the cover blank or part of the edge region is pressed into the corner formed by the first and second flange parts and the second flange part in the direction of the first flange part for clamping the edge area of the lid blank between the two flange parts and, if necessary, pressed on.

From US Pat. No. 3,445,988 a method and a device of the type mentioned at the outset for closing a popcorn container are known. Here, the lid blank loosely placed on the container is drawn into the container by means of a pull-in head. Almost simultaneously, the edge area of the lid blank is pressed into the corner formed by both flange parts in that a piston-cylinder unit arranged outside the closing device actuates a spreading flange via a rotatable shaft, that is to say pushes it into the corner with an increase in diameter while taking the edge area of the lid blank . Subsequently, after a switch has been run over, it is started Impact of the piston-cylinder unit in the opposite direction, whereby the expansion flange is withdrawn from the corner. Once the piston-cylinder unit and thus the expansion flange has reached the end position, a switch is actuated again and the second flange part is folded inwards in the direction of the first flange part until the edge region of the cover blank is clamped in and pressed onto the first flange part.

This method and the device used for carrying it out have several disadvantages. During the folding, restoring forces, which emanate from the cover blank drawn into the container, cause strong curvatures of the cover blank, in particular in the flange area, so that the fit of the cover blank is not guaranteed. This deviation from the fitting position is exacerbated by the fact that the lid blank is placed loosely on the container and is also drawn into the container in this state. As a result of the use of limit switches for actuating the spread as well as the return movement of the spread flange, the possibility of incorrect control of these movements due to incorrect switch setting or faulty switches cannot be ruled out.

It is an object of the invention to further develop a method and a device of the type mentioned at the outset in such a way that the container can be securely closed with little design effort.

With regard to the method, this is achieved in that the edge region of the cover blank during the folding process in the corner formed by both flange parts against that when the cover is pulled in restoring force occurring in the container in flat contact with at least one flange part is obtained.

The object is achieved with respect to the device which has a spreading flange which can be expanded and retracted in the horizontal direction with a change in diameter in order to press the edge region of the cover blank or part of the edge region into the corner formed by the first and second flange parts, in that the spreading flange during the folding process holds the edge region of the cover blank in the corner formed by both flange parts against the restoring force that occurs when the cover blank is drawn into the container in flat contact with at least one flange part.

The risk of warping and displacement of the lid blank from its fitting position required to carry out a trouble-free closing operation and to produce a secure closure is largely prevented. This applies both in the event that the outer edge of the lid blank drawn into the container is arranged in the region of the first flange part, and also in the case of using a wider or less lid lid drawn into the container, the edge region of which then when the second flange part is folded over is folded back on itself.

Further features and advantages of the invention emerge from the subclaims and the following description of an exemplary embodiment of the invention with reference to the accompanying drawing.

• Figur 1 eine Seitenansicht einer Maschine zum Füllen eines Popcorn-Behälters und Verschließen desselben mittels einer erfindungsgemäßen Verschließvorrichtung,
• Figur 2 eine Draufsicht der in Figur 1 dargestellten Maschine,
• Figur 3 eine Seitenansicht in schematischer Darstellung der in Figur 1 und in Figur 2 gezeigten Verschließvorrichtung,
• Figur 4 eine Vorderansicht in schematischer Darstellung der in Figur 3 gezeigten Verschließvorrichtung,
• Figur 5 eine Draufsicht in schematischer Darstellung der in Figur 3 und 4 gezeigten Verschließvorrichtung,
• Figur 6 einen vergrößerten Ausschnitt der Figur 4, welcher Einzelheiten der Verschließvorrichtung in der Offenstellung zeigt,
• Figur 7 eine vergrößerte Draufsicht des in Figur 6 dargestellten Spreizflansches,
• Figur 8 einen Schnitt entlang der Linie VIII-VIII in Figur 7,
• Figur 9 eine der Figur 6 entsprechende schematische Darstellung der Verschließvorrichtung in einer ersten Arbeitsphase, und
• Figur 9A eine vergrößerte Darstellung des in Figur 9 mit A bezeichneten Bereiches,
• Figur 10 bis 16 der Figur 9 entsprechende schematische Darstellungen der Verschließvorrichtung in nachfolgenden Arbeitsphasen,
• Figur 10A bis 16A vergrößerte Darstellungen der in den Figuren 10 bis 16 mit A bezeichneten Bereiche.
• Figur 17 eine der Figur 12A entsprechende Darstellung eines abgewandelten Verfahrensschrittes.

