Abstract
The invention includes a method used to place article groups into outer packagings (22) packaging apparatus (10). Article groups are transferred by a handling device (26) from a staging location (46) to a conveyor line (20) and are placed into the outer packagings (22). The conveyor line (20) serves to successively transport outer packagings (22). At least some of the articles (14) of a particular article group are directed and/or guided during a placing procedure by a centering device (32) assigned to the conveyor line (20) and moved along with the outer packagings (22), which are being transported on the conveyor line (20) and which are to be loaded with article groups.
Claims
1. A handling apparatus or packaging apparatus (10) used to package article groups in outer packaging or to place article groups into outer packagings (22), comprising: a staging location (46) for a plurality of articles (14) in at least one article group; at least one conveyor line (20) used to successively transport outer packagings (22); at least one handling device (26) that is movable between the staging location (46) and the at least one conveyor line (20), the handling device (26) capable of simultaneously receiving and seizing at least one article group from the staging location (46), transferring the at least one article group to the conveyor line (20), and placing the at least one article group into one of the outer packagings (22), wherein the handling device (26) comprises at least one controllable gripper head (30) with gripping elements that are controllable: a) individually or individually in groups and b) independently from the gripper head (30); and a centering device (32) assigned to the at least one conveyor line (20) and movable along with the outer packagings (22), the centering device (32) capable of directing or guiding at least one of the plurality of articles (14) of a particular article group into the outer packagings (22).
2. The apparatus of claim 1, wherein each of the outer packagings (22) to be loaded has a separate centering element (34) assigned to it, wherein each centering element (34) is a component of the centering device (32).
3. The apparatus of claim 2, wherein each centering element (34) comprises a centering frame (36), wherein the size of the centering frame (36) corresponds to a base area of the outer packagings (22), and wherein the centering frame (36) can be positioned above or placed on a circumferential edge (38) of each of the outer packagings (22).
4. The apparatus of claim 3, wherein the centering frame (36) has a plurality of directing devices to direct the articles (14) comprise guide panels leading into the outer packaging (22).
5. The apparatus of claim 3, wherein a plurality of centering elements (34) disposed next to each other form the centering device (32).
6. The apparatus of claim 1, wherein the centering device (32) is guided by a movable robot arm (40).
7. The apparatus of claim 1, wherein the centering device (32) is guided by a gantry suspension disposed slidably on a rail (58) along the conveyor line (20).
8. The apparatus of claim 1, wherein the centering device (32) is controllable in its movements based on the detected movements of the outer packagings (22) or based on an evaluation of the sensor signals supplied by at least one optical sensor detecting the outer packagings (22).
9. A method used to package article groups in outer packagings or to place article groups into outer packagings (22), comprising: transferring a plurality of articles (14) in at least one article group by a handling device (22) from a staging location (46) for the article groups to at least one conveyor line (20) used to successively transport outer packagings (22), wherein the handling device (26) comprises at least one controllable gripper head (30) with gripping elements that are controllable: a) individually or individually in groups and b) independently from the gripper head (30), and placing the transferred article groups into the outer packagings (22), wherein the placing step comprises directing or guiding at least one of the articles (14) of a particular article group into the outer packagings (22) by a centering device (32) assigned to the at least one conveyor line (20) and moved along with the outer packagings (22).
10. The method of claim 9, wherein each outer packaging (22) to be loaded by a gripper head (30) of the handling device (26) has a separate centering element (34) assigned to it, which centering element (34) is part of the movable centering device (32).
11. The method of claim 10, further comprising coordinating or synchronizing positioning movements of the at least one gripper head (30) with positioning movements of the at least one centering element (34) of the centering device (32).
12. The method of claim 10, further comprising adjusting the centering elements (34) together or separately in vertical direction in order to be positioned on or above the outer packagings (22).
13. The method of claim 10, further comprising adjusting the centering elements (34) together or separately in transport direction (18) or opposite to the transport direction (18) in order to be positioned on or above the outer packagings (22).
