Patent Grant
10843838
The present invention relates to an apparatus and to a process for applying labels to boxes, preferably rectangular, cuboid boxes that may be made of cardboard, at high speeds. The invention is especially useful for applying labels that are intended to be simultaneously visible on three sides of a box, such as on the top side and on two longitudinal sides. The boxes may be used to package laminate flooring panels in particular, but may also be used for any other products. The invention is also especially useful for applying labels to lidless boxes containing products and which are intended to be shrink-wrapped subsequently.
Many products today are sold in boxes and especially in rectangular, cuboid cardboard boxes. It is often desirable that the products are visible to a prospective customer, so that open boxes, i.e. boxes without lids are preferred. Such open (lidless) boxes are often preprinted on their sides with various information about the manufacturer, the product and often also about the seller or retailer. Especially with boxes for laminate flooring panels, a flyer describing details of the product, such as instructions, is added into the box, on top of the boxed product before the box with the product and the flyer are then shrink-wrapped subsequently. It is a great disadvantage of such prior art, that the flyer is visible only from the top side of such a box, especially when such boxes are stacked to piles at a retailer. All information which is desired to be seen on the sides of such prior art boxes must either be pre-printed to such a box, or it must be added by the application of two additional side labels. Preprinting information to the sides of boxes can limit the flexible use of such boxes, and thus can add considerably to logistics problems and costs, for example when new products would not match older existing boxes, such that new boxes would have to be pre-printed. This can be avoided by flexibly gluing labels as needed for a specific distributor or for a specific market or product to the sides of such boxes. However additionally gluing labels to the sides of such boxes adds costs as well as quality control issues to such additional steps, for example the correct position and the sufficient adhesion of such additional labels must be ensured and monitored.
U.S. Pat. No. 5,865,918 mentions some of the above problems and offers a solution by providing a machine which is capable of applying labels simultaneously to more than one side of a box. However, the solution of U.S. Pat. No. 5,865,918 demands the preparation of different labels for the different box sides to be labeled, which increases costs and adds unnecessary complexity.
Other patents, such as U.S. Pat. No. 5,421,948 recognize that it can be necessary or desirable to apply a single label to multiple sides of an article. It does this by providing—among other things—a label carrier being mounted for rotation on a carrier mount. When an article is transported along the transportation means, a label is rolled and thus applied to an article onto several sides of an article. The methods disclosed in U.S. Pat. No. 5,421,948 and other documents such as EP 1,177,982 however have the disadvantage that they can only apply labels in the general direction of transport, and more importantly, that the label is necessarily also glued onto the top side of the article or box.
However, if it is intended to apply labels onto an open box which already contains a product or products—such as flooring panels—it is highly undesirable that the label is glued or is attached by an adhesive to the upper side of the box, which consists of the product. This would not only be a waste of glue or adhesive, it mainly would mean that a customer would have to tediously remove the adhesive or glue from the product when the product is unpacked from the box.
It is an object of the present invention to provide an apparatus and a corresponding process for applying a label to a box in such a manner that the label is visible from different viewing directions. Application should be fast and efficient, and it should be possible to apply the label in such a manner that no adhesive is applied to a selected portion of the box.
This object is achieved by an apparatus according to claim 1 and by a process according to claim 13. Further embodiments of the invention are laid down in the dependent claims.
In a first aspect, the present invention provides an apparatus for applying labels to boxes. The apparatus defines a labeling zone for receiving a box having an upper side and having first and second opposing lateral sides. The apparatus comprises a label carrier for releasably carrying a label having a center portion and a first and second end portion, the label carrier being vertically moveable relative to said labeling zone to place the center portion of the label onto the upper side of a box received in the labeling zone. The apparatus further comprises a pressing assembly comprising two presser elements arranged on two mutually opposite lateral sides of the labeling zone, the presser elements being downwardly moveable both relative to the labeling zone and relative to the label carrier so as to fold the first and second end portions of the label onto the first and second lateral sides of the box.
By lowering the label carrier onto the box and subsequently moving the presser elements downward, the apparatus wraps and folds the label around three sides of the box in a single, rapid downward movement.