Show it:

• FIG. 1 shows a side view of a machine for filling a popcorn container and closing it by means of a closing device according to the invention,
• FIG. 2 shows a top view of the machine shown in FIG. 1,
• FIG. 3 shows a side view in a schematic representation of the closing device shown in FIG. 1 and in FIG. 2,
• FIG. 4 shows a front view in a schematic representation of the closing device shown in FIG. 3,
• FIG. 5 shows a top view in a schematic representation of the closing device shown in FIGS. 3 and 4,
• FIG. 6 shows an enlarged detail from FIG. 4, which shows details of the closing device in the open position,
• FIG. 7 shows an enlarged top view of the expansion flange shown in FIG. 6,
• FIG. 8 shows a section along the line VIII-VIII in FIG. 7,
• 9 shows a schematic representation of the closing device corresponding to FIG. 6 in a first working phase, and
• FIG. 9A shows an enlarged illustration of the area designated by A in FIG. 9,
• 10 to 16 of FIG. 9 corresponding schematic representations of the closing device in subsequent working phases,
• 10A to 16A are enlarged representations of the areas designated by A in FIGS. 10 to 16.
• FIG. 17 shows a representation of a modified method step corresponding to FIG. 12A.

FIGS. 1 and 2 show a machine for filling and closing a popcorn container which, apart from a container unstacking device 1 at one end of a conveyor belt 2 and a subsequent filling device 3, has a closing device 4 as an exemplary embodiment of the invention at the other end of the conveyor belt 2.

A schematic overview of this closing device 4 according to the invention is shown in FIGS. 3 to 5. The closing device 4 has a lower tool 5 and an upper tool 6 arranged above the same, both of which can be moved in opposite directions in the vertical direction by a main drive (not shown here). Furthermore, a feed device 8 provided with a drive 7 for guiding a cover film web 9 made of elastic material, in the present case. see-through plastic film, between lower tool 5 and upper tool 6 (for the sake of clarity only shown in FIG. 3) and a cutting knife 10 arranged in upper tool 6 for cutting out a cover blank 11 (see FIGS. 10 and 10A ff.) from cover film web 9 Although this feed device 8 is not part of this invention but is the subject of another patent application with the same title filed by the same applicant with the same filing date, it can advantageously be used in combination with the closing device on which this invention is based. For this reason, the feed device 8 is included in the following description.

The lid blank 11 serves to close the circular-shaped popcorn container 12, which in the present case consists of aluminum foil. The latter is inserted between the tools 5 and 6 in the open position by means of a container transport device 13 indicated in FIGS. 4 and 6.

The upper tool 6 can be moved up and down by means of two lifting columns 15 driven by the main drive and guided in a machine frame 14. Likewise, the lower tool 5 can be moved up and down by means of three push rods 16 driven by the main drive and guided in the machine frame 14 (details of the push rods - see FIG. 6).

In order to keep the cover film web 9 under tension and in a precise cutting position, the feed device 8 has a braked decoiler 17 for the cover film web 9 on the inlet side of the closing device 4 indicated by the arrow P and in the running direction P of the cover film web also indicated by the arrow P. 9 downstream pair of film inlet rollers 18, 19. One of these film inlet rollers 18, 19 is braked. On the opposite take-off side of the closing device 4, a pair of film pull rollers 20, 21 and a driven take-up reel 22 arranged downstream in the running direction P are arranged. The film pull roller 20 is also driven. Both pairs of film rollers 18 to 21 are arranged outside the movement path of the lower and upper tool 5 and 6 so that the cover film web 9 is passed under tension and with lateral guidance between them in a parting plane T of the two tools 5 and 6. In other words, the feed device 8 is an integrated component of the closing device 4, which results in a very low design effort. At the same time, this creates the prerequisite for determining and cutting out the area of the cover blank with the greatest accuracy.

A lower and an upper clamping bar 23 are arranged on both sides of the cover film web 9 radially outside of the cutting knife 10. Among other things, they serve to keep the cover film web in the parting plane T even after the cover blank has been cut out. The film inlet rollers 18, 19 are supported on both sides with axle ends 24 and 25 in bearing blocks 26 and the film drawing rollers 20, 21 with both ends on the axis 27 and 28 in bearing blocks 29. The bearing blocks 26 and 29 are each arranged on two roller supports 30 and 31 fastened to the machine frame 14.

The decoiler 17 is fastened to a coiler mandrel 33 by means of a support cone 32 and the coiler 22 is fastened to a coiler mandrel 35 by means of a support cone 34. Both reel mandrels 33, 35 are rotatably supported on one side each on a reel column 38 or 39, each with a coupling part 36 or 37, which enables replacement. To achieve jerk-free processing, the cover film web 9 passes through a buffer unit 40 in the form of a loop. This consists of a fixed roller arm 41 with five rotatable rollers and a pendulum arm 42 arranged underneath and having three rotatable rollers. The cover film web 9 passes through this buffer unit 40 in such a way that the rollers of the roller arm 41 are arranged alternately with the rollers of the pendulum arm 42. In Figure 5, the rollers of the pendulum arm 42 and the film feed roller 19 are partially omitted for reasons of clarity.

