Comforter closer apparatus

Information

  • Patent Grant
  • 6722300
  • Patent Number
    6,722,300
  • Date Filed
    Tuesday, February 12, 2002
    22 years ago
  • Date Issued
    Tuesday, April 20, 2004
    20 years ago
Abstract
An apparatus for closing an open side of a fabric article from a first end to a second end. The apparatus may include a gripping device for gripping the first end and the second end of the open side of the fabric article and then tensioning the open side. The apparatus also may include a closing device positioned adjacent to the gripping device such that the closing device maneuvers along the fabric article to fasten the open side from the first end to the second end.
Description




TECHNICAL FIELD




The present invention relates to automated textile manufacturing equipment and more particularly relates to an automated apparatus for closing and/or hemming a comforter or a similar type of textile product in a high speed and high quality manner.




BACKGROUND OF THE INVENTION




A bedding accessory known as a comforter generally includes an amount of batting placed within a fabric enclosure. A comforter generally has been manufactured, at least in part, in a manual process. By way of example in

FIG. 1

, a comforter


10


may be manufactured by sewing a comforter bag


11


inside out on three sides


12


,


13


,


14


; the comforter bag


11


may then be turned right side out; an amount of batting


20


may be inserted therein; and a remaining side


15


may be hemmed in a manual process.




Most quality comforters, however, generally require what is known as a “French hem” or other types of specialty hems. To manufacture such a French hem, both layers of the comforter are folded in and then the hem is sewn. An example of a French hem is shown in FIG.


2


. As is shown, an edge


30


of a top layer of fabric


40


is folded downward while an edge


50


of a bottom layer of fabric


60


is folded upwards. The two edges


30


,


50


are aligned and a hem


70


is applied from a first end


80


to a second end


90


of the open side


15


. In the manual hemming process, however, it is often difficult to maintain both layers


40


,


60


with an even fold along the length of the open side


15


.




A further issue is the fact that a quality comforter


10


generally requires that the batting


20


extend all the way to the hem


70


. A comforter


10


with an empty space adjacent to the hem


70


generally may not be acceptable to consumers. The placement of the batting


20


along the edges


30


,


50


, however, often complicates the hemming process. Such a manufacturing process thus may be time intensive.




What is desired, therefore, is a method and apparatus to speed the comforter closing process. The comforter should be closed and hemmed in a high speed and high quality manner.




SUMMARY OF THE INVENTION




The present invention thus provides an apparatus for closing an open side of a fabric article from a first end to a second end. The apparatus may include a gripping device for gripping the first end and the second end of the open side of the fabric article and then tensioning the open side. The apparatus also may include a closing device positioned adjacent to the gripping device such that the closing device maneuvers along the fabric article to fasten the open side from the first end to the second end.




Specific embodiments of the present invention may include the use of one or more guide rails associated with the closing device such that the closing device may maneuver along the guide rails. The apparatus also may include a drive system associated with the closing device. The drive system may include one or more drive belts so as to maneuver the closing device along the guide rails. The closing device may include a closing device frame. The frame may be positioned on the guide rails for movement thereon. An amount of batting may extend out of the open side of the fabric article. The closing device may include a pusher device so as to push the amount of the batting within the open side of the fabric article. The pusher device may include a reciprocating plunger. If the fabric article includes a first layer with a folded edge and a second layer with a folded edge, the pusher device may include a pair of edge guides for maintaining the folded edge of the first layer and the folded edge of the second layer in alignment. The apparatus also may include a cutting device positioned adjacent to the gripping device so as to cut any excess batting from the first end to the second end of the open side.




If the fabric article includes a first layer with a folded edge and a second layer with a folded edge, the closing device may include a tensioning device. The tension device may include a harpoon with a number of extensions. The tensioning device may include a tensioning drive so as to insert the harpoon between the first layer and the second layer, rotate the harpoon such that the extensions engage the folded edge of the first layer and the folded edge of the second layer, and then retract the harpoon by about a predetermined distance so as to tension the folded edge of the first layer and the folded edge of the second layer.




The closing device may include an edge guide. The edge guide may include a number of U-shaped compartments. The closing device also may include a fastening device. The fastening device may include a sewing head. The apparatus also may include a proximity device associated with the closing device so as to determine the position of the closing device along the gripping device.




