The present application relates generally to the field of automated formation of bulk bins and, more specifically, to a machine and method to automatically construct and erect a bulk bin from a collapsed body blank and a bottom blank.
Bulk bins, which are a kind of heavy-duty paperboard container, are usually used to contain meat or other product as to which an ordinary box/case lacks sufficient strength. Because of its special function, the paperboard of bulk bin is thicker and also heavier than typical paperboard, and the formation of the bulk bin is therefore more difficult.
Known bulk bin forming methods in general are manual or semi-automatic. One attempt can be found in U.S. Pat. No. 5,624,368, in which a folded bulk bin was opened with the aid of a simple machine. Another attempt was found in U.S. Pat. No. 7,681,781, which introduced a manual way to open and seal the bottom of the bulk bin. The common problem of all such attempts are, they are not fully automatic to open the main wall and seal the bottom wall of the bulk bin with the main wall and therefore, obviously, it takes longer time and manpower to make a bulk bin. The productivity of such forming methods way is not high.
In another attempt, an automatic machine under U.S. Pat. No. 7,381,176 is made to form a collapsible bulk bin. The machine picks up the side of the collapsed main wall and glues the bottom wall with the flaps of the collapsed main wall. This machine is designed to form a collapsible bulk bin, in other words, the completed bulk bin is not a fully formed ready to pack type bin. When this type of bulk bin needs to be used, workers need to open it from a collapsible condition. In addition, the method shown in the patent consists of several separate machines working together and therefore, it needs more factory space to install the whole set of machines which is not an economy of space.
It would be desirable to provide a bulk bin forming system and method that is fully automated and erects and constructs the bulk bin at a single station from a collapsed body blank and a bottom blank.
In one aspect, a fully automated method of forming a ready to use bulk bin involves the steps of: providing an erecting and constructing station; providing a collapsed body blank supply station adjacent the erecting and constructing station; providing a bottom blank supply station adjacent the erecting constructing station; moving a collapsed body blank from the collapsed body blank supply station to the erecting and constructing station, the collapsed body blank including multiple side walls that interconnect at fold lines; opening the collapsed body blank at the erecting and constructing station to provide an opened body blank; moving a bottom blank from the bottom blank supply station to the erecting and constructing station, the bottom blank including a main body and multiple flaps; applying glue to the flaps as the bottom blank is moved from the bottom blank supply station to the erecting and constructing station; aligning the bottom blank with the opened body blank; and engaging the bottom blank onto an end of the opened body blank such that the flaps of the bottom blank are folded into position alongside walls of the opened bottom blank and secured thereto.
In another aspect, a method of forming a ready to use bulk bin involves the steps of: providing an erecting and constructing station; providing a collapsed body blank supply station adjacent a first side of the erecting and constructing station; providing a bottom blank supply station adjacent a second side of the erecting constructing station; picking a collapsed body blank from the collapsed body blank supply station and moving it to the erecting and constructing station, the collapsed body blank including multiple side walls that interconnect at fold lines; opening the collapsed body blank at the erecting and constructing station to provide an opened body blank; picking a bottom blank from the bottom blank supply station and moving it to the erecting and constructing station, the bottom blank including a main body and multiple flaps; aligning the bottom blank with the opened body blank, the multiple flaps of the bottom blank having glue thereon; moving a body blank support head into an open first end of the opened body blank and toward the bottom blank at a second end of the opened body blank; engaging the bottom blank onto the second end of the opened body blank such that the flaps of the bottom blank are folded into position along side walls of the opened body blank such that the flaps are pressed against the side walls while the body blank support head is positioned to maintain position of the side walls during the pressing operation; and disengaging the flaps when the flaps are sufficiently adhered to the side walls and moving the body blank support head outward of the first end to produce an open bulk bin structure that can be unloaded from the erecting and constructing station for use.