14. The method of claim 10, further comprising adjusting the centering elements (34) together or separately transverse to the transport direction (18) in order to be positioned on or above the outer packagings (22).
15. The method of claim 9, wherein the centering device (32), with at least one centering element (34), is controlled in its movements based on the detected movements of the outer packagings (22) or based on an evaluation of the sensor signals supplied by at least one optical sensor detecting the outer packagings (22).
Description
BRIEF DESCRIPTION OF THE FIGURES
(1) In the following passages, the attached figures further illustrate exemplary embodiments of the invention and their advantages. The size ratios of the individual elements in the figures do not necessarily reflect the real size ratios. It is to be understood that in some instances various aspects of the invention may be shown exaggerated or enlarged in relation to other elements to facilitate an understanding of the invention.
(2) FIG. 1 shows the basic structure of an embodiment variant of a handling apparatus and/or packaging apparatus according to the invention in a schematic top view.
(3) FIG. 2 shows a first variant of a handling apparatus and/or packaging apparatus and its essential components in three schematic views (FIG. 2A, FIG. 2B, and FIG. 2C).
(4) FIG. 3 shows consecutive process phases in a total of five schematic side views (FIGS. 3A to 3E) of a first embodiment variant of a centering device or, as applicable, of a first method variant of using the centering device in the loading of outer packagings with articles.
(5) FIG. 4 shows consecutive process phases in a total of three schematic side views (FIGS. 4A to 4C) of a second embodiment variant of a centering device or, as applicable, of a second method variant of using the centering device in the loading of outer packagings with articles.
(6) FIG. 5 shows consecutive process phases in a total of three schematic side views (FIGS. 5A to 5C) of a third embodiment variant of a centering device or, as applicable, of a third method variant of using the centering device in the loading of outer packagings with articles.
(7) FIG. 6 shows a further variant of the handling apparatus and/or packaging apparatus in a schematic view.
(8) The same or equivalent elements of the invention are designated using identical reference characters. Furthermore and for the sake of clarity, only the reference characters relevant for describing the individual figures are provided. It should be understood that the detailed description and specific examples of the embodiments of the apparatus or of the method according to the invention are intended for purposes of illustration only and are not intended to limit the scope of the invention.
DETAILED DESCRIPTION OF THE INVENTION
(9) The schematic top view of FIG. 1 is intended to primarily illustrate the basic structure of a handling apparatus and/or packaging apparatus 10 according to the invention, which handling apparatus and/or packaging apparatus 10 serves for gathering together article groups and/or packaging article groups in outer packaging, as will be illustrated in the exemplary embodiment described below by the transfer of beverage containers into outer packagings serving as beverage crates. These beverage crates are in each instance suitable and provided to accommodate a defined number of regularly arranged or, as applicable, appropriately grouped beverage containers to be received from the top.
(10) The handling apparatus and/or packaging apparatus 10 only schematically indicated here has a first conveyor line 12 used to transport a multitude of upright articles 14 assigned to it. This first conveyor line 12 can be understood as modification of a staging location for the articles 14 because it is very generally referred to a staging location in the context of the definition of the invention, which can be a stationary delivery location with a multitude of articles 14 staged there or also, for example, a conveyor line 12 according to FIG. 1, with which the articles 14 can be brought into the range of the handling apparatus and/or packaging apparatus 10.
(11) The objects or piece goods generally referred to here as articles 14 are in the present context formed, in particular, by upright beverage containers 16 being transported in a mass flow and/or in rows in a defined conveying direction 18 leading to the apparatus 10. Moreover, a second conveyor line 20 close to the first conveyor line 12 and running parallel thereto in the shown exemplary embodiment is assigned to the apparatus 10, the second conveyor line 20 being used to successively transport outer packagings 22 in the shape of beverage crates 24, which are provided and prepared to accommodate in each instance at least one article group formed from a plurality of articles 14 or beverage containers 16, as applicable.