Advantageously, the label is not only folded, but simultaneously also applied to the lateral sides of the box by the downward movement of the presser elements. To this end, the presser elements may exert lateral pressure to the lateral sides of the box already during their downward movement. In a less preferred alternative, it is also conceivable that the presser elements are moved inward towards the lateral sides of the box to reduce their distance, so as to exert pressure to these lateral sides only after the presser elements have reached a lower end position. In both situations, pressure should be released before the presser elements are moved upward again at the end of the labeling process. For this purpose, the presser elements are preferably moveable along a lateral direction relative to the labeling zone away from the first and second lateral sides of the box to increase a distance between the presser elements. A pressure release mechanism may be provided to this end. This mechanism may, e.g. comprise pneumatic cylinders moving the presser elements to increase a distance between the presser elements.
The label carrier and the pressing assembly are preferably part of a labeling head that is moveable as a whole relative to the labeling zone. In particular, the labeling head may be moveable horizontally.
The apparatus may comprise a label reservoir or magazine for holding a stack of labels. The labeling head is then preferably horizontally moveable between a position above the label reservoir and a position above the labeling zone. The direction of this movement may be the lateral direction, but also other directions are possible, in particular, a horizontal direction perpendicular to the lateral direction is conceivable. For effecting the movement, the label carrier may be mounted on a sleigh assembly. The sleigh assembly may be moved by any suitable actuating device, such as a chain drive driven by an electric motor, or by a pneumatic drive.
Each presser element may define a straight, longitudinal, smooth contact surface configured to slide along one of the first and second lateral sides of a box received in the labeling zone when the presser elements move downward relative to the labeling zone. In this manner, the presser elements can exert lateral pressure to portions of the lateral sides of the box already during their downward movement. The contact surface preferably has the shape of a rounded, horizontally extending edge.
To create the desired pressure onto the lateral sides of the box, the presser elements can be elastically biased inwardly, towards the lateral sides of the labeling zone, by suitable spring elements, or they may be made of a resilient material so as to exert an elastic, inwardly directed pressing force. In particular, the each presser element can be made of a sheet of resilient material, in particular, of a metal like stainless steel or aluminum. The presser elements may then have a lateral distance that is slightly smaller than the distance between the first and second lateral sides of the box.
If the presser elements are made of a sheet of resilient material, the contact surface can be defined by providing a longitudinal notch in the form of a kink in each presser element. The cross-section of the notch and correspondingly the cross-section of the resulting contact surface can be U- or V-shaped.
For enabling easy pick-up and release of the labels, the label carrier may comprise a vacuum suction arrangement for carrying the labels by vacuum action. The vacuum suction arrangement may comprise a plurality of vacuum cups arranged in at least a first and a second row extending along the lateral direction.
To ensure that not only the center portion of the labels is held by the vacuum suction arrangement, but that also the end portions are held, a particular arrangement of the vacuum cups is preferred as follows. Each presser element has a length between a first and a second end thereof along a horizontal longitudinal direction perpendicular to the lateral direction. It is then preferred that the first and second rows of vacuum nozzles have a distance that is larger than said length, and that the first and second rows of vacuum cups extend, along the lateral direction, beyond the ends of the presser elements. In this manner the vacuum cups can also hold the end portions of the label.
The apparatus may further comprise a transportation device for transporting boxes along a transportation direction to the labeling zone, e.g. a conveyor belt or a series of rollers. A stopper device may be provided for stopping movement of a box once it is received in the labeling zone. The stopper device may comprise a structure moveable in a direction transverse to the transportation direction into the transport path of the boxes to prevent further movement of a box.
The apparatus may further comprise an adhesive application device for applying adhesive to the first and second lateral sides of the box. The adhesive application device may comprise at least a first and a second spray nozzle, the first spray nozzle being configured to apply adhesive to a first lateral side of a box received in the labeling zone, and the second spray nozzle being configured to apply adhesive to a second lateral side of a box received in the labeling zone. In alternative embodiments, adhesive may be applied to the labels instead of the lateral sides of the boxes.
