Field of Invention

[0001] The present invention relates generally to a palletizing apparatus. More particularly, the present invention relates to a palletizing apparatus that limits the misalignment between the layers stacked onto the pallet

Background of the Invention

[0002] Over the last few decades, there has been considerable efforts for improvising the shipment of products in various industries. Further, in the large scale production of wrapped or unwrapped products, such as food items, tiles, compact disks (CDS) or other relatively flat products or packages, it is often desirable to arrange groups of individual items for the purpose of shipment, or the like. Such rearrangement is generally done by placing items, in the form of stacks such as for example, in layers on a pallet.

[0003] Recently, the pallets have extensively been utilized in processing plants for handling various types of products, bundled together or disposed in cases, from one place to another. Further, there has been a rise in use of pallet for transportation of objects from one location to another, for example, in the transportation of goods from a manufacturer to a distributor.

[0004] Conventionally, the palletization was performed using articulated robots that used to grab a layer to be stacked and then dropping it onto the pallets. One such articulated robot include a manipulator and an arm. In operation, as the manipulator lifts the layer, the arm stretches and bends itself so as to locate the manipulator in a stacking position, whereupon the layer is released by the manipulator. This process is repeated to stack a plurality of loads. Such robots, while being slow, were not able to align the stacks properly and therefore are not preferred for stacking of the pallets. [0005] Other similar mechanisms included frames having one or movable portions on which is disposed a head having a number of grippers attached to the head. The grippers operate to grab each package and lift and rotate the package into the desired position. Once in that position, the head is moved over the pallet and subsequently lowered the package to a desired position on the pallet. [0006] Yet other mechanisms currently utilized include use of long fingers for gripping the layers to be loaded which then slides on machines, such as for example, a conveyor belt, towards the loading stations where elevator means are utilized for loading the layers on to the pallet. Further in some other examples, the gripper included two sets of fingers, each covering only half the length of the layer. The gripper also include two or more opposing centering plates for aligning the layer during the movement. These grippers are then mounted on wagon which moved towards the loading station where they are demounted gently thereby, maintaining the alignment of the layers while loading onto the pallet.

[0007] Such mechanism while being better than previous mechanism had several shortcomings. One such shortcoming included the process being slow as the wagon, or the like, after loading off the layer, moves back empty which slows down the process. Further, there was the issue of misalignment of the load when stacked onto the pallets.

[0008] In some examples, to overcome the problem of misalignment of the pallets, the clamping plates were utilized. These plates somewhat improved the alignment but were still not preferred because of the fact that the centering plates only centered the actual layer and some part of the layer underneath it. However, the bottom layers were not checked for alignment thereby, causing the formation of voids, gaps, or the like, and therefore and not aligning the pallets on the outside bottom.

[0009] Accordingly, the currently available palletizing solutions faces considerably significant problem of not aligning the layers properly on to the pallet which in turn, may cause damaged during subsequent transport, for example by adjacent pallets. Further, such a misalignment may prevent the pallet from being loaded onto various dispensing apparatus. When this occurs, the stack of pallets must be manually restacked so that the skewing of adjacent pallets is not so severe and so the restacked pallets may be loaded into the pallet dispensing apparatus.

[0010] In addition to the above problem, there is a serious problem of maintaining the stacking function at a speed consistent with that of the machine which produces the layers to be stacked. Additionally, While the above mentioned mechanisms are capable of moving packages into desired positions to form pallets of the items for shipment, the mechanisms require many separate structural items separate from the actual items or package conveyance line, which greatly increases the complexity and cost of the devices.

[0011] Therefore, there exists a need in art for an improved palletizing apparatus which while providing a more efficient and quicker operation and at a lower cost is able to maintain the alignment of the layers loaded onto the pallet in a convenient way.

