Patent Grant
9422071
1. Field of the Invention
The present invention relates generally to package making machines. More particularly, the present invention is directed to an apparatus that takes as input a t-fold, carton blank and partially erects it so that a product can be inserted into it, and then finishes folding and sealing the carton to which a mailing label can be added.
2. Description of the Related Art
Packaging systems are an important aspect of manufacturing. A significant expense in manufacturing is the erecting of a packaging case from a blank, packing the case with product, and sealing the case after filling. Cases include, for example, containers, boxes, cartons and similar packages for containing product, which are made of paper, cardboard and similar materials. Until comparatively recent times, human hands have often performed the tasks of assembling, packing and sealing cases.
Meanwhile, it is well known that case blanks or unassembled cases are available in a wide range of configurations. See, for example, U.S. Pat. Nos. 3,253,770 and 8,234,844 which show, respectively, the blanks for a nine and seven panel, pre-creased (i.e., to establish the fold lines which delineate the panels) cartons. Typically, the erecting and sealing of a regular, slotted or pre-creased to establish the panel's fold lines, multi-panel carton or container proceeds along the following lines; from an initial flattened condition, the side panels that extend from a bottom panel are folded upwards into a box-like or rectangular configuration and glue or tape is applied to specified flap surfaces that are used to join the side surfaces together. A product is usually inserted at this time into this partially assembled carton or container. The top panel and its flaps are then folded inwardly and glue or tape is again applied.
Packaging lines for erecting, filling and sealing large quantities of cases that are all going to the same address, possibly by a truck shipment, are well known in the art. See, for example, U.S. Pat. Nos. 8,388,507, 8,387,349, 7,828,708, 7,669,385, 7,510,517, and 6,622,461. However, there exist no such apparatuses that can handle both the packaging and the labeling requirements when the packages are all going to, for example, different mailing addresses. For smaller customer orders that require the shipment of only a limited number of products to any particular customer, many manufacturers still erect these blank cases by hand, then fill the partially assembled cases with product, and finally close, seal and manually attach a mailing label to the product-containing, assembled cases.
However, with manpower costs continuing to rise, there is an ever increasing demand for new and improved automated systems or apparatuses that can reduce the manpower resources needed to erect or assemble, pack, seal and label shipping containers or cartons. Thus, despite of a wide assortment of packaging machines, there still exists a need for new and improved automated packaging systems.
Recognizing the need for the development of a new and improved automated apparatus that can reduce the manpower resources needed to erect, seal and affix mailing labels to shipping containers or cartons, the present invention is generally directed to satisfying this need.
In accordance with a variant of a preferred embodiment of the present invention, an apparatus for automatically erecting, from a t-fold, carton blank that serves as the input for the apparatus, a carton for the insertion of a product and then the folding, sealing and mailing address labeling of said carton, includes: a vertical drive with a vacuum suction head that grasps the underside of the carton blank that's on the bottom of the pile and pulls it down into the apparatus, guides that fold upwards some of the carton's panels when the blank is pulled down into the apparatus so as to create a partially erected carton for the insertion of the product which the carton is to package, a rotatable platform which further folds the carton and its inserted product, a glue applicator, a mailing label applicator, and a control system that controls the coordinated motion of this apparatus' various parts.
In another variant of this preferred embodiment, this control system has a plurality of sensors and a programmable controller which has a configuration adapted to initiate the action of the apparatus only after the programmable controller receives from an external source a request for the creation of a “validated” mailing label. Wherein, a “validated” mailing label request is one that has been checked to ensure that it is fully valid (i.e., it has been checked to assure: (i) that the product's cost has been or will be paid, (ii) that the product is in stock and ready to be shipped, and (iii) the mailing address to which the product is to be shipped is valid).
In yet another variant of this preferred embodiment, the t-fold, carton blank to be used by the apparatus has nine panels, each of which has a proximal and a distal surface that are named such that the proximal side of any panel is the one which is closest to the packaged product in the sealed carton. These nine panels include an outer top, a rear side, an outer bottom, a front side, an inner top, a right side, a left side, an inner bottom right flap and an inner bottom left flap.
This variant of the apparatus then includes: (a) a frame having a configuration adapted to hold a plurality of these carton blanks on the frame's top surface, wherein this frame also has a defined orthogonal set of axes with a x-axis that extends from the frame's left to right side, a y-axis that extends from the frame's bottom to top surfaces, and a z-axis that extends from the frame's rear to front surfaces, (b) a vertical drive having a distal end to which is attached a vacuum suction head having a configuration adapted to enable this vacuum suction head to grasp the distal side of the carton blank when it is located on the frame's top surface and pull it down into the apparatus, (c) a rear guide having a configuration adapted to fold upwards the carton blank's top and rear side panels when the blank is pulled down into the apparatus so as to create a partially erected carton for the insertion of the product onto the proximal side of the carton's inner top panel, (d) a right side guide having a configuration adapted to fold upwards the inner bottom, right flap and right side panel when the blank is pulled down into the apparatus, (e) a left side guide having a configuration adapted to fold upwards the inner bottom, left flap and left side panel when the blank is pulled down into the apparatus.