The apparatus may further comprise an alignment device for laterally aligning a box received in the labeling zone, the alignment device comprising structures to press onto the first and second lateral sides of said box.
In a second aspect of the present invention, a process of applying a label to a box having an upper side and having first and second opposing lateral sides is provided. The process comprises the following steps, not necessarily in the present order:
To ensure the label is not only folded, but simultaneously also applied to the lateral sides of the box by the downward movement of the presser elements, the presser elements may exert lateral pressure to the lateral sides of the box already during their downward movement. To this end, the presser elements may be elastically deformable or be inwardly spring-biased and have a lateral distance that is slightly smaller than the distance between the first and second lateral sides of the box. In alternative embodiments, pressure may be exerted only after the downward movement of the presser elements has finished.
The process advantageously further comprises:
In advantageous embodiments of the process, no adhesive is applied between the upper side of the box and the center portion of the label.
Preferred embodiments of the invention are described in the following with reference to the drawings, which are for the purpose of illustrating the present preferred embodiments of the invention and not for the purpose of limiting the same. In the drawings,
The application of a label 5 to a box 1 is illustrated in
The vacuum suction arrangement comprises vacuum cups 19, here two rows of five vacuum cups each, one row for the leading end and one row for the trailing end of the label 5. Additional suction vacuum cups can also be employed in the middle of a label 5, but are not shown in the Figures. A vacuum is preferably simultaneously supplied or released to all cups through a piping manifold.
The labeling head assembly 18 is positioned over a label reservoir (label magazine) 15. The labeling head assembly 18 is then lowered onto the topmost label 5 in the label reservoir 15; the vacuum suction arrangement is activated in order to attach the topmost label 5 to the label carrier 30. The labeling head assembly 18 is then lifted and transported horizontally, in the lateral direction, which is essentially perpendicular to the transport direction 11, by the sleigh assembly 16 over the labeling zone where a box 1 has been or will be positioned and aligned. This situation is illustrated in
As already mentioned, a box 1 to which a label 5 shall be added is transported into the labeling zone by a transportation device 10 in the transport direction 11. The transportation device 10 preferably comprises a conveyor belt, but may also consist of a series of rolls or of an air cushion transportation device. When a box 1 nears the labeling zone, a light barrier or another suitable detection device is triggered and the box 1 is decelerated by electronics controlling the transportation device 10. The light barrier or other detection device also triggers preferably two adhesive application devices 12 to apply an adhesive to the two lateral sides 3 and 4 of the box 1. In a preferred embodiment, the adhesive application devices 12 comprise two spray nozzles, one at each of the two lateral sides 3 and 4, which preferably apply hot glue to the two lateral sides 3 and 4 of the box 1.
At the end of the deceleration phase, a preferably pneumatically activated stopper 13 blocks transportation of the box 1 in the transport direction 11. The stopper 13 is preferably positioned such that the label 5 will be applied in the middle of the length of the box 1 for mainly esthetical reasons, but can of course be positioned differently as desired.
After the stopper 13 has been activated, a lateral alignment device 14 is activated. The lateral alignment device 14 preferably consists of four preferably pneumatically activated cylinders and pistons, which precisely position the box 1 laterally, so that the label 5 will be applied at the correct lateral position of the box 1.
When the box 1 is in place, the entire labeling head assembly 18 including the label carrier 30 and the pressing assembly 20 is lowered.
In a first phase of this continuous downward movement, the central portion 6 of the label 5 is placed onto the upper side 2 of the box 1. The downward movement of the label carrier 30 is stopped when it makes contact with the box 1, and the vacuum in the vacuum suction arrangement 19 is broken. At this moment, the label is held in place by the mechanical pressure of the label carrier 30 pressing onto the central portion 6 of the label 5.