Summary of the Invention

[0012] In one aspect of the present disclosure, a palletizing apparatus for stacking layers received from a receiving station onto a pallet at a palletization station is disclosed. The palletizing apparatus includes a primary stacking means. The primary stacking means includes a first vertical elevating means extending from the receiving station towards the palletizing station. The primary stacking means further includes a conveyor means configured onto the first vertical elevating means extending between the receiving station towards the palletizing station. The Primary stacking means further includes a first finger set movably positioned onto the conveyor means. The palletizing apparatus further includes a vertically movable centering frame positioned above the palletizing station. The centering frame includes one or more set of centering plates wherein each set of the centering plate includes two centering plates positioned on opposite sides of the frame and extending downwardly towards the pallet of the palletizing station. In operation, the layer to be loaded onto the pallet is received onto the conveyor means of the primary stacking means which is then forwarded onto the pallet of the palletization station. Thereafter, the centering frame moves downwardly to align the layers loaded onto the pallet from the outside thereof.

[0013] Preferably, the palletizing apparatus further includes an auxiliary palletizing means consisting of a second vertical elevating means extending away from the palletizing station. The second vertical elevating means includes a horizontal guiding means meeting the conveyor means of the first vertical elevating means at the palletizing station. The second vertical elevating means further includes a second finger set positioned onto the horizontal guiding means and movable towards / away / onto the conveyor means of the first vertical elevating means. [0014] Optionally, the receiving station is a layer formation station of a corrugated sheet converter.

[0015] Generally, the conveyor means includes a roller conveyor having a receiving portion separated from a discharge portion through a narrow conveying belt wherein the layer to be stacked is received at the receiving portion of the conveyor which is then forwarded to the conveying belt.

[0016] Potentially, the first finger set is connected to a first driving unit for enabling a horizontal sliding movement of the first finger set onto the conveyor means.

[0017] Generally, the first finger set extends to a length more than half of a maximum length of the layer to be stacked. [0018] Alternatively, the first finger set extends to a length more than the maximum length of the layer to be stacked.

[0019] Further potentially, the second finger set is connected to a second driving unit for enabling a horizontal sliding movement of the second finger set towards /away / onto the conveyor means.

[0020] Optionally, the second finger set extends to a length such that a combined length of the first finger set and the second finger set is more than the maximum length of the layer to be stacked.

[0021] Yet further potentially, the first driving unit and the second driving unit is selected from one of but not limited to an electric motor, hydraulic driving assemblies, or the like.

[0022] Optionally, the palletizing apparatus includes a control unit for remotely controlling the operations / stacking / alignment of the layers to be stacked.

[0023] In another aspect of the present disclosure, a method for stacking layers onto a pallet using a palletization apparatus having a primary stacking means and a vertical centering frame is disclosed. The method includes receiving a layer to be stacked on to the conveyor means of the first vertical elevating means. The layer received is at least partially supported onto the first finger. The method further includes adjusting the height of the first vertical elevating such that the height of the first finger set corresponds to a loading height at the palletization station. The method further includes sliding the first finger set towards the palletizing stations so as to place the layer onto the top of the pallet. The method further includes moving the centering frame vertically down onto the pallet such that the layer placed on the top of the pallet is centrally aligned by the opposite centering plates thereof. Thereafter, the first finger set slides back towards the receiving station and the vertical centering frame moves back in an upwards direction to its original position.

[0024] Optionally, the method further includes a step of elevating the first finger set thereby freeing the layer from the conveyor means before the step of sliding the layer towards the palletizing station.

[0025] Preferably, the first finger set completely supports the layer to be stacked.

[0026] moving the centering frame vertically down onto the pallet such that the layer placed on the top of the pallet is centrally aligned by the opposite centering plates thereof;

[0027] In yet another aspect of the present disclosure, a method for stacking layers onto a pallet using a palletization apparatus having a primary stacking means, an auxiliary stacking means and a vertical centering frame. The method includes receiving a layer to be stacked on to the conveyor means of the first vertical elevating means. The layer received is at least partially supported onto the first finger set. The method further includes adjusting the height of the first vertical elevating such that the height of the first finger set corresponds to a height corresponding to the loading height at the palletization station. Further, the method includes adjusting the height of the second vertical elevating means corresponding to the loading height at the palletization station followed by the step of moving the second finger set to meet the first finger set and beneath the layer to be stacked such that the first finger set and the second finger set together supports the layer. Thereafter method further includes sliding the first finger set and the second finger set towards the palletizing stations so as to place the layer onto the top of the pallet. Thereafter, the first finger set slides back towards the receiving station, the second finger set slides out away from the palletizing station, and the vertical centering frame moves back in an upwards direction to its original position.