(12) The outer packagings 22 can generally also be formed by other crates or cases or receptacles of various types, for example, by boxes of simple cardboard or also, for example, by film wrappings, shrink films or other wrappings of planar packaging material. The machine referred to as handling apparatus and/or packaging apparatus 10 in the present context can generally also serve to produce or form bundles such that it is possible to optionally also convey strappings, lengths of film, or the like on the second conveyor line 20 and to supply them to the apparatus 10 for further processing, in order for it to be possible to produce bundles in the apparatus 10 by gathering together grouped articles 14.
(13) As is already discernible from the schematic top view of FIG. 1, the outer packagings 22, which are formed, for example, by the beverage crates 24, are moved to the apparatus 10 on the second conveyor line 20 in the same conveying direction 18 as the articles 14, which are formed, for example, by the beverage containers 16, are moved on the first conveyor line 12. This parallel alignment of the two conveyor lines 12 and 20 with each other is, however, not absolutely necessary, but can rather vary according to requirements in practice such that non-parallel conveying directions 18 of the two conveyor lines 12 and 20 for the articles 14 or beverage containers 16 and for the outer packagings 22 or beverage crates 24, respectively, are optionally also conceivable and handleable.
(14) The handling apparatus and/or packaging apparatus 10 shown in a schematic manner in FIG. 1 furthermore comprises a handling station and/or packaging station 26 that is spatially and functionally assigned likewise to the two conveyor lines 12 and 20. This handling station and/or packaging station 26 serves either to package the articles 14 or beverage containers 16 being conveyed in conveying direction 18 on the first conveyor line 12 by their transfer into the outer packagings 22 or beverage crates 24, which can in each instance accommodate at least one article group or container group formed from a plurality of articles 14 or beverage containers 16. This packaging or transfer of the articles 14 or beverage containers 16 into the outer packagings 22 or into the beverage crates 24 always also comprises a handling process, which is why this section of the apparatus 10 can also be referred to as handling station and/or packaging station 26.
(15) The handling station and/or packaging station 26 can optionally also serve to form bundles by bundling the articles 14 or beverage containers 16 being transported in conveying direction 18 on the first conveyor line 12 by gathering together a plurality of articles 14 or beverage containers 16 into bundles, for example, into strapped bundles, into film bundles, into shrink film bundles, into glued bundles, etc. This gathering together of the articles 14 or beverage containers 16 into bundles likewise always comprises a handling process.
(16) The handling station and/or packaging station 26 has a manipulator 28 or a plurality of manipulators 28, which can be equipped, for example, with at least one gripper head 30 or optionally also with a plurality of parallelly controllable gripper heads 30, which are provided to simultaneously receive and seize from the first conveyor line 12 in each instance one article group with each present gripper head 30, and to transfer it to the second conveyor line 20 within the apparatus 10, and to place the article group, that is, the group of articles 14 or beverage containers 16, into one of the outer packagings 22 or, as applicable, beverage crates 24 being conveyed there. The manipulator 28 formed by at least one gripper head 30 or by a plurality of gripper heads 30 can likewise be provided to seize the articles 14 or beverage containers 16 from the first conveyor line 12 and to supply them for further bundle formation by gathering articles 14 or containers 16 groupwise together in bundles.
(17) Even if a first conveyor line 12 is generally referred to in the present context, it is also possible that instead of such a conveyor line 12, which can be designed as horizontal conveying device, for example, a staging location for the articles 14 or beverage containers 16 designed in nearly any manner is available and used, from which staging location the articles 14 or beverage containers 16 can be seized by the manipulator 28 and can be supplied for bundle formation or placed or inserted into the staged outer packagings 22.
