This invention relates generally to conveying systems and, more particularly, to a lifting mechanism for raising a front flap on an object passing through a conveying system.
In current conveyor systems, various objects, such as cases, pass through a conveying system for filling and closing the cases. In such systems, the case must be stopped or set at a specific pitch in a flight bar system so that a specific timing is achieved to lift a front flap of the case up to begin closing the case. This does not allow for cases to be intermittently placed on a continuous running conveyor. Other systems for lifting a forward-facing flap on a case include a ridged arm that may be changed out specific to each type of case passing through the conveyor. In either case, flaps are often not raised enough for closure of the case and therefore the flaps will not seal properly in current systems. This is especially true when a conveying system is utilizing re-used cases. Thus, a need exists for an improved lifting mechanism for conveyor systems without the additional interference of changing parts or stopping the system.
The invention generally relates to provide an improved mechanism to raise a forward-facing flap (e.g., front flap) on a case for closure while the case is passing through a conveyor system.
The general object of the invention can be attained, at least in part, through a lifting apparatus for a case on a conveyor system. The lifting apparatus includes a chain that can vertically hang over a conveyor belt, a hook positioned on an end of the chain, and a piston configured to retract and release the chain. The hook can interact with a front flap of an open case traveling on the conveyor belt. The hook can then engage the front flap of the case at a first position.
The piston is configured to at least partially retract the chain and then the hook can then engage the front flap at a second position. The case can continuously move on the conveyor belt while at the first position and the second position. The first position can occur when the case is open, and the second position can occur when the case is at least partially closed.
Additionally, the chain can include a plurality of links. The plurality of links may be aligned parallel to the conveyor system in that the links swing in a a direction parallel to the direction the conveyor belt is traveling. Each link of the plurality of links can pivot relative to each adjacent link about an axis perpendicular to the conveying direction. The hook includes a center of gravity in line with the chain. The hook also includes a polygonal hook bend, a hook throat and a hook saddle. The hook throat can engage the front flap of the case in the first position and the hook saddle can engage the front flap of the case in the second position.
The invention also includes method of lifting a portion of an object on a conveyor system. The method includes moving a plurality of objects on a conveyor belt. An object of the plurality of objects is in an open position having at least one flap. The method includes lowering a chain from a piston vertically hanging over the conveyor belt, hooking a hook onto an edge of the at least one flap and pulling the edge of the at least one flap with the hook by retracting at least a portion of the chain with the piston. The at least one flap includes a first position where the flap is vertically below a horizontal plane of the object and a second position where the flap is vertically above the horizontal plane of the object.
The method may further include retracting the chain with the piston and moving the at least one flap from the first position to the second position. The hook can release the at least one flap while continuously moving the object on the conveyor belt. The hook releases the chain to contact a flap in the first position of another object of the plurality of objects. The chain can be repeatedly retracted and released within the piston to continuously contact flaps of the plurality of objects moving through the conveyor system.
The invention further includes a lifting apparatus for use with a conveyor system including a flexible chain with a plurality of links. The flexible chain can vertically hang over a conveyor belt. The lifting apparatus also includes a hook on an end link of the chain where a weighted center of the hook is equal to a weighted center of the chain. A piston controls a vertical length of the chain and a chain guide track houses at least a portion of the vertical length of the chain.
The hook can engage a front flap of a case on the conveyor system when the case passes a sensor on the conveyor system and where the case is in an open position and the chain is at a first length. The piston is configured to at least partially retract the chain to a second length when the case engages the sensor and wherein the hook is adapted to move the front flap in a vertical direction from the open position to a closed position. A difference between the open position and the closed position of the front flap is at least 90 degrees.
The above-mentioned and other objects and advantages will be apparent to those skilled in the art from the following detailed description taken in conjunction with the drawings wherein:
The present invention provides a lifting apparatus that can be used with a conveyor system. The lifting apparatus includes a flexible member such as a chain suspended over a conveyor belt as a part of the conveyor system. A hook or other catch is positioned on an end of the flexible member while a piston and a chain guide track control a position of the chain that is suspended over the conveyor belt.
The lifting apparatus 102 as shown in
In the illustrated embodiment, while the case 124 moves down the conveyor belt 118, it is contacted by a pair of opposing of guide rails 122. The guide rails 122 may position the case 124 while the case 124 is traveling down the conveyor belt 118. The guide rails 122 may also be angled to lift and aid in closing slide flaps of the case 124 by hugging one or more side perimeters of the case 124 to cause any present side flaps of the case to move vertically upward toward a closed position.