The gripping apparatus may include a first edge gripper positioned to accommodate the first end of the fabric article and a second edge gripper positioned to accommodate the second end of the fabric article. The gripping apparatus may include a gripper drive so as to maneuver the first edge gripper and/or the second edge gripper with respect to each other. The first edge gripper and the second edge gripper may include a pin assembly. The pin assembly may include an insertion pin for entry into the first end and the second end of the open side of the fabric article. The pin assembly may include a rotating arm driven by a pin drive. The first edge gripper and the second edge gripper also may include a clamping mechanism for clamping the first end and the second end of the fabric article. The clamping mechanism may include a number of jaws. The clamping mechanism may include a clamping drive such that one or more of the jaws may rotate.




The apparatus also may have a number of the gripping devices, including a first pair and a second pair. The apparatus may include an edge gripper track to as to maneuver the gripping devices between a loading station and a fastening station. The apparatus also may have a removal mechanism positioned about the fastening station.




A further embodiment of the present invention may provide for an apparatus for closing a fabric article. The fabric article may have a first layer with a folded edge and a second layer with a folded edge. The apparatus may include a tensioning device positioned along a predetermined path. The tension device may include a harpoon. The harpoon may include a number of prongs. The tensioning device may include a tensioning drive such that the tensioning drive inserts the harpoon between the first layer and the second layer, rotates the harpoon such that the prongs engage the folded edge of the first layer and the folded edge of the second layer, and then retracts the harpoon by about a predetermined distance so as to tension the folded edge of the first layer and the folded edge of the second layer. The apparatus also may include a fastening device positioned along the predetermined path. The fastening device fastens the folded edge of the first layer with the folded edge of the second layer.




The apparatus also may include an edge guide positioned along the predetermined path between the tensioning device and the fastening device. The edge guide may include a number of U-shaped compartments. The fastening device may include a sewing head so as to stitch the folded edge of the first layer with the folded edge of the second layer.




The method of the present invention may provide for closing an open side of a fabric article. The fabric article may have a first layer and a second layer. The method may include the steps of folding the first layer to form a first folded edge, folding the second layer to form a second folded edge, aligning the first folded edge and the second folded edge, passing a tensioning guide along the open side to keep the first folded edge and the second folded edge in alignment, and passing a fastening device along the open side to close the open side along the first folded edge and the second folded edge. The fabric article may include an amount of batting therein. The method further may include the step of adding additional batting prior to the step of passing the fastening device along the open side and the step of shaking the fabric article to position the batting therein.




Other features of the present invention will become apparent upon review of the following specification when taken in conjunction with the drawings and the appended claims.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a perspective view of a comforter with an open side and an amount of excess batting.





FIG. 2

is a side cross-sectional view of a comforter with a French hem.





FIG. 3

is a perspective view of a comforter closer apparatus of the present invention.





FIG. 4

is a further perspective view of the comforter closer apparatus of FIG.


3


.





FIG. 5

is a perspective view of the hemming device of the comforter closer apparatus of FIG.


3


.





FIG. 6

is a further perspective view of the hemming device of the comforter closer apparatus of FIG.


5


.





FIG. 7

is a perspective view of a plunger of the hemming device of FIG.


5


.





FIG. 8

is a perspective view of a harpoon of the hemming device of FIG.


5


.





FIG. 9

is a perspective view of an edge guide of the hemming device of FIG.


5


.





FIG. 10

is a perspective view of the cutting device of the comforter closer apparatus of FIG.


3


.





FIG. 11

is a perspective view of an edge gripper of the gripping device for the comforter closer apparatus of FIG.


3


.





FIG. 12

is a further perspective view of an edge gripper of the gripping device for the comforter closer apparatus of FIG.


3


.





FIG. 13

is a perspective view of an alternative embodiment of the comforter closer apparatus of the present invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS OF THE INVENTION




Referring now to the drawings, in which like numerals refer to like parts throughout the several views,

FIGS. 3 and 4

show a comforter closing apparatus


100


of the present invention. Although the term “comforter”


10


is used herein, it is understood that the closer


100


can hem any type of textile product. For example, the closer


100


also may be used with sleeping bags, pillows, bedspreads, duvets, or similar types of products.