The drive 7 of the film feed device 8 comprises an arranged below the lower tool 5, by means of a support arm 43 attached to the machine frame 14 straight thrust crank drive 44, which is coupled to the main drive of the closing device 4, supported on a support beam 45 of the machine frame 14, and non-slip drive , e.g. B. an endless chain drive 46 is driven. A connecting rod 47 connects the crank arm 48 of the drive 44 to a rack 50 which can be moved up and down vertically in a protective hood 49 from a bottom dead center 50 UT to a top dead center 50 TDC. Both dead centers are indicated in FIGS. 3 and 4 with dashed lines . For the sake of clarity, the rack 50 is shown broken away in FIG. 4. A gear 51, which is connected to the axle end 27 of the film pulling roller 20 via a freewheel, not shown, is in engagement with the toothing of the rack 50.

In order to make the winding of the cover film web 9 onto the take-up reel 22 synchronous with the rotation of the film pulling rollers 20, 21 and thereby with constant tension, a flexible traction means is used as a possible embodiment according to FIGS. 3 to 5, which has one end on a projection 52 of the rack 50 is attached and carries a weight 53 at the other, free end. The traction means is formed between the projection 52 and a point A as a rope 56 deflected around deflection pulleys 54 and a rope tensioning device 55 and on the remaining section up to the weight 53 as a chain 57. The latter is looped over a chain wheel 58, which is in a slip-free engagement with the coiler mandrel 35 of the take-up reel 22 via a freewheel 59. The freewheel 59 enables the transmission of a rotation of the Sprocket 58 only in the direction of rotation D of the take-up reel 22. A guide rod 61 which is guided through a through bore 60 in the weight 53 serves to guide the weight 53 over its entire stroke movement from bottom dead center 53 UT to top dead center 53 OT. The above-described design of the drive of the film pull roller 20 and the synchronous drive of the take-up reel 22 for maintaining constant tension in the cover film web 9 is characterized by a particularly simple, robust and cost-effective construction.

The lower tool 5 and the upper tool 6 are shown in detail in FIGS. 6 to 17 and 9A to 16A. The popcorn container 12, which is circular in the present exemplary embodiment and is made of aluminum foil, is formed at the upper edge of its wall with a flange which consists of a horizontally outwardly extending first flange part 66 and an adjoining vertical second flange part 67. The popcorn container 12 is arranged in FIG. 6 between the upper and lower tools 5 and 6 in the open position on a horizontal base plate 68 which is immovably supported on the machine frame 14 by means of spacer columns 69. The popcorn container 12 reaches the base plate 68 from the conveyor belt 2 by means of the container transport device 13.

In addition to the base plate 68, the lower tool 5 has a container-receiving basket 7C, the basket base of which is connected by a horizontal pressure flange 71 connected to the pressure rods 16 and the basket wall of which is attached to a radially outer pressure flange attached to the pressure flange 71 men 72 and a radially inner support frame 73 is formed. The latter is fastened to the pressure flange 71 so that it can move in the vertical direction opposite to the pressure frame 72. The pressure frame 72 has a circumferential recess 172 on its inside facing the support frame 73.

Preloaded springs 74, which are embedded in bores of the pressure flange 71 and the support frame 73, press the latter up to a stop. The stop is formed by a step 75 on the support frame 73 and a counter step 76 on the pressure frame 72. The radially inner circumferential surface of the support frame 73 is designed to run conically in accordance with the shape of the container wall.

The container receiving basket 70 can be moved up and down by means of the push rods 16 relative to the base plate 68 from the initial position shown in FIG. 6 to an end position shown in FIG. 9 ff. During an upward movement from the position shown in FIG. 6, the support and pressure frames 72, 73 take over the container 12 from the base plate 68, the horizontal first flange part 66 resting on the upper annular surface of the support and pressure frames 72, 73 is coming. Here, the container 12 is suspended in the container receiving basket 70, since the height of the frames 72, 73 exceeds that of the container 12. The frames 72, 73 accordingly form a support unit for supporting the first flange part 66 of the container 12, as a result of which the latter is fixed in the vertical direction. The support frame 73 also serves as an abutment when the folded-over second flange part 67 is pressed on the clamped edge area of the cover blank 11 and the underlying first flange part 66. The container 12 is fixed in the horizontal direction by its wall resting on the inside of the support frame 73.