[0028] Optionally, the method further includes a step of pivotally elevating the first finger set and the second finger set such that the layer is supported thereon and is away from the conveyor means.

[0029] The details of one or more implementations are set forth in the accompanying drawings and the description below. Other aspects, features and advantages of the subject matter disclosed herein will be apparent from the description, the drawings, and the claims.

Brief Description of drawings

[0030] FIG. 1 is a block diagram illustrating a palletizing apparatus, in accordance with one preferred embodiment of the present disclosure;

[0031] FIG. 2 is a block diagram illustrating a palletizing apparatus, in accordance with another embodiment of the present disclosure; [0032] FIG. 3 illustrates a schematic view of the palletizing apparatus, in accordance with one preferred embodiment of the present disclosure;

[0033] FIG. 4a illustrates a schematic view of the palletizing apparatus, in accordance with another embodiment of the present disclosure; [0034] FIG. 4b illustrates a schematic view of the palletizing apparatus, in accordance with another embodiment of the present disclosure;

[0035] FIG. 5 illustrates a schematic view of the loaded pallet using the palletizing apparatus of the present disclosure;

[0036] FIG. 6 depicts a flowchart illustrating the steps for stacking the layers using the palletizing apparatus, in accordance with an embodiment of the present disclosure; and

[0037] FIG. 7 depicts a flowchart illustrating the steps for stacking the layers using the palletizing apparatus, in accordance with another embodiment of the present disclosure; Detailed Description of the Preferred Embodiments

[0038] As required, a schematic, exemplary-only embodiment of the present application is disclosed herein; however, it is to be understood that the disclosed embodiment is merely exemplary of the present disclosure, which may be embodied in various and / or alternative forms. Specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present disclosure in virtually any appropriately detailed structure.

[0039] Aspects, advantages and/or other features of the exemplary embodiment of the disclosure will become apparent in view of the following detailed description, which discloses various non-limiting embodiments of the invention. In describing exemplary embodiments, specific terminology is employed for the sake of clarity. However, the embodiments are not intended to be limited to this specific terminology. It is to be understood that each specific portion includes all technical equivalents that operate in a similar manner to accomplish a similar purpose.

[0040] Exemplary embodiments may be adapted for many different purposes and are not intended to be limited to the specific exemplary purposes set forth herein. Those skilled in the art would be able to adapt the exemplary-only embodiment of the present disclosure, depending for example, on the intended use of adapted embodiment. Moreover, examples and limitations related therewith brought herein below are intended to be illustrative and not exclusive. Other limitations of the related art will become apparent to those of skill in the art upon a reading of the following specification and a study of the related figures.