The various stations of the comforter closer apparatus


100


may be set, monitored, and controlled by a Programmable Logic Controller (“PLC”)


105


such as the 90-30 PLC sold by the General Electric Company of Fairfield, Conn. Alternatively, a personal computer, such as a conventional IBM-compatible computer with the Pentium® microprocessor sold by Intel Corporation of Santa Clara, Calif. or its equivalent may be used, or other types of conventional control devices.




The comforter closer apparatus


100


may include an assembly frame


110


. The frame


110


may include any number of brackets


120


or other types of rigid members. The frame


110


may have any desired size or dimension. The frame


110


may be made out of steel or other types of substantially rigid materials. The frame


110


may include a number of guide rails


125


. Two of the guide rails


125


may be positioned on the brackets


120


in a substantially parallel arrangement. The guide rails


125


may be made out of steel or other types of substantially rigid materials. The frame


110


may be supported by a number of footings


130


.




Positioned on the frame


110


may be a drive device


140


. The drive device


140


may be a belt driven system with a first drive belt


150


and a second drive belt


160


. The drive belts


150


,


160


may be positioned about and largely follow the guide rails


125


. The drive belts


150


,


160


may be mounted on a number of pulley wheels


170


for movement thereon. One set of the pulley wheels


175


may be connected by a drive shaft


180


. Another one of the pulley wheels


176


also may be positioned on the drive shaft


180


and driven by a third drive belt


190


. The third drive belt


190


may be driven by a pulley motor


200


. The pulley motor


200


may be a conventional AC, DC, or servo-type motor with about one-half (0.5) to about two (2) horsepower. The pulley motor


200


thus may drive the drive belts


150


,


160


via the third drive belt


190


, the drive shaft


180


, and the pulley wheel


175


. The driven belts


150


,


160


,


190


may be cogged timing belting, chain, steel lined belting, or similar types of drive means. Although three drive belts


150


,


160


,


190


have been described herein, any number or configuration of the drive belts may be used herein.




Positioned on top of the frame


110


for movement by the drive device


140


may be a hemming device


210


. The hemming device


210


may include a hemming frame


220


. The hemming frame


220


may be made out of steel, extruded aluminum, or similar types of substantially rigid materials. The hemming frame


220


may have a number of rail guides


230


positioned thereon. The rail guides


230


may be sized to accommodate the guide rails


125


. The frame


220


also may have a number of drive belt guides


240


positioned thereon. The drive belt guides


240


may accommodate the drive belts


150


,


160


such that the hemming frame


220


may maneuver laterally along the guide rails


125


of the frame


110


as pulled by the drive belts


150


,


160


of the drive system


140


.




As is shown in

FIGS. 5 and 6

, the hemming device


210


may include a pusher device


250


. The pusher device


250


may be mounted onto the hemming frame


220


. The pusher device


250


may push or force any excess batting


20


that may extend beyond the edges


30


,


50


of the fabric layers


40


,


60


back into the comforter


10


before the hem


70


is sewn. The pusher device


250


may include a pusher head


260


. The pusher head


260


may include an upper edge guide


270


and a lower edge guide


280


. The edge guides


270


,


280


may be substantially U-shaped so as to maintain the edges


30


,


50


of the fabric layers


40


,


60


in a proper fold. The edge guides


270


,


280


may be made out of a metal or other types of substantially rigid materials.




A plunger


290


may be positioned between the edge guides


270


,


280


. The plunger


290


may have any convenient size or shape. As is shown in

FIG. 7

, the plunger


290


preferably has a blunt face


300


and a tapered body


305


so as to fit between the edge guides


270


,


280


. The plunger


290


may travel in a reciprocating manner towards and away from the fabric layers


40


,


60


. The plunger


290


may be maneuvered by a plunger drive


310


. The plunger drive


310


may include a conventional piston driven by an air cylinder. The plunger drive


310


may operate at about thirty (30) to about eighty (80) pounds per square inch. Alternatively, the plunger drive


310


may include a conventional solenoid, a linear servo, oscillating mechanisms, belts, various types of screw drive means, and other types of drive means. As is described below, the pusher device


250


may operate as a separate unit independent of the hemming device


210


.