Furthermore, the lower tool 5 has a lower holding element 77, which is arranged radially outside the pressure frame 72 and can be displaced vertically relative thereto, which consists of a lower part 78 and a holding ring 79 arranged above it, both of which are firmly connected to one another. Optionally, as shown in FIG. 6, a radially outer guide ring 80 fastened to the machine frame 14 can be provided, which in cooperation with the pressure frame 72 guides the lower part 78 in the vertical direction. In cooperation with an upper holding element 81 arranged in the upper tool 6, the lower holding element 77 serves as a holder for fixing the cover film web 9 or the cover blank 11 in the parting plane T and extends in the vertical direction essentially over the total height of the frames 72, 73 and in horizontal direction within the area circumscribed by the cutting knife 10, the radially outer peripheral surface of the retaining ring 79 following the cutting contour. The second flange part 67 of the container 12 is arranged parallel to the radially inner circumferential surface of the retaining ring 79 and an adjacent part of the lower part 78 before the folding process begins.

The lower part 78 of the lower holding element 77 is provided on its upper section facing the holding ring 79 with a radially inwardly extending shoulder 82. The surface of the shoulder 82 facing away from the retaining ring 79 is defined as a vertical axis of the ver Closing device 4 formed inclined surface 83, which faces a parallel counter surface 84 on the pressure frame 72. Compression springs 85 let into corresponding bores in the shoulder 82 and the opposite part of the pressure frame 72 keep both components 72, 77 at a distance, but also enable a mutual approach to the inclined surface 83 against the counter surface 84.

Vertical penetration pins 86, as shown in FIGS. 9 to 16, can be fastened to the pressure flange 71 and arranged within through bores in the support frame 73. They serve to pierce and thus to additionally strengthen the flange parts 66, 67 and the edge region of the cover blank enclosed between the two after the folding process has been completed. However, they can also be used instead or additionally in an earlier phase of the closing process, for example with a spreading flange 88 according to FIGS. 12 and 12A, to pierce the first flange part 66 and the associated part of the edge region of the cover blank 11 and thus to additionally fix the cover blank 11 during serve the folding process - see Figure 17 -.

The upper tool 6 comprises, in addition to the cutting knife 10 and the upper holding element 81, a retraction head 87, a spreading flange 88 consisting of segments with a mechanical coupling 89, a counter-pressure frame 90 and a crossbar 91 arranged above these components 10, 81, 87 to 90, which the attached to the lifting columns 15 supporting element of the upper tool 6.

The upper holding element 81 opposite the lower holding element 77 is screwed to the lower end of each of some vertical bolts 92 arranged at a distance in the circumferential direction. Each bolt 92 is relatively ver through a bore in the cross member 91 pushed through. A helical spring 93 guided on each bolt 92 presses the upper holding element 81 against the cross member 91 in the direction of the lower holding element 77. An inner cylindrical part 181 of the upper holding element 81 protrudes radially inward over the inner edge of the holding ring 79 with the same width as that upper annular surface of the printing frame 72 also. This part 181 is referred to below as a low-pressure frame 181 due to its function to be explained. The underside of this low-pressure frame 181 is designed as a bevel 182 running radially inwards and upwards.

The cutting blade 10 is arranged on the underside of a holder 94 which can be moved up and down relative to the crossmember 91 and to the upper holding element 81, and is guided along the radially outer peripheral surface of a flange 99 which extends radially outward from the upper holding element 81. The holder 94 itself is guided along the remaining radially outer circumferential surface of the upper holding element 81 running above the flange 99. The holder 94 is screwed to the lower end of some vertical guide bolts 95 arranged at a distance in the circumferential direction. Each guide pin 95 is passed through a bore in the crossmember 91 and through a spring sleeve 96 fastened to the upper side of the crossmember 91 so that it can move relative to it. This spring sleeve 96 serves as an upper abutment for a spring 97 which is supported with the lower end on the holder 94. A stop 98 at the upper end of each guide pin 95 prevents the holder 94 from dropping out of the position shown in FIG. 9. The radially outer, upper The peripheral edge of the retaining ring 79 serves as a counter cutting edge for the cutting knife 10.

The counter pressure frame 90 is fastened to the crossmember 91 by means of a number of vertical fastening bolts 100 which are arranged at a distance in the circumferential direction. The fastening bolts 100 pass through a spacer 101 with a height which enables the maximum movement stroke of the upper holding element 81 and the holder 94 for the cutting knife relative to the crossmember 91. The counter pressure frame 90 and the spacer 101 are guided along the radially inner circumferential surface of the upper holding element 81.