This variant of the apparatus further includes: (f) a rotatable platform having a configuration adapted to situate the rotatable platform's top surface below the distal side of the carton's inner top panel when the carton blank is pulled down into the apparatus, with this rotatable platform also having a mounting arrangement adapted to affix the rotatable platform to the frame so that the rotatable platform rotates about its axis of rotation which is parallel to the frame's x-axis, (g) a pair of movable pushers affixed to the rotatable platform and having a configuration adapted to move the pushers towards each other in such a manner as to fold down the carton's inner bottom right and inner bottom left flaps towards each other so that they lie on the top of the inserted product that was placed onto the proximal side of the carton's inner top panel, and wherein the configuration of this mounting arrangement is further adapted to allow the platform to move through an angle that is sufficient to situate the partially-erected carton above the carton's outer bottom panel, (h) a glue applicator having a configuration adapted to apply glue to the distal side of the carton's inner top panel, (i) a mailing label applicator having a vertically movable head and a configuration adapted to move this head downward to come into contact with the distal side of the carton's outer top panel and affix a mailing label to it, and (j) a control system having a plurality of sensors and a programmable controller which has a configuration adapted to control the coordinated actions of this apparatus' various parts.
Thus, there has been summarized above (rather broadly and understanding that there are other preferred embodiments which have not been summarized above) the present invention in order that the detailed description that follows may be better understood and appreciated.
Before explaining at least one embodiment of the present invention 1 in detail, it is to be understood that the invention is not limited in its application to the details of construction and to the arrangements of the components set forth in the following description or illustrated in the applications drawings or figures. The invention is capable of other embodiments and of being practiced and carried out in various ways. Also, it is to be understood that the phraseology and terminology employed herein are for the purpose of description and should not be regarded as limiting.
A preferred embodiment of the present invention 1 can take the form of an apparatus or machine for initially, partially erecting, from a flat, multi-paneled, packaging carton blank that has impressed fold lines that separate its panels and which serves as the raw material input for the apparatus, a carton which has enough structural integrity to allow it to hold in place the product which this packing carton is to protect during its personalized shipment to a customer. The product can be inserted either manually or automatically. After the product is inserted, the apparatus completes the task of erecting this carton by folding the remaining panels around the product, except for one panel which is held at an angle to the underlying panel on which it will eventually rest. Keeping these panels separated at this time is for the purpose of allowing a glue applicator access to the underlying panel so that glue can be applied to this underlying panel. Once this glue has been applied, the apparatus presses down the panel that was being held at an angle so that it comes into contact with the underlying panel to interact with the applied glue and seal the package. Since these folding and gluing steps occur in different work areas of the apparatus, it has a transport or conveyor system that moves the carton and its inserted product between these different work areas. This apparatus also has a third working area in which a mailing label is printed and attached to the now sealed package before it is exited from the apparatus.
This apparatus is sufficiently flexible in its configuration that it can accommodate a wide range of multi-panel, carton blanks. It is especially useful in those applications where the manufacturer or shipper must package and send many products that are each going to a different address but which are similarly sized so that each of these products can go into the same size and type of carton.
To describe this frame and how a carton progresses through it, it is helpful to define a set of orthogonal axes for this frame. Thus, we define the x-axis of this set as extending from said left 26 to the right 28 side of this frame, a y-axis that extends from the bottom to the top 24 of the frame, and a z-axis that extends from back to the front 22 of the frame.
The blanks are pulled down into the first working area 20a by utilizing an intake mechanism 30 which is situated below this first working area 20a and which has a plurality of elongated tubular structures that each have a distal end 32. Attached to each of these is a vacuum suction head or clamping device 34 which has a configuration adapted to enable it to grasp the underside of the carton blank and move or pull it down into this first working area of the apparatus.
Strategically placed guides that are located proximate to the downward line of movement of this blank and so that the carton's outer top 2, rear side 3, inner bottom right 9 and left side 10 panels come into contact with these guides and are folded 90 degrees upward so as to present a partially erected carton when it arrives in the frame's first working area. A product 11 can then be inserted through the frame's front surface and into this partially erected carton so that the product lies on the partially erected carton's inner top 6 panel. See
These guides consist of (a) a rear guide 40 that is configured and oriented in the frame to fold upwards and vertical the outer top and rear side panels, (b) a right side guide 42 that is configured and oriented in the frame to fold upwards and vertical the inner bottom, right flap and right side panels, and a left side guide 44 that is configured and oriented in the frame to fold upwards and vertical the inner bottom, left flap and left side panels.
