The present invention relates to a threading device and, more particularly, relates to a device for threading a web through a series of rollers in a stretch wrapping apparatus.
During the past two decades, considerable developments have been made in the field of wrapping a load with a stretched web of film. Most notably, the film web dispenser used in stretch wrapping operations has developed to the extent that it contains a series of rollers which defines a path through which the web passes so that it can be prestretched prior to being dispensed on the load.
Such stretch wrapping apparatus performs admirably in accomplishing its intended goal of wrapping a load with a stretched web of film. However, the procedure of threading the film web through the series of rollers in the film web dispenser prior to operation of the stretch wrapping apparatus has been found to be time consuming and difficult. This is especially true now because of the development of film web dispensers having increased numbers of rollers and also because such rollers are often closely spaced and difficult to turn because of their effective interconnection for prestretching the film web prior to dispensing the film web on the load.
One aspect of the present invention is a film dispenser of a stretch wrap machine. The film dispenser includes a stretching device having a support structure and a film support for rotatably holding a roll of stretchable film. First and second rollers are rotatably mounted to the support structure, each of which defines a first end. The film dispenser includes a take-off device for supporting film as it is fed from the stretching device. A power drive assembly includes a motor, and the power drive assembly is configured to rotate the first and second rollers to stretch a film between the rollers. The film dispenser further includes an elongated flexible member forming a loop and having a connector adapted for securing stretchable film. A guide assembly adjacent the first ends of the first and second rollers movably supports the elongated flexible member to guide stretchable film through the film dispenser. The power drive assembly includes a disengagable drive that is operably coupled to the elongated flexible member to provide powered movement of the elongated flexible member. The drive member is disengagable from the motor such that the first and second rollers can be rotated under power while the elongated flexible member is disengaged from the motor. The film dispenser may be utilized with wrapping machines having a rotatable turntable. Alternately, the stretching device may be utilized with wrapping machines of the type having an arm that rotates the film dispenser about packages to wrap the film. The elongated flexible member may comprise a chain, and the guide assembly may include a plurality of sprockets. The film dispenser may include a tensioning device that tensions the chain.
These and other features, advantages, and objects of the present invention will be further understood and appreciated by those skilled in the art by reference to the following specification, claims, and appended drawings.
For purposes of description herein, the terms “upper,” “lower,” “right,” “left,” “rear,” “front,” “vertical,” “horizontal,” and derivatives thereof shall relate to the invention as oriented in
The reference number 10 (
In the illustrated example, the carriage 18 (
The carriage 18 includes a housing 28 having a top plate 30, a bottom plate 32 and a plurality of struts 34 connected to the top plate 30 and the bottom plate 32, thereby providing a rigid structure to the carriage 18. The housing 28 can be moved vertically within the column 16 by many methods, all of which are well known to those skilled in the art. The carriage 18 also includes a source of power connected thereto in a manner well known to those skilled in the art.
The illustrated carriage 18 includes an S-wrap roller system 36 for prestretching the stretch wrap 20 coming from the roll 26 of stretch wrap 20. The S-wrap roller system 36 includes a first roller 38 and a second roller 40 extending between the top plate 30 and the bottom plate 32 of the housing 28. The first roller 38 preferably has a 3-inch diameter and the second roller 40 preferably has a 4-inch diameter. The S-wrap roller system 36 includes a motor 70 connected to the second roller 40 by means of a sprocket 72 on an output shaft 82 of the motor 70, a chain 76 and a sprocket 74 on a lower axle 84 of the second roller 40. The first roller 38 is linked to the second roller 40 by a second gear 80 on the upper axle 88 of the first roller 38 and by a first gear 78 on an upper axle 86 of the second roller 40. The first gear 78 on the upper axle 86 of the second roller 40 is smaller than the second gear 80 on the upper axle 88 of the first roller 38. Accordingly, the first roller 38 and the second roller 40 rotate at different speeds, with the first roller 38 rotating slower than the second roller 40. Therefore, as the stretch wrap 20 moves through the first roller 38 and the second roller 40 of the S-wrap roller system 36, the stretch wrap 20 stretches in a manner that is well known to those skilled in the art.
In the illustrated example, the stretch wrap 20 on the roll 26 is delivered through the carriage 18 and out the vertical slot 22 in the column 16 to wrap the package 24. The roll 26 of stretch wrap 20 is positioned on a mandrel 42 within the housing 28 of the carriage 18. The stretch wrap 20 departs the roll 26 and moves around the first roller 38 and the second roller 40 of the S-wrap roller system 36, around a third roller 44 and out between a pair of film take-off rollers 46. The pair of take-off rollers 46 extends out the column 16 through the vertical slot 22.
The illustrated carriage 18 includes a film delivery system 48 for moving a front end of the stretch wrap 20 through the carriage 18 when a new roll 26 of stretch wrap 20 is placed on the carriage 18. The film delivery system 48 includes a threading chain 50 having a pair of film delivery hooks 52 thereon for pulling the front end of the stretch wrap 20 through the carriage 18. The threading chain 50 rides on a first sprocket 52, a second sprocket 54 aligned with the second roller 40, a third sprocket 56, a fourth sprocket 58 aligned with the third roller 44, a fifth sprocket 60 located between the pair of take-off rollers 46, a sixth sprocket 62 and a seventh sprocket 63.