[0041] The present application discloses a palletizing apparatus for stacking plurality of layers on a base pallet. The layers to be stacked may include any ready for shipment packages / items / object such as RCB boxes, trays, piles bundles, or the like of goods / materials, such as a dairy products, breweries, or any other kind of end user product. The palletizing apparatus while being fast and efficient, limits the possibility of a misalignment between the stacked layers. Such an alignment between the stacked layers avoids possibility of any damage to stacked object during transportation / dispensing / shipment etc. Further, the palletizing apparatus being simple and easy to operate enables the possibility of using the apparatus in existing production plants / converters, or the like. In a preferred embodiment, the apparatus includes a primary stacking means for stacking the layers onto the base pallet and a vertical centering frame for aligning the layers on pallet each time a new layer is added thereon. Such an alignment from a top direction after addition of each layer onto the pallet maintains the alignment starting from the bottom of the pallet and therefore, avoids formation of gaps, voids, etc at the bottom of the pallet due to misalignment. It is to be understood that unless otherwise indicated this invention need not be limited to applications in corrugated boxes / packages. As one of ordinary skill in the art would appreciate, variations of the invention may be applied to other applications such as in industries automobiles, dairy plants, health industry, brewing industry or the like and wherever the stacking of products, generally flat, is required. Moreover, it should be understood that embodiments of the present invention may be applied in combination with existing conveyors / elevators / various stacking tools, and / or machines, to achieve any desired application. It must also be noted that, as used in this specification and the appended claims, the singular forms "a," "an" and "the" include plural referents unless the context clearly dictates otherwise. Thus, for example, the term "a layer" is intended to mean a single layer or a pile of layers, "a connecting mechanism" is intended to mean one or more connecting mechanisms, or a combination thereof. [0042] In description of the FIGS. 1 -2 that follow, elements common to the schematic system will have the same number designation unless otherwise noted. In a first embodiment, as illustrated in FIG. 1 , the present disclosure provides a palletizing apparatus 100 for stacking layers 12 received from a receiving station 10, onto a base pallet 22 at the palletizing station 20. The apparatus 100 includes a primary stacking means 110 for stacking the layers 12 onto the pallet 22, and a vertical centering frame 120 for aligning the layers 12 when stacked onto the pallet 22. The primary stacking means 110 includes a first vertical elevating means 112. The primary stacking means 110 further includes a conveyor means 114 extending between and from the receiving station 10 towards the palletizing station 20. The conveyor means 112 is adapted to receive the layer 12 from the receiving station 10. The primary stacking means 110 furthermore includes a first finger set 116 movably positioned onto the conveyor means 114.

[0043] The vertically movable frame 120 is a frame having four sides, positioned above the pallet 22 of the palletizing station 20 . The frame 120 includes one or more set of centering plates, each set including two centering plates 124 a, and 124 b. The centering plate 124a and 124b are downwardly extended from the frame 120 such that when the frame 120 is moved down, the centering plate 124a and 124b aligns the layer 12 from opposite sides and starting from the bottom of the pallet 22. [0044] The apparatus 100 further includes a control unit 130 for controlling the operation / handling / of various components such as, first vertical elevating means 112 and / or conveyor means 114 and / or first finger set 116 and / or centering plates 124 of the vertical frame 120 of the apparatus 100.

[0045] In a modification of the first embodiment, as illustrated in FIG. 2, the apparatus

100 includes an auxiliary stacking means 140. The auxiliary stacking means 140 includes a second vertical elevating means 142 extending away from the palletizing station 20 in a direction opposite to the first receiving station 10. The second vertical elevating means 142 meets the first vertical elevating 112 means at the palletizing station 20. The auxiliary stacking means 140 further includes a horizontal guiding means 144 extending across the vertical elevating mean 110. The auxiliary stacking means 140 further includes a second finger set 146 movably positioned onto the horizontal guiding means 144.

[0046] The auxiliary stacking mean 140 simplifies the apparatus 100 in that it provides an additional, the second finger set 146, to support a layer from both directions. Further, the second finger set 146 allows the possibility of pulling the layers from both sides during alignment using the centering plate 24 of the vertical frame 120. Such an arrangement results in a perfectly aligned pallet 22 stacked with the layers 12.

[0047] FIGS. 1 and 2 schematically show the arrangement of the basic components of the apparatus of the present disclosure. However, in the construction of commercial functional units secondary components such as driving means, coupling means, harnesses, support structure and other functional components known to one of skill in the palletizing technology may be incorporated in the apparatus. Such commercial arrangements are included in the present invention as long as the structural components and arrangements disclosed herein are present. Accordingly, it is to be contemplated that the present palletizing apparatus may be configured to be operated in any working environment and may be incorporated in different ways such as in some embodiment the apparatus may be supported from the top using support arms, or the like. While in other embodiments, the apparatus may be incorporated on ground and supported from sides, or any other direction as deems possible without deviating from the scope of the current invention.