The counter-pressure frame 90 and the low-pressure frame 181 together form a folding unit 90, 181 for folding the second flange part 67 and the edge region of the cover blank 11 in multiple stages. This is an advantageous measure to support a warp-free folding process. The low-pressure frame 181 is used to grasp the second flange part 67 and to press it down and fold it in the direction of the first flange part 66. Here, the bevel 182 has a function that supports the advantageous effect of the multi-stage folding process. The counter pressure frame 90 takes over the second and last part of the folding process, including the pressing on of the second flange part 67. For this purpose, it has a counter pressure surface 190 parallel to the upper annular surface of the support frame 73, which is followed by a radially inner, bevelled surface 290 inwards and upwards. When using penetration pins 86 for additional strengthening of the flange parts 66, 67 and the edge region of the lid blank 11 enclosed between the two after the folding process has ended, the counter pressure surface 190 has notches 390 for receiving the tips of the pins 86 - not shown in FIG. 6. By designing the low-pressure frame 181 as an integral part of the upper holding element 81, a considerable reduction in the construction and control effort is achieved.

The retraction head 87 is arranged in front of the counter-pressure frame 90 in the lowering movement. It serves to pull the lid blank 11 into the popcorn container 12 and is fastened to a central shaft 102 which can be moved up and down relatively with the cross member 91 and also with respect to it. The retraction head 87 is conical in accordance with the shape of the container wall.

A horizontal guide element 103 is fastened to the retraction head 87 at a distance from the top side thereof by means of screws 104. The spreading flange 88 is arranged between the two components 87, 103. As a result, the retraction head 87 and the expansion flange 88 can be lowered together to a common end position. The expansion flange 88 consists of six segments 105 which, due to the circular container 12 in the present exemplary embodiment, are designed as circular sectors and can be moved radially outwards and backwards. To guide this radial movement, two screws 104 each penetrate a radially extending elongated hole 106 in each segment 105. At the same time, a sliding element 107 is arranged in each case in recesses 108 of the segments 105 between adjacent segments 105. Each sliding element 107 has on its underside a pin 109 which projects into the retraction head 87 and is supported on the latter by means of a tension spring 110 guided on a bolt. The radially outer portion of each sliding element ₁₀₇ i _s a valley is formed radially outwardly tapered trapezoidal projection 111, whose legs abut the respective segment 105th The sliding elements 107 are thus under a radially outward bias and consequently serve to move the segments 105 radially outward, ie for spreading the expansion flange 88, whereby the trapezoidal lugs 111 ensure the trouble-free transmission of this radial displacement to the segments 105. At the same time, the radially outer parallel sides of the trapezoidal extensions 111 close the circumferential gaps existing between adjacent segments 105 of the spreading expansion flange 88.

The segments 105 and the sliding elements 107 of the spreading flange 88 are parallel to the first flange part 66 and thus to the upper annular surface of the pressure and on their underside, in particular in the area located in the corner between the two flange parts 66, 67 of the container 12 in the spread state Support frame 72, 73 formed. In this case, the expansion flange 88 can be lowered until the edge region of the cover blank 11 is held free of warping in cooperation with the first flange part 66 or the upper ring surface of the pressure and support frames 72, 73. The outer edge of the segments 105 and the sliding elements 107 is one of the bevels 182 of the low-pressure frame 181 adapted edge slope 188 is formed. When using penetrating pins 86 for fixing the first flange part '66 and the associated part of the edge region of the cover blank 11 during the folding process, the expansion flange 88 has radial grooves 288 on its underside for receiving the tips of the pins 86 - not shown in FIG. 6.

During the lowering of the retracting head 86, the expansion flange 88 slides with its periphery along the inner circumferential surface of the low-pressure frame 181. That is, the expansion movement of the expansion flange is controlled by the inner contour of the low-pressure frame 181.

The coupling 89 comprises a control cone 113, which is guided between the spacer 101 and the central shaft 102 and is pressed down by means of a spring 112 supported on the crossmember 91 up to a stop, the inclined surface of which with the counter-inclined surface Mating cone 114 can be engaged on the expansion flange 88. This mechanical coupling 89 serves to pull the expansion flange 88 back out of the corner between the two flange parts 66, 67 of the container 12 depending on the lowering movement of the folding unit 90, 181. Both inclined surfaces necessarily run radially inwards upwards. The stop is formed by a projecting part 115 or 116 on the control cone 113 and on the spacer 101.

The function of the closing device 4 according to the invention is described below with reference to FIGS. 6, 9 to 16 and 9A to 16A. For reasons of better clarity, the container 12 with its flange parts 66, 67 and the elements of the closing device 4 which bring about the folding process, even if they lie one on top of the other, are drawn at a distance from one another in FIGS. 9A to 15A.