When this partially erected carton descends to the bottom of this first working area the distal side of its inner top panel comes to rest on the top surface of a rotatable platform 50. This platform has top 52, bottom 52a, right 54 and left 56 side surfaces and a configuration and mounting arrangement adapted to situate the platform's top surface below the carton blank and to allow for the platform to be affixed to the so that its axis of rotation is parallel to that of the frame's x-axis. The platform's right and left side surfaces also have affixed to each of them a movable pusher 58 that has a configuration adapted so as to move the pushers both towards and away from each other in such a manner as to fold the carton's inner bottom right 9 and left side 10 flaps towards each other and through a fold of 90 degrees so that these flaps lie on top of the product that was inserted onto the proximal side of the carton's inner top 6 panel. See
The platform's mounting arrangement is adapted to allow the platform to move through a rotational angle of approximately 135 degrees about its x-axis aligned axis of rotation. This serves to further fold and close the partially erected carton by moving the carton's inner top 6, right 7 and left 8 side, inner bottom right side 9 and left side 10 flaps and front side 5 panels through an angle of 90 degrees. See
A rotatable lever arm 60 or other suitable means is situated to the left side of the carton's outer bottom panel 4 and is configured to allow this lever arm to rotate downward and come into contact with the distal side of the carton inner top panel 6 and continue the folding downward of this partially erected until its inner bottom right 9 and left side 10 flaps come into contact with the carton's outer bottom panel 4. See
A track 70 or other suitable support and transport means is situated below that part of this first working area of the apparatus that is beneath the carton's outer bottom panel 4 as it was initially horizontally situated on the top surface the frame. This track is configured to guide the movements of this now almost totally erected carton as it carton moves from this first working area and towards the right side of the frame and into a second working area where glue is applied to the top of the carton's inner top 6 panel as the carton is prepared for being sealed. A suitable drive mechanism 80 is used to move the carton along this track.
An outer top guide 90 is situated proximate to the carton's line of movement between these first and second working areas and configured so that it comes into contact with the distal side of the carton's outer top panel and moves or folds it downward through an angle of approximately 45 degree as the carton moves on the track to the frame's second working area. See
The apparatus' drive mechanism 80 is further configured to continue to move the carton along the frame's track to a third working area which is situated closer to the frame's right side and where the carton's outer top panel 2 is pressed downward until it comes into contact with the glue that was placed on the carton's inner top panel and thereby seals the carton.
Located above this third working area is a mailing label applicator 110 which has a vertically movable applicator head 112 that can serve the dual purpose of pushing down the carton's outer top panel 2 while affixing to the distal surface of this panel a mailing label that has been prepared and printed by the mailing label applicator. Such mailing label applicators are well known in the art and therefore will not be discussed in any detail herein. See
The apparatus of the present invention also has a control system 120 which is used to control the overall operation of the apparatus, including the properly timed motion of its various moving parts. Such control systems are well known in the art and consist of a plurality of electronic sensors located on various parts of the frame that collect various information (orientation or location of a moving part or that of the carton blank or its partially erected form) that is fed into a programmable controller which is programmed to control the operation of the apparatus and its moving parts (e.g., vertical drive, vacuum suction head, rotatable platform, movable pushers, rotatable lever arm, drive mechanism, glue applicator and mailing label applicator) so as to partially erect the carton for the insertion of a product, followed by the continued folding and sealing of the carton and the affixing thereto of a mailing label and the discharge of the carton out the right side of the apparatus's frame.
It should be noted that the present invention and its programmable controller is unique in its manner of operation. To prevent packing mistakes and waste, the apparatus' controller and mailing label applicator are configured such that they receive their operational instructions from a controlling external source, e.g., the computers which control the order taking, the checking of manufacturing inventory of product ready for shipment, and the financial qualification of an order (e.g., does the potential customer have credit with the product manufacturer or have sufficient pre-payments been made to guarantee payment for a requested order). This external source is tasked with the responsibility for ensuring that all mailing label requests are validated before these requests are passed along to the packaging device or apparatus of the present invention.
To validate a mailing label request will usually entail a number of checks: (a) some assurance that the product's cost has been or will be paid, (b) assurance that the product is in stock and ready to be shipped, (c) assurance the mailing address to which the product is to be shipped is valid (e.g., if the carton is to be shipped via a major shipping service, e.g., UPS, then assurance is gotten from UPS that the mailing label to be created is to a valid address to which UPS can and will deliver). Only once the mailing label request has been validated and the mailing label applicator has the direction to print such a validated mailing label is a control signal sent to the apparatus or its intake mechanism to begin the process of bringing a new a carton blank downward to begin the process of creating the carton to which this validated mailing label will be affixed.
While the above variant of the present invention was demonstrated using a nine-panel, T-fold, carton blank, it should be recognized that the present invention can be adapted to be used with T-fold, carton blanks that have other than nine panels. It can also be adapted to be used with carton blanks that have other than the exact shape of a t-fold carton.
It should also be understood that each element or component of the apparatus of this application, and combinations of these elements, can be implemented by general and/or special purpose hardware that performs the specified functions or steps associated with the elements described above.
Furthermore, the foregoing is considered as illustrative only of the principles of the present invention. Further, since numerous modifications and changes will readily occur to those skilled in the art, it is not desired to limit the invention to the exact construction and operation shown and described herein. Accordingly, all suitable modifications and equivalents may be resorted to, falling within the scope of the invention that is set forth hereafter in this application's claims.
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