[0048] As already disclosed, Figs. 3 illustrates a palletizing apparatus 200 including a primary stacking means 210 for receiving layers 202 from the receiving stations 204 and stacking onto a pallet 206 at the palletizing station 208. The primary stacking means 210 includes a first vertical elevating means 212 extending away from the receiving station 204 and towards the palletizing station 208. The primary stacking means 210 further includes a conveyor means 214 positioned above the first vertical elevating means 214 extending from the receiving station 204 and towards the palletizing station 208. The conveyor means 214 is adapted to receive the layer 202 to be stacked onto the pallet 206 at palletizing station 208. The primary stacking 210 means further includes a first finger set 216 movably positioned onto the conveyor means 214.

[0049] The first vertical elevating means 212 as illustrated in fig, 3 may be any lifting device capable of making upward and downward movement thereby enabling lifting and lowering of devices etc, for example in current disclosure, a conveyor means 214, and the first finger set 216 positioned onto the conveyor means 214. In a preferred embodiment, the first vertical elevating means 212 may include an elevator assembly having vertically disposed spaced-apart pairs of endless chains trained around sprockets wheels and having tray-supporting spanning bars arranged thereon at various intervals. In some embodiments the endless chains are replaced by lifting rods. In other embodiments, the vertical elevating means 212 may be any lifting mechanism, capable of lifting and / or lowering conveyor means.

[0050] The vertical elevating means 212 may further include one or more powering components, such as for example, in some cases a motor, or in other examples may be one or more actuating cylinders for enabling a vertical movement of the elevating means in an upward and / or a downward direction. In some other embodiments, the upward movement of the elevating means is performed using other powered elevating means, such as the hydraulic jack. Accordingly, the vertical elevating means 212 raises conveyor means 214 when the lifting mechanism is activated.

[0051] The vertical elevating means 212 is shaped to be incorporated in between the receiving station 204 and the palletizing station 208. Further, it is sized to support the conveyor means 214 there upon such that a discharging end of the conveyor means 214 onto the pallet at the palletizing station. Further, the vertical elevating means 212 should be capable of bearing heavy weights so as to comfortably support, the conveyor means 214 along with the layers 202 / packages / items to be stacked. [0052] The conveyor means 214 as illustrated in fig. 3 may be any known kind of conveyor means such as for example roller conveyor having a receiving portion (not shown) separated from a discharge portion (not shown) through a conveying belt 214a. The receiving portion may be adapted to receive the layer from the receiving station 204. In an embodiment of the present invention, the conveyor means 214 may be a roller in-feed conveyor. In other embodiments of the present invention, the conveyor means 214 may be any kind of suitable conveyor means for use along with the palletizing apparatus 200.

[0053] The first finger set 216 may be any type of finger based device or any type of comb-shaped supporting device for holding the layer placed onto the conveyor means 214. In an embodiment of the present invention, the first finger set 216 includes a first finger set 216a connected to a first driving unit (not shown) for enabling a horizontal sliding movement of the first finger set 216a onto the conveyor means 214. The first driving unit may be any kind of known powering mechanism such as for example, electric motor, hydraulic powering devices, or any other kind of suitable powering device. In some embodiments, the first finger set 216 includes an elevator means for elevating the first finger to a small height ranging between 10 mm to 50 mm.

[0054] Preferably, the length of the first finger set 216a is more than the maximum length of the layer to be loaded onto the pallet. In another embodiment, the length of the finger set 216a is more than half of the maximum length of the layer 202 to be stacked onto the pallet 206. [0055] The apparatus 200 further includes a vertically centering frame 220 for aligning the layers 202 stacked onto the pallet 206. The vertically centering frame 220 may be a frame holding one or more sets of centering plates 224 positioned on opposite sides of the frame 220 extending downwardly. The vertical centering frame 220 includes an elevating mechanism (not shown) for enabling an upward and downward movement thereof. When declined towards the pallet 206, the centering plates 224a, 224b present on the opposite sides of the frame 220 aligns the pallet 206 from its opposite outsides such that the pallet 206 is aligned centrally.