Next, the case 124 passes a sensor 120. The sensor 120 detects an edge of the front flap 126 of the case 124 from a fixed position relative to the lifting apparatus 102 to indicate when the hook shall be raised. The front flap 126 of the case 124 will then reach the hook 114 on the chain 110. The hook 114 is adapted to a specific length so that the hook 114 will “hook” onto the edge of the front flap 126 of the case 124. The piston 104 retracts the chain 110 which in turn causes the hook 114 to move vertically upward. When the hook 114 moves upward, the hook engages an edge of the front flap 126. As the case 124 moves forward, the hook 114 engages the edge, raising the front flap 126 of the case 124. After a predetermined distance relative to the sensor 120 is achieved, the chain 110 can be retracted inside the chain guide track 106 while the hook 114 continues to engage the front flap 126 until the front flap 126 is pulled completely vertical (at least 90 degrees upwards), or past vertical, over the case 124. Retracting the hook 114 also reduces or eliminates the hook 114 from dragging through the center of the case 124 potentially hooking on, or otherwise damaging or disturbing, contents inside the case 124. As the chain 110 is retracted, the chain guide track 106 stabilizes and calms the chain 110 to take turbulence out of the movement from the piston 104 retracting the chain upwards. After the cases passes, the hook 114 is extended back down into position ready for the next case 124. The efficiency of the conveyor system 100 allows less space needed between subsequent cases, allowing more cases to pass through the system in less time. The chain 110 allows enough flexibility for the front flap 126 to be at varying angles with respect to a side of the case 124 and still cause the hook 114 to engage with the edge of the front flap 126. The upward motion from the piston 104 causes the front flap 126 to also move vertically upward to pull the front flap 126 in a closed position.
In other embodiments of the invention, a damper 107, such as a piston with a spring, may also be placed between the piston 104 and the chain guide track 106 to additionally control deceleration of the chain as the chain is moved down the chain guide track, therefore further lessening any sort of whip effect or back and forth movement of the chain. The down position 101 uses the damper 107 positioned at a point along the chain guide track 106. The damper 107 can assist the piston 104 as the chain 110 moves to the down position. The damper 107 further includes a damper piston 109. The damper piston 109 makes contact with the piston end 111 when the chain 110 reaches the down position 101. The damper piston 109 aids to slow deceleration of the chain 110 to allow the chain 110 to come to a smooth stop when alternating positions, such as from the up position 103 to the down position 101 as shown in
An end 134 of the chain 110 attaches to the hook 114. The end 134 may be a link 112 of the plurality of links, or any other suitable attachment means to join the hook 114 and the chain 110. Each link 112 in the chain 110 may also include an axis 116 from which to rotate about. The links 112 may include multiple axes 116 in other additional embodiments. The axes 116 allow the links 112 to collectively pivot relative to each other (about the axes) when the hook 114 engages the front flap 126 of a case 124. The pivoting flexibility in each link 112 allows the chain 110 to conform to the position of the front flap 126 as the case 124 travels forward on the conveyor belt 118. The pivoting flexibility of each link 112 also allows the hook 114 to always remain in close proximity to the front of a case 124 passing through the conveyor system 100 with little to no lateral displacement of the chain 110. The chain guide track 106 aids to keep the chain 110 straight when the chain 110 is retracted and released at varying positions by the piston 104. The length of the chain 110 stays the same while its position (and therefore the position of the hook 114) is adjusted up or down depending on case size.
Additionally, the links 112 of the chain 110 and the hook 114 are synchronized with a specific geometry and weight so that the hook 114 and the chain 110 collectively share a center of gravity (G). The hook 114 on the end 134, has geometry designed in such a way that the center of gravity (G) is in line with the chain 110. As shown in
When the hook 114 is in the up position, as shown in
In some embodiments, the invention additionally includes an arm as a part of the conveyor system. The arm can work with a lifter to engage a rear flap of a case. Various configurations of the arm or similar feature will be understood by those with ordinary skill in the art. It is also to be understood that the combination of the lifting apparatus, guide rails and arm may be modified and utilized to close packages or cases of other varying configurations. The combined efforts result in cases with front and rear flaps being completely folded down so that the cases can then successfully enter a case top sealer downstream from the conveyor system. Here, adhesive can be applied to the flaps before a top of the case is sealed and completely folded down. The cases and/or objects are able to continuously move down the conveyor belt while passing through any and all parts of the lifting apparatus and conveyor system.
The invention illustratively disclosed herein suitably may be practiced in the absence of any element, part, step, component, or ingredient which is not specifically disclosed herein.
While in the foregoing detailed description this invention has been described in relation to certain preferred embodiments thereof, and many details have been set forth for purposes of illustration, it will be apparent to those skilled in the art that the invention is susceptible to additional embodiments and that certain of the details described herein can be varied considerably without departing from the basic principles of the invention.
This application claims priority to U.S. Provisional Application, Ser. No. 63/105,560, filed 26 Oct. 2020. This U.S. Provisional Application is hereby incorporated by reference herein in its entirety and are made a part hereof, including but not limited to those portions which specifically appear hereinafter.
Number | Date | Country | |
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63105560 | Oct 2020 | US |