(18) The handling station and/or packaging station 26 only schematically indicated in the FIG. 1 with the manipulator 28 or, as applicable, with the at least one gripper head 30 or with a plurality of approximately synchronously movable and controllable gripper heads 30 can be formed, for example, by a gantry robot, a multi-axis robot, a parallel kinematic robot, or another suitable handling device, of which the manipulator 28, gripper head 30 or gripper heads 30 can be moved back and forth between the staging location not shown here, or between the two conveyor lines 12 and 20, to transfer a plurality of articles 14 or beverage containers 16 simultaneously to the outer packagings 22 or beverage crates 24 staged or optionally being moved in parallel conveying direction 18, and which manipulator 28, gripper head 30 or gripper heads 30 can at the same time in this process be lifted and lowered, as required.
(19) The controllable gripper head 30 or the plurality of gripper heads 30 located at the manipulator 28 being preferably used in the handling station and/or packaging station 26 at a movable tool head (not illustrated in detail here) serves or serve for simultaneously receiving a plurality of articles 14, beverage containers 16, or bottles. For this purpose, the gripper head 30 is or the gripper heads 30 are equipped, for example, with controllable suction grippers or with controllable gripper bells or the like, with which the articles 14, beverage containers 16 or bottles can be seized at their neck section or top section and can be securely held for the transfer and the approximately perpendicular insertion into the outer packagings 22 or beverage crates 24, which are open at the top, and can also be reliably released in order to be deposited in the outer packaging 22 particularly provided for this purpose or into the beverage crate 24 particularly provided for this purpose, as applicable.
(20) If the handling station and/or packaging station 26 is equipped with only one gripper head 30 as manipulator 28 in a simplest equipment variant, it is normally possible to load an outer packaging 22 or, as applicable, a beverage crate 24 with a defined number of articles 14, beverage containers 16, or bottles, simultaneously, for example, with a number of articles arranged in a rectangular group of a total of twenty or twenty-four or more articles, beverage containers 16, or bottles. Preferably, however, the handling station and/or packaging station 26 can also be equipped with two or three gripper heads 30 of the same type, which allow to seize a correspondingly larger number of articles 14 or beverage containers 16 simultaneously and to place the articles 14 or beverage containers 16 into two or three consecutively conveyed outer packagings 22 or beverage crates 24, for example. By the in this way created possibility to load a plurality of outer packagings 22 or beverage crates 24 simultaneously with particular groups of articles 14 or beverage containers 16, a correspondingly high throughput for loading the articles 14 or, as applicable, the containers 16 into the outer packagings 22 is possible.
(21) The schematic illustration of FIG. 1 furthermore shows the second conveyor line 20 leading out of the handling apparatus and/or packaging apparatus 10 in conveying direction 18 to the right or, as applicable, continuing in conveying direction 18, where the conveying direction 18 of the conveyor line 20 remains unchanged for the removal conveyance of the bundles formed in the station 26 or for the removal conveyance of the outer packagings 22 loaded with articles 14 or of the beverage crates 24 loaded with beverage containers 16 for their further handling, such as palletizing. Normally, the section of the second conveyor line 20 leading out of the apparatus 10 to the right can form the continuation of the conveyor line 20 because the beverage crates 24 do not have to be taken down or removed from the second conveyor line 20 while they are being loaded with beverage containers 16.
(22) The reference character 32 in the FIG. 1 refers to a centering device 32 assigned to the second conveyor line 20 and movable along with the outer packagings 22, which are being transported there and which are in each instance to be loaded with article groups, the centering device 32 being used to direct and guide at least some of the articles 14 of a particular article group to be placed into the outer packagings 22 by the handling device 26 or, as applicable, by the manipulator 28 during a placing procedure. In this context, each outer packaging 22 to be loaded by a gripper head 30 of the handling device or of the manipulator 28 can in each instance expediently have a separate centering element 34 assigned to it, which centering element 34 is a component of the movable centering device 32.