The stretch wrap 20 is fed through the carriage 18 by the film delivery system 48 when the roll 26 of stretch wrap 20 is empty. Once the roll 26 is empty, a user of the wrap machine 10 presses a button (not shown) that tells a control system of the wrap machine 10 to move the carriage 18 to a load position. The load position is preferably a centrally located height of the column 16. Once the carriage 18 is in the load position, a rear door (not shown) of the column 16 is opened to thereby provide access to the carriage 18. Once the rear door is opened, the mandrel 42 is swung out of a position between the top plate 30 and the bottom plate 32 of the housing 28. A link 64 is pivotally connected to the bottom plate 32 and includes the mandrel 42 thereon, thereby allowing the mandrel 42 to be swung out of the carriage 18. The front end of the stretch wrap 20 is then roped and placed on the film delivery hook 52 located between the first sprocket 52 and the seventh sprocket 63. The mandrel 42 is swung back into position in the carriage 18 once a new roll 26 of stretch wrap 20 is placed on the mandrel 42 (in phantom in
Once the mandrel 42 is swung back on the carriage 18, the rear door is closed and the wrap machine 10 is in thread mode. The wrap machine 10 can be placed into thread mode automatically when the rear door is closed or the button can be pressed to place the wrap machine 10 in thread mode. To begin threading the stretch wrap 20 through the carriage 18 using the film delivery system 48, the tension control of the motor of the S-wrap roller system 36 is disengaged. However, the motor of the S-wrap roller system 36 is engaged at a low speed to turn the second roller 40. Simultaneous with the rotation of the second roller 40, a clutch 66 at the top of the second roller 40 is engaged to thereby rotate the second sprocket 54 of the film delivery system 48 with rotation of the second roller 40. The clutch 66 is preferably electromagnetically controlled and idles on the second roller 40 when the clutch 66 is not activated. Accordingly, as the second sprocket 54 is rotated, the threading chain 50 will pull the front end of the stretch wrap 20 about the first roller 38, the second roller 40, the third roller 44 and position the front end of the stretch wrap 20 under the fifth sprocket 60 and between the pair of take-off rollers 46. The front end of the stretch wrap 20 can thereafter be pulled from the position between the pair of take-off rollers 46 and attached to the package being wrapped or placed into position on grippers of the gripping and cutting device to begin the process of wrapping the package 24. The film delivery system 48 preferably includes a sensor 68 for counting teeth of the third sprocket 56 to determine the position of the film delivery hook 52 carrying the front end of the stretch wrap 20. The sensor 68 counts the number of teeth of the third sprocket 56 and signals the control system to stop the threading chain 50 after the number of teeth passing the sensor 68 is equal to the number of teeth required to pass the sensor 68 to move the film delivery hook 52 from the load position to a position between the pair of take-off rollers 46. The sensor 68 thereby stops the threading chain 50 when the front end of the stretch wrap 20 is in position to be removed from the carriage 18. At this point, the clutch 66 is disengaged and the wrap machine 10 is ready to be used in a manner known to those skilled in the art. Therefore, the wrap machine 10 of the current invention provides both a feed for threading the stretch wrap 20 through the carriage 18 and for prestretching of the stretch wrap 20 using only one motor, the motor previously used only for prestretching.
With further reference to
It will be readily understood that the S-wrap roller system 36 described above is only one o the stretcher configurations that may utilize the threader of the present invention. For example, known stretchers may have a W-wrap roller system, with a relatively large stretch roller at each lower “point” of the W pattern, and nip rollers at each upper end and the center “point” of the W pattern. The two stretch rollers of W-wrap systems are driven in the same rotational direction. The two stretch rollers may be driven at different rotational rates, and may have different diameters to stretch the film. When a W-wrap pattern is utilized, the electromagnetic clutch is operably connected to one of the stretch rollers, and sprockets are positioned at the ends of each roller to guide the chain and from a W pattern for threading of the film.
In the foregoing description, it will be readily appreciated by those skilled in the art that modifications may be made to the invention without departing from the concepts disclosed herein. Such modifications are to be considered as included in the following claims, unless these claims by their language expressly state otherwise.
This application claims the benefit of U.S. Provisional Application No. 60/448,215, filed Feb. 18, 2003, the entire contents of which are hereby incorporated herein by reference.
Number | Name | Date | Kind |
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2952371 | Smith | Sep 1960 | A |
4712686 | Lancaster et al. | Dec 1987 | A |
5352320 | Schwartz et al. | Oct 1994 | A |
5491956 | Donnelly et al. | Feb 1996 | A |
5575138 | Reigrut et al. | Nov 1996 | A |
5768862 | Mauro | Jun 1998 | A |
5836140 | Lancaster, III | Nov 1998 | A |
Number | Date | Country | |
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20040163364 A1 | Aug 2004 | US |
Number | Date | Country | |
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60448215 | Feb 2003 | US |