This invention relates to a carton blank feeder that utilizes magazine pressure control to regulate pressure on the pick face of carton forming equipment.
Various carton feeding machines have been utilized in the prior art to feed carton blanks in a carton assembly line, such as to a folder/gluer or product packaging machine, to form a blank into a carton. The blanks generally can be fed to the carton folder/gluer manually, by a conveyor, or by chains. Traditionally, the carton stacks are fed manually to the folder/gluer in approximately 2-inch stacks or “slugs.” These stacks can impart unequal pressures on the folder/gluer or on carton blanks aligned for feeding into the folder/gluer. Further, the operating speed of the folder/gluer, although capable of higher rates of speed, generally is limited and governed by the stacks in line for processing, as conventional carton feeding apparatuses typically have been unable to regulate the pressure imparted by the weight and/or alignment of more than a 2-inch stack of carton blanks. Such an uneven pressure distribution of the carton blanks in line for the folder/gluer further does not allow the carton feeding apparatus to recover once an edge of the periphery of the carton blank stack proceeds in a crooked alignment. This resulting imbalance presents blanks to the pick face of the folder/gluer unevenly aligned, causing misfeed to the folder/gluer, destruction of the carton blank, or shut down of the entire system.
Accordingly, one aspect of the invention is to provide a method and apparatus for feeding carton blanks which addresses the foregoing and other related and unrelated problems in the art.
The carton blank feeding system of one embodiment of the present invention generally is designed to automate the feeding of carton blanks to replace manual loading of carton stacks and provide safety, ergonomic, and economic benefits. Further, the magazine pressure control provided by the carton feeding system substantially maintains equal pressure and alignment of the carton blanks for presentation to the pick face of a carton feeding apparatus. Control of the carton blank pressure generally is performed by means of feed chains and pressure control wheels positioned within each of the two halves of the pressure control apparatus, with each half being controlled by a separate pressure sensing switch and motor to regulate pressure around the periphery of the carton blanks as they are fed toward the pick face of a folder/gluer. In this regard, segregating into arrangements other than two halves is also within the scope of the present invention.
Various other objects, features, and advantages of the present invention will become more apparent upon reading the following specification in conjunction with the accompanying drawing figures.
The magazine pressure control of the present invention can be used in an assembly line for cartons of the type, for example, which hold cans, bottles or other containers. The carton blanks are fed sequentially to a folder/gluer machine, which forms them into cartons.
The magazine pressure control apparatus 10 in accordance with one embodiment of the present invention may be positioned to receive the carton blanks just before they reach the pick face of a folder/gluer. A stack of carton blanks B is fed toward the pick face of the folder/gluer (not shown) through the magazine pressure control apparatus 10 by overlapping back and front feed chains. As shown in
The magazine pressure control apparatus 10 comprises an outer frame 15 and inner frame 16. The inner frame 16 is attached to the outer frame by clamps 17 or other means so that it can be moved to permit precise alignment with the folder/gluer and allow for variations in the size and orientation of the folder/gluer. The inner frame 16 has an opening in its center through which the carton blanks B are fed.
Motors 101, 201 are disposed on the right and left sides of the inner frame 16. As shown in
Describing first the apparatus at the right-hand side of
Mounted on shafts 105, 106, 109 are a plurality of pressure control wheels 117a-f. As shown in
Instead of a disc 118 with a toothed circumference as shown in
The left-hand side of the magazine pressure control apparatus shown in
As shown in
The sizes of the sprockets 114, 115, 214, 215 are preferably chosen so that the back feed chains will run slightly faster than the front feed chains, in order to pull the bottoms of the carton blanks together. This allows any gap remaining between succeeding stacks of blanks to be taken up. The speed of the front feed chains is generally designed to be the same as the circumferential speed of the pressure control wheels 117, 217.
It will thus be seen that activation of right-hand motor 101 causes rotation of the shafts 105, 106, 109 and 113 on the right-hand side of the magazine pressure control apparatus, together with the pressure control wheels 117a-f mounted on the shafts and the right-hand feed chains. Likewise, activation of left-hand motor 201 causes rotation of the shafts 205, 206, 209, 213 and 218 on the left-hand side of the magazine pressure control, together with the pressure control wheels 217a-f mounted thereon and the left-hand feed chains 11, 12.
Pressure control wheels 217a-f are of the same construction as pressure control wheels 117a-f.