(23) The schematic front view of the FIG. 2A and the schematic side view of the FIG. 2B illustrate the arrangement and mode of operation of the centering device 32, which forms an important component of the handling apparatus and/or packaging apparatus, and in which the centering elements 34 assigned to the individual outer packagings 22 or beverage crates 24 are in each instance formed by centering frames 36 in the exemplary embodiment shown here, which centering frames 36, at least during the phase of the outer packagings 22 or beverage crates 24 being loaded with articles 14 or beverage containers 16, are positioned above the particular beverage crate 24 and preferably placed on the top circumferential edge 38 of the particular beverage crate 24 (cf. FIG. 2A) or, where appropriate, are lowered by a short distance into it (cf. FIG. 2B).
(24) As is indicated in FIG. 2A, the centering device 32 can be suspended from a gantry robot 40 or from a robot bridge, for example, and can in this manner be moved in different directions in order to ensure a precise positioning above the particular outer packagings 22 or beverage crates 24, which can be moved or can optionally be stopped on the second conveyor line 20 designed as horizontal conveying device 42 or as transport belt during the placing procedure, in order to be again conveyed further in transport direction 18 after having been loaded with the articles 14 or beverage containers 16.
(25) An optional, continuous, individual centering of the individual centering frames 36 defines the position for the normally likewise robot-controlled gripper heads 30 of the handling device or, as applicable, of the manipulator 28. The typically robot-controlled gripper heads 30 can preferably coordinate or synchronize themselves with the continuous movements and positions of the centering elements or, as applicable, of the individual centering frames, whereby a precise and error-free placing movement can be ensured when lowering the articles 14 or beverage containers 16 to the particular target positions in the outer packagings 22 or beverage crates 24.
(26) The FIGS. 2A and 2B furthermore show the first conveyor line 12 formed as container infeed 44, the first conveyor line 12 likewise being designed as horizontal conveying device. The beverage containers 16 or articles 14 are transported there in rows in conveying direction 18 to the staging location 46, where they are taken over groupwise by the gripper heads 30 of the manipulator 28 and conveyed in a transfer movement to the second conveyor line 20 with the outer packagings 22 or beverage crates 24 staged there. The beverage containers 16 being conveyed unspaced one after another in a plurality of rows to the staging location 46 can be row-wise separated from each other by so-called lane separators 48, for example. Optionally however, the containers 16 can also be conveyed in a mass flow as long as it is ensured that the gripper heads 30 can identify and seize the in each instance correct number of containers 16 in the mass flow.
(27) The schematic side views of FIG. 2B and FIG. 2C furthermore show the interaction of the centering frames 36 with the gripper heads 30, which have each seized a group of beverage containers 16 in order to lower and place them into the outer packagings 22 or beverage crates 24 that have been staged or that are being conveyed in transport direction 18.
(28) As can be discerned from the schematic side view FIG. 2B, the centering frames 36 of the centering device 32 form not only an insertion aid for the precise positioning of the beverage containers 16 when lowering the particular gripper heads 30, but rather can the centering elements 32 also serve as effective centering aid in relation to the beverage crates 24 by being positioned and lowered inside the circumferential edge 38 of the particular crate 24. It is thereby possible to not only compensate for position deviations of the particular centered crate 24, but rather can the crate 24 in question also be prevented from assuming a deviating position in relation to the gripper head 30 or from evading the gripper head 30 in the lowering phase of the gripper head 30.
(29) The schematic side view of the FIG. 2C illustrates the temporally consecutive phases of lowering the centering device 30 to above the outer packagings 22 formed by the beverage crates 24 in order to prepare and position these for being loaded with articles 14 or beverage containers 16. The top image I thus shows the approach of a plurality of centering frames 36 to outer packagings 22 in each instance being moved below thereto in conveying direction 18 and formed by beverage crates 24. In this context, the centering frames 36 are each positioned above the beverage crates 24 such that they can be subsequently lowered.