The lower tool 5 and the upper tool 6 are moved into their open position shown in FIG. 6 after a popcorn container 12 has been closed. The expansion flange 88 is in the non-expanded state. The circumference of its segments 105 and sliding elements 107 lie against the radially inner circumferential surface of the low-pressure frame 181. The mechanical coupling 89 of the expansion flange 88 is disengaged. The just closed popcorn container 12 is removed from the base plate 68 by means of the container transport device 13 and replaced by a filled, but not yet closed popcorn container 12. At the same time, the film pulling roller 20 is set in rotation by means of the straight thrust crank drive 44, the punched-out cover sheet web 9 - in FIG. 5 corresponding to the punched-out cover blank 11 de opening with the reference numeral 211 - pulled out of the area of the lower and upper tools 5 and 6 and wound onto the winding spool 22. After this winding phase has ended, a section of the cover film web 9 which has not yet been punched out is arranged with a prestress between the two tools 5 and 6. The clamping strips 23 are actuated to clamp the cover film web 9.

Then, while simultaneously lowering the upper tool 6, the container receiving basket 70 is moved upward into the position shown in FIG. 9, the popcorn container 12 with its first flange part 66 coming to rest on the upper annular surface of the pressure frame 72 and the support frame 73, hanging is arranged in the container receiving basket 70 and rests with an upper region of its container wall against the radially inner peripheral surface of the support frame 73. As a result, the container 12 is fixed in the horizontal and vertical directions. The second flange part 67 ends at the top of the holding ring 79 below the cover film web 9. The lower and the upper holding element 77, 81 are brought into mutual contact. As a result, the cover film web 9 is immovably fixed in the area between the cutting knife 10 and the second flange part 67 of the container 12 in the horizontal direction. In other words, the area of the cover film web 9 circumscribed by the cutting knife 10 and corresponding to the cover blank 11 is due to the arrangement of the cutting knife 10 and the lower and the upper holding element 77, 81 relative to the container 12 in a position referred to here as the closed position, which is equal to the position Position of the lid blank or lid closing the container 12 is at least horizontal in relation to the container.

The upper tool 6 including the retraction head 87 is further lowered into the position shown in FIGS. 10 and 10A. The movement of the crossmember 91 is transmitted to the cutting knife 10 via the springs 97, so that it is also moved downward and finally, in cooperation with the counter cutting edge on the retaining ring 79, cuts out the cover blank 11 from the cover film web 9. The area of the lid blank 11 is. during this entire downward movement of the upper tool 6 and during the cutting out of the cover blank 11 by the holding elements 77, 81, so that the cover blank 11 is cut out exactly in the position which it occupies in the horizontal direction even after the closing process has ended. The expansion flange 88 is kept in the unexpanded state by the inner peripheral surface of the low pressure frame 181.

By further lowering the upper tool 6, including the retraction head 87, the lid blank 11 is drawn into the container 12. When the expansion flange 88, as shown in FIGS. 11 and 11 A, reaches the bevel 182 of the low-pressure frame 181, its expansion movement takes place during the insertion process. The edge region of the cover blank is pressed into the corner between the two flange parts 66, 67 of the container 12 in a controlled manner. This prevents the spreading flange from resting during its spreading movement on the first flange part 66 and thus prevents damage to this flange part and the edge region of the cover blank. Simultaneously with the pulling in of the cover blank 11 into the container 12, the edge region of the cover blank 11 that slides radially inward between the two holding elements 77, 81 is braked by these holding elements. ti ^g e retracting the lid blank into the container 12 without changing its fitting position corresponding to the closed position and a warp-free pressing of the edge region of the lid blank 11 into the corner between the two flange parts 66 and 67 are supported. The braking effect is determined by the clamping pressure between the two holding elements 77, 81 caused by the springs 85 and 93.

In Figure 12, the retraction head 87 is shown in its lower end position. The spreading flange 88 is spread up to its largest diameter and, with its underside parallel to the first flange part 66, presses the radially inner part of the edge region of the lid blank 11 in cooperation with the upper annular surface of the pressure and support frames 72, 73 on this first flange part without warping 66. This prevents the cover blank 11 from moving out of its fitting position as a result of the restoring forces occurring when it is drawn into the container 12. The outer part of the edge region of the cover blank 11 is bent upward essentially parallel to the second flange part 67 of the container 12 and is arranged between the edge slope 188 of the expansion flange 88 and the slope 182 of the low-pressure frame 181. The control cone 113 is just before engagement with the counter cone 114.