[0056] In another embodiment of the present invention as illustrated in Figs. 4a, 4b and 4, the palletizing apparatus 200 includes an auxiliary stacking means 240 in addition to the primary stacking means 210 and the vertical centering frame 220. In such an embodiment, the primary stacking means 210 and the vertical centering frame 220 may have the configurations / specifications / details and variations similar to the embodiment as disclosed in refernce with Fig. 3. The additional auxiliary stacking means 240 in such an embodiment includes a second vertical elevating means 242 extending away from the palletizing station 208 in a direction opposite to the receiving station 204. The second vertical elevating means 242 is generally similar to the first vertical elevating means 212 but includes an additional horizontal guiding component 244 configured thereon. The second vertical elevating means 242, and the horizontal guiding means 244 meets first vertical elevating means 212 and the conveyor means 214 at the palletizing station 208. The auxiliary stacking means 240 further includes a second finger set 246, generally similar to the first finger set 216 movably positioned onto the horizontal guiding means 244 such that when at a same height, the second finger set 246 is movable towards and onto the conveyor means 214 of the first vertical elevating means 212.

[0057] In an embodiment of the present invention, the second finger set 246 includes a second finger set 246a connected to a second driving unit (not shown) for enabling a horizontal sliding movement thereof. The second driving unit may be any kind of known powering mechanism such as for example, electric motor, hydraulic powering devices, or any other kind of suitable powering device. In some embodiments, the second finger set 246 includes an elevator means for elevating the second finger set 246a to a small height ranging between 10 mm to 50 mm. [0058] The length of the second finger set 246 should be such that the combined length of the first finger set 216 and the second finger set 246 should be more than the maximum length of the layer 202 to be loaded onto the pallet 206. In an embodiment of the present invention, the length of the second gripping mechanism 246 is more than half of the maximum length of the layer 202 to be stacked. [0059] The palletizing apparatus 200 further includes a control unit 130 (depicted in fig. 1 but not shown in fig.) for remotely controlling the operations / handling of various components of the palletizing apparatus such as, primary stacking means, auxiliary stacking means and vertical centering frame and including the layers to be stacked. In some embodiments, the control unit 130 includes a data capturing unit for tracking the parameters such as for example, location of the layer to be stacked, loading height of the palletizing station, or the like. The control unit 130 may further include a processor unit for processing the data captured by the data capture unit on the basis of predetermined logics / rules for facilitating the operation within the system. The control unit may further include an instruction unit that delivers the instructions to various components such as various motors, driving units, conveyer means, vertical elevating means and centering frame, or the like, to facilitate a desired and smooth operation. The control unit 130 is generally connected to the various components of the apparatus 200 through connection mechanisms such as electric cables, data link cables, or the like

[0060] In some embodiments, the control unit 130 may be provided as a computer program product, such as may include a computer-readable storage medium or a non-transitory machine-readable medium maintaining instructions interpretable by a computer or other electronic device, such as to perform one or more processes. A non- transitory machine-readable medium includes any mechanism for storing information in a form (including a processing application or software) readable or interpretable by a machine (such as a computer). The non-transitory machine- readable medium may take the form of, but is not limited to, any known storage technique, including magnetic storage media, optical storage media, magneto- optical storage media; read only memory (ROM); random access memory (RAM); erasable programmable memory (including EPROM and EEPROM); flash memory; and otherwise. [0061] In an embodiment of the present invention, the control unit 130 may include an automatic mode unit for automatizing the operation of the palletizing apparatus [0062] Fig. 6 with reference to Figs.1 and 3, is a flow diagram illustrating a method 600 for stacking and aligning layers 202 received from the receiving station 204, onto the pallet 206 at the palletizing station 208 using the apparatus 200 of the present invention. The method 600 starts at step 602 and moves to step 604 where the layer 202 is received onto the primary stacking means 210 at a receiving portion of the conveyor means 214. The receiving portion of the conveyor means 214 forwards the layer towards the conveying belt 214a where it is at least partially supported onto the first finger set 216a of the first finger set 216. In a preferred embodiment of the present invention, the layer 202 is supported completely onto the first finger set 216a. The method 600 then proceeds to step 606 where a height of the first vertical elevating means 210 is adjusted such that the height of first finger set 216a corresponds to a loading height at the palletizing station 208, for example, just above the last layer 202 already stacked onto the pallet 206.