(30) This phase of the centering procedure is shown below in the image II of FIG. 2C. The centering frames 36 are in this context located inside the circumferential edge 38 of the particular beverage crate 24 or are lowered into the crate 24, as applicable, whereby relative movements between centering frame 36 and crate 24 are largely excluded. The centering frames 36 in this context move in conveying direction 18 at the same conveying speed as the crates 24, that is, synchronously with the beverage crates 24. The horizontal directional arrows above the particular centering frames 36 are intended to illustrate the horizontal alignment 50 thereof in relation to the crate 24 assigned to each frame 36.
(31) The bottom image III of the FIG. 2C illustrates the precisely aligned centering frames 36, which now not only enable the gripper heads 30 to be precisely positioned, as can be enabled optionally by an optical position detection and/or by a matching of the position data of the centering frames 36 and of the gripper heads 30. In addition, the centering frames 36 can by insertion aids, such as funnel-shaped guide plates, or guide panels, or the like that are not discernible here, provide for the precise positioning of the beverage containers (not shown here; cf., however, FIG. 2B) in the positions intended for them in the beverage crate 24, which can be, for example, separate target positions inside a partition in the beverage crate 24.
(32) The altogether five schematic side views of FIGS. 3A to 3E illustrate consecutive process phases of a first embodiment variant of the centering device 32 or, as applicable, of a first method variant of using the centering device 32 in the loading of outer packagings 22 or beverage crates 24 with articles 14 or beverage containers 16. In this method variant, the control of the centering device 32 is carried out in such a manner that the centering elements 34 formed by the centering frames 36 can each be adjusted separately in horizontal direction, as is illustrated in FIG. 3A by the directional arrows identifying the particular horizontal alignment 50 of the centering elements 34 or centering frames 36 parallel to the conveying direction 18 of the outer packagings 22 or crates 24. The conveying direction 18 in these process phases in each instance points from right to left according to FIG. 3A, FIG. 3B, FIG. 3C, FIG. 3D, and FIG. 3E.
(33) The centering device 32 in this variant is adjusted centrally in height under simultaneous adjustment of the centering elements 34 or centering frames 36, as is illustrated by the vertical double arrow in FIG. 3B indicating a vertical alignment 52. The entire centering device 32 can in this context be lifted and lowered by the gantry robot 40 shown in FIG. 2A.
(34) The FIG. 3A illustrates the joint positioning of the centering frames 36 above the beverage crates 24 to be assigned to each, with the centering frames 36 being in each instance precisely positioned above the crates 24 by horizontal alignment 50 and being together moved along with the crates 24 in conveying direction 18 by a correspondingly synchronized movement. The FIG. 3B shows the centering frames 36 positioned in the crates 24 by the centering device 32 being correspondingly moved downward, in which context the centering device 32 together with the centering frames 36 are in turn moved further in conveying direction 18 along with the crates 24.
(35) The FIG. 3C illustrates the loading procedure, in which the beverage containers 16 are placed into the beverage crates 24 as groups, in which context their collision-free lowering and their precise positioning inside the particular crate 24 is supported by the centering frames 36 in the above repeatedly described manner. The FIG. 3D shows a phase of the process, in which the beverage crates 24 completely loaded with beverage containers 16 are moved further in conveying direction 18, with the centering frames 36 still located in a lowered contact position on the crates 24. The FIG. 3E, finally, shows a concluding process phase, in which the centering device 32 is in a lifted position and the centering frames 36 are lifted out of the completely loaded crates 24 such that they can be placed on the following beverage crates 24 as soon as these, by being conveyed in conveying direction 18, have reached the position to be loaded with the beverage containers 16 provided for this purpose.
(36) The altogether three schematic side views of FIGS. 4A to 4C illustrate consecutive process phases of a second embodiment variant of the centering device 32 or, as applicable, of a second method variant of using the centering device 32 in the loading of outer packagings 22 or beverage crates 24 with articles 14 or beverage containers 16.