In still a further aspect, a machine for automated construction of a ready to use bulk bin includes an erecting and construction station, a collapsed body blank supply station alongside the erecting and constructing station and a bottom blank supply station alongside the erecting and constructing station. A body bank pick mechanism is configured to pick a collapsed body blank from the collapsed body blank supply station and move the collapsed body blank into the erecting and constructing station. A body blank opening assembly at the erecting and constructing station is configured for opening the collapsed body blank and forming an opened body blank. A bottom blank pick mechanism is configured to pick a bottom blank from the bottom blank supply station. A conveying device is positioned to move the bottom blank to the erecting and constructing station and beneath the opened body blank. A bottom blank fixing system is configured to apply the bottom blank to the opened body blank with flaps of the bottom blank secured to side walls of the opened body blank to produce an open bulk bin structure.
By way of example, a typical bulk bin may have a height in the range of 20 inches to 60 inches, a length dimension in the range of 39 inches to 48 inches and a width dimension in the range of 23 inches to 40 inches.
The details of one or more embodiments are set forth in the accompanying drawings and the description below. Other features, objects, and advantages will be apparent from the description and drawings, and from the claims.
Referring to
The collapsed body blank supply station 14 includes a stack 20 of generally horizontally arranged collapsed body blanks 22. As used herein, the terminology “generally horizontally arranged” when referring to blanks means that the blanks are arranged with opposed major faces offset from vertical by no more than ten degrees. In the illustrated embodiment the blanks 22 include eight side walls joined to each other along fold lines as will be shown in more detail below, but other configurations are possible. The stack 20 may be disposed within a station frame 24 that keeps the stack in desired alignment and position. Exterior end panels 26, 28 of the frame may be pivoted outwardly away from the stack (e.g., via an actuator 30) to create an access opening for loading of additional collapsed body blanks. A body blank picking mechanism 32 is provided at station 14 for selecting individual collapsed body blanks 22 and moving them to the erecting and constructing station 12.
The erecting and constructing station 12 includes a blank opening assembly 34 and a body blank support head mechanism 36. The blank opening assembly 34 opens the blank beneath the support head 36, and the support head 36 moves down into the opened body blank during construction. Station 12 also includes a bottom plank push up device 38 that is used to engage the bottom blank with the opened body blank as will be described in further detail below. The station 12 also includes bin conveyor or pusher mechanism 39 for moving completed bins out of station 12 and onto the outfeed station 18.
The bottom blank supply station 16 includes a stack 40 of generally horizontally arranged bottom blanks 42 (shown only schematically in
The outfeed station 18 includes a surface 46 for supporting the bins and may also include conveyance mechanisms 48 for moving the bins. However, it is contemplated that in certain embodiments the outfeed station 18 may be nothing more than an accessible location at which a machine operator picks the bin from the station 12 as it exits station 12.
The above device provides an advantageous method of bulk bin formation as follows. Once the device is fully set up with appropriate blank stacks 20 and 40, the machine is put into a run mode that provides full automation of the process.