As shown in
Assemblies 120, 220 are mounted on fixed plate 121 attached to the frame 16. Considering first the left-hand assembly 220, a movable plate 222 is slidably mounted relative to fixed plate 121 by means of a rail 223 attached to the bottom of plate 222 which slides in a suitable slide bearing 224. Movable plate 222 is biased away from the pick face by compression spring 225, which acts between a block 226 fixed to the bottom of movable plate 222 and block 127, attached to the upper surface of fixed plate 121. At the edge of the movable plate 222 which is remote from the pick face is fastened an upstanding roller mount 228, provided with horizontal bores 229. Received in bores 229, and releasably fastened therein by setscrews 230, are shafts on which are mounted one or more rollers 131. The rollers are rotatable on the shafts, and are held thereon by clamp collars 132. A plate 233 connected to the bottom of fixed plate 121 carries a proximity switch 234 in position to be engaged by movable plate 222. The switch 234 is connected via suitable circuitry to the left-hand motor 201, such that the motor 201 is actuated when the movable plate 222 is out of engagement with the switch 234, but the power to the motor 201 is cut off when the movable plate moves back against the force of spring 225 to contact the switch 234.
It will be seen from
As shown in
In operation, motors 101, 201 are energized to actuate the left- and right-hand feed chains and rotate the pressure control wheels 117a-f and 217a-f. The feed chains feed successive stacks of carton blanks B toward the pick face of the folder/gluer. As shown in
As the stack of blanks proceeds through the magazine pressure control apparatus 10, the engagement of the rotating pressure control wheels 117, 217 with the edges of the moving carton blanks around their peripheries feeds the blanks forward while at the same time tending to maintain the blanks in alignment and prevent the blanks from bending, so that they will be presented squarely to the pick face of the folder/gluer.
When the lead carton blank contacts the rollers 131 on the pressure sensor assemblies 120, 220, it will push the movable plates 122, 222 back against the force of springs 125, 225. When the pressure exerted by the lead blank reaches a predetermined value which is great enough to push each of the movable plates 122, 222 so far back that they contact switches 134, 234, the power to motors 101, 201 is cut off, stopping the feed chains 11, 12 and pressure control wheels 117, 217.
If the carton blanks are square to the pick face of the folder/gluer the predetermined value of pressure will be exerted equally on the left- and right-hand rollers 131, so that both motors 101, 201 will cut off at the same time, discontinuing all feeding. However, if the lead blank is cocked, so that it is not perpendicular to the feed direction, the motors 101, 201 may not cut off together. For example, considering
Thus it will be seen that while the magazine pressure control apparatus of the invention feeds the carton blanks toward the pick face of the folder/gluer, it also can differentially feed one side or the other of the blanks in order to equalize the pressure on them and square them to the pick face, which is perpendicular to the feed direction.
As the lead blanks are picked off the front of the stack of blanks, the pressure against rollers 131 gradually decreases until, after a few blanks have been picked off, the pressure decreases to such an extent that the movable blocks 122, 222 will move away from the pick face under the influence of springs 125, 225 until they break contact with switches 134, 234. This will activate motors 101, 201 to feed more blanks toward the pick face, once more pushing the movable plates 122, 222 back toward the pick face, repeating the cycle of deactivation and activation of the motors 101, 201 described above.
As stacks of carton blanks continue to be fed into the apparatus and blanks continue to be picked off by arm 13, the motors 101, 201 cycle on and off as necessary to maintain the supply of blanks at the pick face under the desired predetermined pressure. The cycling of the motors may also involve one motor operating while the other does not, as described above, in order to differentially feed one side or the other of the blanks toward the pick face as may be necessary in order to keep them perpendicular to the feed direction and square to the pick face.
The present carton blank feeding system can maintain a large enough stack of carton blanks to enable operation of packaging and/or folder/gluer machinery downstream of the feeding system at higher rates of speed than conventional carton blank feeders. The present carton feeding system is adapted to receive a succession of stacks of carton blanks which are up to at least approximately 12-18 inches thick, thus enabling significantly faster operation of the folder/gluer or other packaging equipment with an uninterrupted supply of carton blanks.
While a preferred embodiment of the invention has been described above, it is recognized that variations may be made with respect to features and components of the invention. Therefore, while the invention has been disclosed in preferred form only, it will be obvious to those skilled in the art that many additions, deletions, and modifications can be made therein without departing from the spirit and scope of this invention, and that no undue limits should be imposed thereon except as set forth in the following claims.
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20060197272 A1 | Sep 2006 | US |