(37) In this second method variant, the control of the centering device 32 is again carried out in such a manner that the centering elements 34 formed by the centering frames 36 can each be adjusted separately in horizontal direction, as is illustrated in FIG. 4A by the directional arrows identifying the particular horizontal alignment 50 of the centering elements 34 or centering frames 36 parallel to the conveying direction 18 of the outer packagings 22 or crates 24. Again, the conveying direction 18 in these process phases in each instance points from right to left according to FIG. 4A, FIG. 4B, FIG. 4C.
(38) Although the centering device 32 in this second method variant is again centrally adjusted in height, the centering elements 34 or centering frames 36 suspended from the gantry robot 40 can in this instance each be adjusted in height in relation to the centering device 32 separately and independently of one another, as is illustrated by the three vertical double arrows in FIG. 4B each indicating a vertical alignment 52 of the centering frames 36.
(39) While in this context the entire centering device 32 can also be lifted and lowered by the gantry robot 40 shown in FIG. 2A, the separately height-adjustable centering frames 36 enable an improvement of the synchronization of the crate movements with the frame movements, because the individual centering frames 36 are pre-positioned and can be lowered to above the appropriate beverage crate 24 immediately after reaching their particular target position, in which context, moreover, the loading procedure by positioning and lowering of the appropriate gripper head (not illustrated here) can already start without already having to load the adjacent crates 24. This option, however, requires a correspondingly designed suspension of the manipulator 28, which has to enable an independent control of the gripper heads 30.
(40) The FIG. 4A illustrates the joint positioning of the centering frames 36 above the beverage crates 24 to be assigned to each, with the centering frames 36 being in each instance precisely positioned above the crates 24 by horizontal alignment 50 and being together moved along with the crates 24 in conveying direction 18 by a correspondingly synchronized movement. The FIG. 4B shows the centering frames 36 of the centering device 32 being successively moved downward such that the left centering frame 36 is already positioned in the beverage crate 24 while the middle centering frame 36 is still being lowered and the right centering frame 36 is still located spaced apart above the crate 24 assigned to it. In these process phases, the centering device 32 together with the centering frames 36 are again moved further in conveying direction 18 with the crates 24.
(41) The actual loading procedure is not shown in the FIGS. 4A to 4C; for this purpose, it is referred to FIG. 3C, for example. The FIG. 4C shows a phase of the process in which the beverage crates 24 completely loaded with beverage containers 16 are moved further in conveying direction 18, with the centering frames 36 still located in a lowered contact position on the crates 24. The final process phase, in which the centering device 32 is in a lifted position and the centering frames 36 are lifted out of the completely loaded crates 24, is in turn not shown (cf. FIG. 3E for this purpose).
(42) The altogether three schematic side views of FIGS. 5A to 5C illustrate consecutive process phases of a third embodiment variant of the centering device 32 or, as applicable, of a third method variant of using the centering device 32 in the loading of outer packagings 22 or beverage crates 24 with articles 14 or beverage containers 16.
(43) In this third method variant, the control of the centering device 32 is carried out as in the first variant according to FIG. 3A to FIG. 3E in such a manner that the centering elements 34 formed by the centering frames 36 can each be adjusted separately in horizontal direction, in which context the conveying direction 18 in these process phases in each instance again points from right to left according to FIG. 5A, FIG. 5B, and FIG. 5C.
(44) The centering device 32 in this third method variant is adjusted centrally in height and can be lifted and lowered by the gantry robot 40 shown in FIG. 2A. However, the in horizontal direction separately height-adjustable centering frames 36 enable the beverage crates 24 to be spaced apart in a in a specified manner as soon as the centering frames 36 are positioned and lowered there, as is clearly demonstrated in the FIG. 5C.
(45) The FIG. 5A illustrates the joint approaching and positioning of the centering frames 36 above the beverage crates 24 to be assigned to each, with the centering frames 36 being in each instance precisely positioned above the unspaced, consecutively conveyed crates 24 by horizontal alignment 50 and being together moved along with the crates 24 in conveying direction 18 by a correspondingly synchronized movement. The FIG. 5B shows the centering frames 36 that have been lowered into the crates 24. In these process phases, the centering device 32 together with the centering frames 36 are again moved further in conveying direction 18 with the crates 24.