[0063] Once the height of the vertical elevating means 212 is adjusted, the method

600 proceeds to step 608 where the first finger set 216a is elevated up from the conveyor means 214 such that the layer 202 is free from the conveyor belt 214a of the conveyor means 214. At steps 610, the first finger set 216a slides towards the palletizing station 208 so as to place the layer 202 onto the pallet 206. Once placed, the method 600 proceeds to step 612 where the vertical centering frame 220 moves down towards and above the pallet 206 so as to align the pallet 206 vertically from outside thereof through the centering plates 224a and 224b. Once aligned, the first finger set 216a slides out and moves back towards the receiving portion of the conveyor means 214 at step 614 followed by retraction of vertical frame 220 in upward direction to keep the pallet aligned at step 616. In an embodiment of the present invention, the step 614 and 616 may be performed simultaneously. In another embodiment of the present invention, the step 614 and 616 may be performed sequentially one after the other in any desired order. 64] Fig. 7 with reference to Figs. 2 and 4, is a flow diagram illustrating an alternate method 700 for stacking and aligning layers 202 received from the receiving station 204, onto the pallet 206 at the palletizing station 208 using the apparatus 200 of the present invention The method 700 starts at step 702 and proceeds to step 704 and 706, same as step 604 and 606 of the method 600. Once the height of the first elevating means 212 is adjusted at step 706, the method 700 proceeds to step 708 where the height of second vertical elevating means is adjusted such that it corresponds to the loading height at the palletization station 208. The method then proceed to step 710 where the second finger set 246a is moved towards / and onto the conveyor means 214 meeting the first finger set 216a and moving beneath the layer 202 to be stacked such that the first finger set 216a and the second finger set 246a together supports the layer 202. Thereafter, the method moves to step 712 where the first finger set 216a and the second finger set 246a are elevated up from the conveyor means 214 such that the layer 202 is free from the conveyor belt 214a and is completely supported onto the first finger set 216a and the second finger set 246a. At step 714, the first finger set 216a and the second finger set 246a slides towards the palletizing station 208 so as to place the layer 202 onto the pallet 206. Once placed, the method 700 proceeds to step 716, where the vertical centering frame 220 moves down above the pallet 206 so as to align the pallet 206 vertically from outsides thereof. Once aligned, the first finger set 216a slides out towards the receiving portion of the conveyor means 214 and the second finger set 246a slides out away from the palletizing station 208 in a direction opposite to the receiving station 204 at step 718 followed by retraction of vertical frame 220 in an upward direction to keep the pallet 206 aligned at step 720.

[0065] Such a stacking of the layers 202 using the primary stacking means 210 as well as the auxiliary stacking means 240 have the advantage that in such an embodiment, the layer 202 may be pulled using first finger set 216a as well as the second finger set 246a from opposite sides thereby enabling a centering from both sides.

[0066] Preferably, all the steps of method 600 and 700 maybe executed using the control unit from a remote place. In another embodiment, the control unit may be configured to work automatically without any intervention from an operator or a user.

[0067] Such a palletizing apparatus 200 while being faster than the previously available mechanisms keeps the stack properly aligned thereby avoiding a possibility of any damage to the stacks during shipment and / or transportation and / or dispensing.

INDUSTRIAL APPLICABILITY [0068] The present disclosure relates to a palletizing apparatus 200 for stacking plurality of layers onto a pallet preferably in the corrugated box manufacturing industries. Also, the palletizing apparatus 200 for improvising the shipment in various industries including but not limited to industries related to such as food items, tiles, compact disks (CDS) or other relatively flat products.

[0069] Since the palletization apparatus 200 may receive layer to be stacked from anywhere and not just a predefined receiving stations and therefore is adapted to be positioned at the end of a bottling, canning or packaging machine which places articles in layers / boxes /cartons, which are then stacked onto pallets for ready shipment.