Alternatively to the use of the plunger


290


, the pusher device


250


also may include a forced air device. The forced air device may blow the batting


20


within the fabric layers


40


,


60


. The pusher device


250


also may include any other type of means so as to force the batting


20


into place. For example, multistage pushing devices, devices for stretching and releasing of the comforter


10


, rotating brushes, high pressure and high velocity air devices, rollers, and belts also may be used. The pusher device


250


may not be required if the batting


20


is already properly positioned within the fabric layers


40


,


60


.




The pusher device


250


also may include a pusher drive


320


. The pusher drive


320


may be positioned on the hemming frame


220


. The pusher drive


320


also may include a conventional piston driven by an air cylinder, a linear servo, belt driven mechanisms, an electronic solenoid, or similar types of drive means. The pusher drive


320


may operate with about thirty (30) to about eighty (80) pounds per square inch. The pusher drive


320


may maneuver the pusher head


260


about the hemming frame


220


as desired. Operation of the plunger


290


, the pusher drive


320


, and the pusher device


250


as a whole may be controlled by the controller


105


.




The hemming device


210


may include a tensioning device


330


. The tension device


330


may be positioned on the frame


220


adjacent to or near by the pusher device


250


. The tensioning device


330


may include a harpoon


340


. As is shown in

FIG. 8

, the harpoon


340


may have a number of prongs


350


that are spaced apart from a central shaft


360


. The harpoon


340


may be made out of stainless steel, cast metal, plastics, ceramics, or similar types of substantially rigid materials. The harpoon


340


may be powered for reciprocating and rotational motion by a tensioning drive


370


. The tensioning drive


370


may include a conventional piston driven by an air cylinder. Alternatively, solenoids, servos, stepper motors, screws, belt drives, or similar types of drive means may be used. The tensioning drive


370


may operate with about twenty (20 to about eighty (80) pounds per square inch. Rotational movement for the harpoon


340


may be provided by a pneumatic or electrical rotary actuator, an AC, DC, or servo motor, a stepper motor, or similar types of drive means.




The harpoon


340


may rotate such that its prongs


350


are largely horizontal and then be advanced by the tensioning drive


370


between the layers of the fabric


40


,


60


. Once the prongs


350


clear the edges


30


,


50


, the harpoon


340


may be rotated by about ninety degrees (90°) or so and retract slightly such that the prongs


350


are positioned within the folds along the edges


30


,


50


of the fabric layers


40


,


60


. The tensioning device


330


thus keeps the folds along the edges


30


,


50


of the fabric layers


40


,


60


slightly tensioned and in proper alignment. In other words, the tensioning device


330


slightly “pulls” on the fabric layers


40


,


60


.




The harpoon


340


also may be removed in the same manner. Specifically, the tensioning drive


370


may advance the harpoon


340


such that the prongs


350


clear the edges


30


,


50


of the layers of the fabric


40


,


60


. The harpoon


340


again may rotate by about ninety degrees (90°) or so to the substantially horizontal position. The tensioning drive


370


then may withdraw the harpoon


340


. Operation of the tensioning device


330


may be controlled by the control


105


.




The hemming device


210


may include an edge guide


380


. The edge guide


380


may be positioned on the hemming frame


220


adjacent to or near by the tensioning device


330


. As is shown in

FIG. 9

, the edge guide


380


may have two (2) U-shaped compartments


390


so as to maintain the folds in the edges


30


,


50


of the fabric layers


40


,


60


in place. The edge guide


380


may be positioned relative to the tensioning device


330


such that the edge guide


380


“pushes” on the edges


30


,


50


of the fabric layers


40


,


60


while the tensioning device


330


pulls the edges


30


,


50


so as to keep the edges


30


,


50


properly aligned and in tension. The edge guide


380


may be made out of stainless steel, plastics, cast metals, ceramics, or similar types of substantially rigid materials.