With further lowering of the cross member 91 with the central shaft 102 and the container receiving basket 70 stationary, the upper holding element 81 and thus the low-pressure frame 181 and the lower holding element 77 are also moved downward from the parting plane T. Here, the bevel 182 of the low-pressure frame 181, as in 13 and 13 A, the second flange part 67 and folds this together with the associated outer part of the edge region of the cover blank 11 inwards. The folding process has started. At the same time, the control cone 113, which is brought into engagement with the counter cone 114 by the lowering of the cross member 91, pulls the expansion flange 88 inwards as a function of the lowering movement of the cross member 91 and thus also the folding unit 90, 181. Here, the second flange part 67 and the associated outer part of the edge region of the cover blank 11 are guided and held on both sides without warping between the edge bevel 188 and the bevel 182, and likewise the inner part of the edge region of the cover blank 11 continuously released by the retracting expansion flange 88 against the restoring forces in held flat against the first flange 66. The distance between the bevel 188 and the parallel bevel 182 during the folding process can be set differently from the distance shown in FIGS. 13 and 14, depending on the behavior of the materials used for lid cutting and containers. This distance can also be constant or variable during the folding process in accordance with the slope of the inclined surfaces of the control cone 113 and the counter cone 114.

FIGS. 14 and 14A show the cross member 91 in a further lowered position. The counter-pressure frame 90 lies with its counter-pressure surface 190 on the part of the flanged second flange part 67 which cannot be detected by the bevel 182. The expansion flange 88 has a further through corresponding to the vertical position of the cross member 91 and thus the folding unit 90, 181 experienced knife reduction, but keeps the inner part of the edge region of the lid blank in cooperation with the bevel 182 and the counter pressure surface 190 in flat contact with the first flange part 66.

With further lowering of the crossmember 91, the expansion flange 88 is withdrawn completely from the corner, the outermost part of the second flange part 67 being released and the associated part of the edge region of the cover blank 11 being held by the counter pressure surface 190, being completely folded over and pressed onto the first flange part 66 . The folding process has ended, as shown in FIGS. 15 and 15A. The edge region of the cover blank 11 was held free of warping against the restoring forces between the flange parts 66, 67 during the entire folding process and thus prevented the cover blank 11 from shifting out of its fitting position. An additional fixation of the lid blank 11 in its fitting position during the folding process can be achieved by actuating the penetrating pins 86 to pierce the first flange part 66 and the associated part of the edge region of the lid blank 11 with the spreading flange 88 spread and holding the pins 86 in this position during the return movement of the expansion flange 88. The tips of the penetration pins 86 are received in the grooves 288 of the expansion flange 88 - see FIG. 17-.

The folded flange is additionally solidified by a further downward movement of the crossmember 91. Here, the counter-pressure frame 90 presses the support frame 73 against the pressure of the springs 74 until it abuts the pressure flange 71, as a result of which the penetrating pins 86 pierce the folded-over flange (see FIGS. 16 and 16A). The tips of the piercing pins 86 are in the notches 390 in the counter pressure area 190 added. During this upward movement, the pressure frame 72 and the holding elements 77, 81 are held in the position shown in FIG. 15 by being supported on the pressure flange 71. The resulting relative movement between the pressure frame 72 and the support frame 73 causes the region of the flange lying on the upper annular surface of the pressure frame 72 to bend upward. This kinked area is received in the annular recess 172 of the printing frame 72 and thus prevents it from shearing off. This kinking of the flange also serves to additionally strengthen the flange.

The closing process is ended, the closing device 4 is opened again and the cycle already described begins again.

The invention is not limited to the exemplary embodiment just described, but can be varied in many different ways. For example, it is conceivable to push the expansion flange out of its expanded position instead of withdrawing it. Lid blanks made of plastically deformable material instead of elastic material can also be handled in this closing device according to the invention. It is also possible to close other than popcorn containers. These containers do not have to be circular and can also consist of materials other than those described. Furthermore, the cutting knife can also be arranged below the container in the lower tool and can be moved upwards for cutting. The folding unit can also consist of more than two parts.

Claims (24)