[0070] The palletizing apparatus 200 of the current invention is far more efficient than the previously available palletization mechanisms. Further, while the alignment in previously known mechanism obviates the creation of voids / gaps at the bottom portion - the current palletizing apparatus, while aligning the layers from above at the outsides of the pallets, assures a proper alignment even at the bottom level of the pallet aligned and thereby avoiding the formation of any voids / gaps.

[0071] Further, the palletizing apparatus of the current invention is very simple to execute and may be incorporated into existing manufacturing / production plants etc, thereby avoiding any addition of huge costs. The palletizing apparatus may accordingly be adapted the apparatus in part or as a whole in currently manufacturing plants. [0072] Referring to Figs. 6-7, methodology in accordance with a preferred embodiment of the claimed subject matter is illustrated. While, for purposes of simplicity of explanation, the methodology is shown and described as a series of acts, it is to be understood and appreciated that the claimed subject matter is not limited by the order of acts, as some acts may occur in different orders and/or concurrently with other acts from that shown and described herein. For example, those skilled in the art will understand and appreciate that a methodology could alternatively be represented as a series of interrelated states or events, such as in a state diagram. Moreover, not all illustrated acts may be required to implement a methodology in accordance with the claimed subject matter. Additionally, it should be further appreciated that the methodologies disclosed hereinafter and throughout this specification are capable of being stored on an article of manufacture to facilitate transporting and transferring such methodologies to computers. The term article of manufacture, as used herein, is intended to encompass a computer program accessible from any computer-readable device, carrier, or media.

[0073] Throughout the specifications of the present disclosure, the term "comprising" means including but not necessarily to the exclusion of other elements or steps. In other words, the term comprising indicates an open list. Furthermore, all directional references (such as, but not limited to, upper, lower, inner, outer, upward, downward, inwards, outwards, right, left, rightward, leftward, inside, outside, top, bottom, above, below, vertical, horizontal, clockwise, and counterclockwise, lineal, axial and/or radial, or any other directional and/or similar references) are only used for identification purposes to aid the reader's understanding of illustrative embodiments of the present disclosure, and may not create any limitations, particularly as to the position, orientation, or use unless specifically set forth in the claims. Moreover, all directional references are approximate and should not be interpreted as exact, but rather as describing a general indicator as to an approximate attitude.

[0074] Similarly, joinder references (such as, but not limited to, attached, coupled, connected, accommodated, and the like and their derivatives) are to be construed broadly and may include intermediate members between a connection of segments and relative movement between segments. As such, joinder references may not necessarily infer that two segments are directly connected and in fixed relation to each other.

[0075] In some instances, components are described with reference to "ends" having a particular characteristic and/or being connected with an-other part. However, those skilled in the art will recognize that the present disclosure is not limited to components which terminate immediately be-yond their points of connection with other parts. Thus, the term "end" should be interpreted broadly, in a manner that includes areas adjacent, rearward, forward of, or otherwise near the terminus of a particular segment, link, component, part, member or the like. Additionally, all numerical terms, such as, but not limited to, "second", "second", "third", "fourth", or any other ordinary and/or numerical terms, should also be taken only as identifiers, to assist the reader's understanding of the various embodiments, variations and/or modifications of the present disclosure, and may not create any limitations, particularly as to the order, or preference, of any embodiment, variation and/or modification relative to, or over, another embodiment, variation and/or modification. 76] As will be readily apparent to those skilled in the art, the present invention may easily be produced in other specific forms without departing from its essential characteristics. The present embodiments is, therefore, to be considered as merely illustrative and not restrictive, the scope of the invention being indicated by the claims rather than the foregoing description, and all changes which come within therefore intended to be embraced therein. Many variations, modifications, additions, and improvements are possible. More generally, embodiments in accordance with the present disclosure have been described in the context of preferred embodiments. Functionalities may be separated or combined in procedures differently in various embodiments of the disclosure or described with different terminology. These and other variations, modifications, additions, and improvements may fall within the scope of the disclosure as defined in the appended claims.