In the second phase of this continuous downward movement, the pressing assembly 20, comprising the presser elements 21, 21′, continues its downward movement now with a relative movement against the stopped label carrier 30. By the downward movement of the pressing assembly 20 the presser elements 21 and 21′ continue to slide down the lateral sides 3 and 4 of the box 1. By this sliding motion of the presser elements 21 and 21′, the label 5 is simultaneously wrapped and folded around the box 1 and the first and second ends 7 and 8 of the label 5 are pressed onto the pre-glued surfaces of the box 1. The situation at the end of this movement is illustrated in
The pressing is achieved by pre-adjusting the right distance between the presser elements 21, 21′. The distance between the presser elements 21, 21′ remains constant during the label-fetching and during the downward movement of the label carrier and the pressing assembly 20. The presser elements 21, 21′ should preferably exercise just the right amount of pressure in order to reliably press the first and second label end portions 7 and 8 onto the pre-glued surfaces: Too much pressure might rip the label 5 apart and too little pressure might not ensure sufficient adhesion. This is why the distance of the presser elements 21, 21′ is pre-set by a distance regulation device 22, such as a hand-wheel, which drives a spindle that symmetrically moves the presser elements 21, 21′ perpendicularly to the transport direction 11. The distance regulation device 22 not only serves to adjust the right amount of pressure of the presser elements 21, 21′, is also serves to rapidly adjust the apparatus for batches with different box widths.
Once the label 5 has been folded, wrapped and pressed onto its pre-glued surfaces, a presser release mechanism 23 is activated and increases the horizontal distance between the presser elements 21, 21′ and the box 1, before the labeling head assembly 18 is moved upward again. This horizontal release movement helps to avoid that the label sides 7 and 8 are damaged or moved out of their position when the labeling head assembly 18 is moved upward. Preferably the presser release mechanism 23 is activated and controlled by pneumatic cylinders.
In the present embodiment, the presser elements 21, 21′ are made of a sheet of resilient material such as metal, preferably aluminum or steel. Such a resilient material allows for a spring-like force of the presser elements 21, 21′ to press the sides 7, 8 of the label 5 onto the pre-glued surfaces. Each presser element has, slightly above its lower horizontal edge, a horizontal, U- or V-shaped notch 24 in the form of a kink, which provides a well-defined, narrow, smooth contact surface for pressing the first and second ends 7 and 8 of the label 5 onto the pre-glued surface.
Once the presser release mechanism 23 has been activated, the labeling head assembly 18 with the label carrier and pressing device 20 is moved upward, the pressing device 20 is restored to its initial position relative to the label carrier, the stopper 13 is deactivated, the transportation device 10 is activated and the now labeled box 1 moves out of the apparatus, ready to subsequently be shrink wrapped. The labeling head assembly 18 is then moved back over the label magazine 15 and the cycle is repeated for the next box 1.
While preferred embodiments of the present invention have been described, many modifications are possible without leaving the scope of the present invention. In particular, it is conceivable to move the presser elements downward while they have a larger distance than the width of the box, so as to initially only fold down the end portions of the label, without any pressing action, and only then to exert pressure laterally by reducing the distance between the presser elements. The label carrier can comprise different vacuum suction means than those described above, e.g., vacuum suction means such as those disclosed in U.S. Pat. No. 5,865,918. Entirely different means for holding a label, e.g. means for holding the label by electrostatic forces, may be used instead. Instead of applying adhesive to the lateral sides of the box, adhesive may be applied to the end portions of the label instead. Alternatively, the labels may be pre-coated with adhesive, e.g., with pressure-sensitive adhesive. The boxes may be transported in an entirely different manner than described above, e.g., by a robot arm. Whereas in the above example the lateral direction (as defined by the lateral sides of the box to which the label is applied) is perpendicular to the transport direction, these two directions can be identical. In particular, it is conceivable that the boxes are transported in a direction that corresponds to the direction of movement of one of the presser elements during pressure release. The boxes need not be of cuboid shape as long as they have two opposite side faces. The side faces need not be flat if suitable presser elements are employed.
| Number | Date | Country | Kind |
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| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2013/069879 | 9/24/2013 | WO | 00 |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2014/048934 | 4/3/2014 | WO | A |
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| Number | Date | Country | |
|---|---|---|---|
| 20150246743 A1 | Sep 2015 | US |