As an initial step, a collapsed body blank 22 is picked from the collapsed body blank supply station 14 and moved to the erecting and constructing station 12. In this regard, and referring to
As seen in
When the pneumatic cylinders 74 are extended as part of the final move of the blank to vertical, the body blank is moved into contact with suction cups 100 of one gripping part 102 of the blank opening assembly 34. The suction cups 102 are mounted on a lateral bar 104, which in turn is mounted to a slide frame 106 via a bracket 108. The slide frame rides on slide rods 110 and is moved along the slide rods via a pneumatic cylinder mechanism 112. The slide rods are supported on the lateral beam 88 via lateral mount brackets 114 fixed to the ends of the rods. The end of the pneumatic cylinder mechanism 112 is also supported on the lateral beam 88 via a mount bracket 116. As seen in
When the body blank is moved to vertical, the gripping part 124 is maintained in a spaced relation from the gripping part 102 to provide space for the body blank to move into position. Once the move to vertical is complete, the gripping part 124 is moved toward the gripping part 102 and into contact with the body blank 22 as per
Once the pick mechanism 32 has released the body blank 22, the blank opening assembly 34 can begin the opening operation by moving the gripping part 124 away from gripping part 102 via sliding of the slide frame 126 along the rods 122 in the direction shown by arrow 140 in
In this regard,
As shown in
Referring to
Referring to
Each plate 228 is connected to an actuator 236 that can operate to move the plate 228 between a retracted position, which is outward away from the location of the opened body blank side walls, and an extended position which is inward toward the location of the opened body blank side walls. The plates are maintained in the retracted position when the plates are initially moved upward along the side walls 142, 144 for flap folding, and then the actuators 236 are operated to move the plates inward and push the flaps 192, 194 into firm contact with the side walls 144, 142. In this regard, the wall portions 208 and 210 of the head internal of the opened body blank are positioned adjacent the internal surfaces of the side walls 142 and 144 so that the flaps and side walls are effectively pressed between the plates 228 and the head member wall portions when the actuators 236 are operated. This pressing operation is maintained for a suitable time period (e.g., several seconds) to assure good adhesion between the flaps and the side walls by operation of the glue previously applied to the flaps. Once the actuators 236 are released the plates 228 move away from the completed bin container and the push up device 38 is moved back down so that the completed bin can be conveyed into the outfeed station 18.
By the foregoing machine, the method of forming a ready to use bulk bin involves the steps of providing an erecting and constructing station 12, a collapsed body blank supply station 14 adjacent a one side of the erecting and constructing station 12 and a bottom blank supply station 16 adjacent another side of the erecting constructing station 12. A collapsed body blank 22 is picked by mechanism 32 from the collapsed body blank supply station 14 and moved to the erecting and constructing station 12. The collapsed body blank 22 includes multiple side walls 142, 144 that interconnect at fold lines 146. The collapsed body blank 22 is opened at the erecting and constructing station 12 to provide an opened body blank. A bottom blank 42 is picked by mechanism 44 from the bottom blank supply station 16 and moved to the erecting and constructing station 12. The bottom blank 42 includes a main body 190 and multiple flaps 192, 194. The bottom blank 42 is aligned with the opened body blank 22 (e.g., per
The body portion 190 of the bottom blank 42 is configured to hold the open bulk bin structure against collapse of the side walls. Thus, the resulting bin is maintained in an open condition for use.
In the station 14, collapsed body blanks are arranged generally horizontally in a body blank stack 20. The collapsed body blank 22 is picked from a top of the body blank stack 20 in a generally horizontal orientation and is reoriented to be in a generally vertical orientation (per
Glue is applied to the flaps 192, 194 of the bottom blank 42 as the bottom blank is moved from the bottom blank supply station 16 to the erecting and constructing station 12.
A body blank pick mechanism 32 moves vertically upward from the body blank stack 20 and then pivots the blank toward the erecting and constructing station in order to reorient the collapsed body blank to the generally vertical orientation. The body blank pick mechanism 32 transfers the collapsed body blank to a blank opening assembly 34 at the erecting and constructing station 12. The blank opening assembly 34 includes a first body blank holding mechanism 102 and a second body blank holding mechanism 124 arranged parallel to each other. In the opening step the second body blank holding mechanism 124 moves in a direction 140 away from the first body blank holding mechanism 102, and the first body blank holding mechanism 102 moves in a direction 148 that is perpendicular to the direction 140.
The body blank holding mechanisms 102 and 124 hold the opened body blank while the body blank 22 while the 36 support head is moved downward into the top opening of the opened body blank. A blank push up device 38 at the erecting and constructing station 12 includes flap fold plates 228 that move upward to fold the flaps 192, 194 upward and then move inward to engage the flaps 192, 194 to the side walls of the opened body blank, completing the construction.
It is to be clearly understood that the above description is intended by way of illustration and example only, is not intended to be taken by way of limitation, and that other changes and modifications are possible. For example, while pneumatic cylinder mechanisms are primarily described for movement of various components, it is recognized that other linear actuators or movers could be used.
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