1. A method for closing a preferably horizontally arranged, filled container made of preferably plastically deformable material with a lid blank made of preferably elastic material, the container having a horizontally outwardly extending first flange part and a vertically adjoining second flange part and the lid blank one over the have the second flange part protruding edge area, the lid blank drawn into the container, the edge area of the Lid blank or a part of the edge area is pressed into the corner formed by the first and second flange part and the second flange part is folded in the direction of the first flange part until the edge area of the lid blank is clamped between the two flange parts and optionally pressed on, characterized in that the edge area of the lid blank (11) during the folding process in the corner formed by the two flange parts (66, 67) against the restoring force occurring when the lid blank (11) is pulled into the container (12) in flat contact with at least one flange part (66, 67). 2. The method according to claim 1, according to which the edge region of the cover blank or part of the edge region .. is pressed by means of an expansion flange into the corner formed by the first and second flange part, characterized in that the expansion flange (88) in dependence on the progressive Folding process is withdrawn from the corner. 3. The method according to claim 1 or 2, characterized in that the cover blank (11) is braked in its edge region during the drawing into the container (12). 4. Device for closing a preferably horizontally arranged, filled container made of preferably plastically deformable material with a cover blank made of preferably elastic material, the container having a horizontally outwardly extending first flange part and a vertically adjoining second flange part and the Lid blank have an edge area protruding beyond the second flange part, with a lowerable retractable head for pulling the lid blank into the container, a spreading flange that can be expanded and retracted in the horizontal direction with a change in diameter for pushing the edge area of the lid blank or a part of the edge area into that of the first and second Flange part formed corner, and a lowerable folding unit for folding the second flange part in the direction of the first flange part until the edge region of the cover blank is clamped between the two flange parts and optionally for pressing on, characterized in that the expansion flange (88) during the folding process the edge region of the cover blank (11) in the corner formed by both flange parts (66, 67) against the restoring force occurring when the cover blank (11) is pulled into the container (12) in flat contact with at least one flange part (66, 67) according to 5. The device according to claim 4, characterized in that the expansion flange is designed to be retractable from the corner depending on the lowering movement of the folding unit (90, 181). 6. The device according to claim 5, characterized in that the return movement of the expansion flange (88) by the lowering movement of the folding unit (90, 181) by means of a mechanical coupling (89) of the two components (88; 90, 181) is controllable. 7. The device according to claim 6, characterized in that the mechanical coupling (89) with the folding unit (90, 181) connected control has cone (113) and a mating cone (114) connected to the expansion flange (88). 8. The device according to at least one of claims 4 to 7, characterized in that the expansion flange (88) has sliding elements (107) and radially movable segments (105) thereof, the former in recesses (108) each having two adjacent segments (105) are inserted and are under radially outward bias by springs (110) supported on the retraction head (87). 9. The device according to claim 8, characterized in that the radially outer region of each sliding element (107) is designed as a with its legs the segments (105) adjacent, radially outwardly tapering trapezoidal extension (111). 10. The device according to at least one of claims 4 to 9, characterized in that a holding element (77, 81) is provided below and above the edge region of the lid blank (11), one of which by means of a spring device (93) to the other Holding element (77) can be pressed with a predetermined compressive stress, which allows the edge region of the lid blank (11) to slide out between the holding elements (77, 81) when the lid blank (11) is pulled into the container (12). 11. The device according to at least one of claims 4 to 10, characterized in that the folding unit (90, 181) has a radially outer low pressure frame (181) and a radially inner counter pressure frame (90), both of which are displaceable in the vertical direction relative to one another. 12. The apparatus according to claim 11, characterized in that the low-pressure frame (181) is designed as a radially inner portion of the upper holding element (81). 13. The device according to at least one of claims 4 to 12, characterized in that the outer edge of the expansion flange (88) is provided with a radially inwardly and upwardly extending bevel (188). 14. The device according to at least one of claims 11 to 13, characterized in that the underside of the low-pressure frame (181) is formed with a radially inward and upward slope (182). 15. The apparatus according to claim 14, characterized in that the bevel (182) and the bevel (188) are formed with substantially the same slope. 16. The device according to at least one of claims 4 to 15, characterized in that at least the part of the expansion flange (88) which can be pressed into the corner formed by the first and second flange parts (66, 67) has an underside which is parallel to the first flange part (66) . 17. The device according to at least one of claims 4 to 16, characterized in that the first flange part (66) is supported at least during the folding process by resting on a support unit (72, 73). 18. The device according to at least one of claims 4 to 17, characterized in that in the lower tool (5) arranged penetrating pins (86) until penetration through the part of the edge region of the cover blank (11) folded in flat contact on the first flange part (66) or can be moved upwards until penetration through the folded-over and optionally pressed-on second flange part (67). 19. The device according to at least one of claims 4 to 18, characterized in that the expansion movement of the expansion flange (88) in the corner formed by the first and second flange part (66, 67) into the inside contour of the low-pressure frame (181, 182) is controllable . 20. The device according to at least one of claims 4 to 19, characterized in that. that the expansion flange (88) can be lowered until the edge region of the cover blank (11) is held on the first flange part (66) without warping. 21. The device according to at least one of claims 4 to 20, characterized in that the expansion flange (88) on the top of the retracting head (87) is arranged with this lowerable. 22. Device according to one of claims 17 to 21, characterized in that the underside of the counter pressure frame (9C) as a counter pressure surface (190) cooperating with the associated part (73) of the support unit (72, 73) for pressing on the folded-over second flange part (67 ) is trained. 23. The device according to at least one of claims 17 to 22, characterized in that the support unit (72, 73) has a radially inner support frame (73) and a radially outer pressure frame (72), the latter in the vertical direction relative to the support frame (73 ) can be moved upwards. 24. The device according to claim 23, characterized in that the inside of the pressure frame (72) facing the support frame (73) has a circumferential recess (172).

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