(46) The FIG. 5C illustrates a phase in which the adjacent crates 24, into which the centering frames 36 have in each instance been lowered, are spaced apart from one another in a specified manner, which can be advantageous, in particular, for the following positioning of the gripper heads of the manipulator, if the gripper heads require more distance from one another due to their lateral extension than is possible with crates 24 that are pushed together according to FIG. 5B in an immediately adjacent manner. The beverage crates 24 to be loaded with beverage containers can in this instance have definable spacings 54 from each other, and these spacings 54 can be variable by the adjustable horizontal alignments 50 of the centering frames 36.
(47) The actual loading procedure is not shown in the FIGS. 5A to 5C; for this purpose, it is referred to FIG. 3C, for example. The FIG. 5C shows a phase of the process, in which the beverage crates 24 still to be loaded or already completely loaded with beverage containers 16 are moved further in conveying direction 18 with adjusted spacings 54 from one another, with the centering frames 36 in each instance being located in a lowered contact position on the crates 24. The final process phase, in which the centering device 32 is in a lifted position and the centering frames 36 are lifted out of the completely loaded crates 24, is in turn not shown (cf. FIG. 3E for this purpose).
(48) The schematic front view of FIG. 6 illustrates an alternative embodiment variant to the variant shown in FIG. 2A of the suspension and control for the centering device 32, which is not suspended from a gantry robot 40 here, but rather comprises a simple rack 56, which can be slidable in a bottom rail 58 parallel to a horizontal conveying device 42 of the second conveyor line 20. In this manner, it is possible to move the rack 56, together with the centering frames 36 suspended therefrom and vertically movable at the rack 56, in conveying direction 18 or opposite to the conveying direction 18 along the conveyor line 20. This embodiment variant can be constructed in a simpler manner than the variant shown in FIG. 2A, because the gantry robot 40 for the movements of the centering device 32 is dispensed with. The remaining structure of the handling apparatus and/or packaging apparatus 10, however, does not differ from the variant shown in FIG. 2A.
(49) A further movement component of the centering frame 36 transverse to the conveying direction 18 can additionally be possible in all shown variants in order to be able to compensate for skew positions and lateral offset of the outer packagings 22 or beverage crates 24. In this manner it is possible to load without problems outer packagings 22 or crates 24, for example, even if they are not aligned precisely in conveying direction 18, by correspondingly laterally shifted centering elements 34 or centering frames 36, in which instance it can be additionally provided that the lowered centering frames 36 can bring the crates 24 precisely in alignment with each other by being shifted in horizontal direction transverse to the conveying direction 18 until all crates 24 or outer packagings 22 in contact with the centering device 32 are in alignment with each other.
(50) The invention has been described with reference to a preferred embodiment. Those skilled in the art will appreciate that numerous changes and modifications can be made to the preferred embodiments of the invention and that such changes and modifications can be made without departing from the spirit of the invention. It is therefore intended that the appended claims cover all such equivalent variations as fall within the true spirit and scope of the invention.
LIST OF REFERENCE CHARACTERS
(51) 10 Handling apparatus, packaging apparatus, handling apparatus and/or packaging apparatus 12 First conveyor line 14 Article 16 Beverage container 18 Conveying direction, transport direction 20 Second conveyor line 22 Outer packaging 24 Beverage crate, beverage case, case 26 Handling station, handling device, handling station and/or packaging station 28 Manipulator 30 Gripper head 32 Centering device 34 Centering element 36 Centering frame 38 Edge, circumferential edge 40 Robot, gantry robot 42 Conveying device, horizontal conveying device 44 Infeed, container infeed 46 Staging location 48 Lane separator 50 Horizontal alignment (centering frame) 52 Vertical alignment (centering frame, centering device) 54 Spacing 56 Rack 58 Bottom rail