The hemming device


210


may include a fastening device


400


. The fastening device


400


may be positioned on the hemming frame


220


adjacent to or near by the edge guide


380


. The fastening device


400


may be a sewing head


405


so as to sew the hem


70


into the fabric layers


40


,


60


. For example, a Pfaff brand or a Juki brand sewing head or similar type of sewing head may be employed. Further, more than one type of sewing head


405


or fastening device


400


may be employed so as to provide versatility in accommodating various types of materials or speeds. For example, the sewing head


405


may be a lock stitch head with a bobbin or a chain stitch head with no bobbin. The lock stitch head provides a uniform stitch that may not unravel. The chain stitch head, however, may be significantly faster.




Although the fastening device


400


has been described in terms of a sewing head


405


, any other type of fastening means may be used. For example, the fastening device


400


may use ultrasonics, glue, hot air bonding, pressure, and other methods known to those skilled in the art so as to fasten the fabric layers


40


,


60


.




The sewing head


405


or other type of fastening device


400


may be belt driven via a fastening device drive


410


. The fastening device drive


410


may be a 1½ horsepower electrical motor, a servo motor, a stepper motor, or a similar type of drive means. Operation of the fastening device


400


and the fastening device drive


410


may be controlled by the controller


105


.




The hemming device


210


may include a proximity device


411


. The proximity device


411


may include a sensor


412


positioned on the hemming frame


220


and a proximity marker


413


positioned on the frame


110


or adjacent thereto. Alternatively, the relative positions could be reversed. The proximity device


411


may be in communication with the controller


105


so as to inform the controller


105


when the hemming frame


220


has reached the proximity marker


413


. The proximity device


411


may use a mechanical system in which the proximity sensor


412


and the proximity marker


413


come into physical contact with one another. Alternatively, the proximity device


411


may use light-based devices, magnetics, or similar types of techniques.




In addition to the proximity device


411


, the location of the hemming device


210


may be controlled by active position monitoring through the use of a position encoder, potentiometer, or other types of position monitoring devices. Position tracking also may be accomplished by using a stepper or servo motor and keeping track of the number of steps. This method thus may provide position control without the use of the proximity device.




Positioned next to the hemming frame


220


may be a cutting frame


420


. The cutting frame


420


may be substantially identical to the hemming frame


220


in terms of materials and construction. The cutting frame


420


may have any convenient size. The cutting frame


420


may be positioned on the frame


110


and be maneuvered along the guide rails


125


by the drive system


140


. The cutting frame


220


and hemming frame


420


may be fixedly attached thereto or they may be separate structures.




As is shown in

FIG. 10

, positioned on the cutting frame


420


may be a cutting device


430


. Alternatively, the cutting device


430


may be positioned on the hemming frame


220


. Alternatively, the cutting device


430


may be positioned on another frame remote from the hemming device


210


and the assembly frame


110


. The cutting device


430


may include a cutting wheel


440


driven by a cutting head motor


450


. The cutting wheel


440


may be a conventional circular cutting wheel. The cutting wheel


440


may be belt driven or otherwise driven via the cutting head motor


450


. The cutting head motor


450


may be a conventional electrical motor with about one-half (0.5) to about two (2) horsepower or a similar type of device. Operation of the cutting device


430


may be controlled by the controller


105


. The cutting device


430


and the cutting frame


420


may be pushed along the guide rails


125


by the hemming device


210


or they may be pulled by the drive device


140


. Alternatively, the cutting device


430


may maneuver by its own drive system.




As is shown in

FIGS. 3

,


11


, and


12


, positioned adjacent to the frame


110


may be a gripper assembly


500


. The gripper assembly


500


may include a gripper assembly frame


510


. The gripper assembly frame


510


may be similar to the frame


110


described above in terms of materials and construction. The gripper assembly frame


510


may have any convenient size or dimension. The gripper assembly frame


510


and the frame


110


may be fixedly attached to one another.




As is shown in

FIGS. 11 and 12

, the gripper assembly


500


may include a first edge gripper


520


and a second edge gripper


530


. The edge grippers


520


,


530


may be positioned on the gripper frame


510


. One of the edge grippers


520


,


530


may be stationary while the other may be capable of lateral movement along the gripper assembly frame


510


. One or both of the gripper assemblies


520


,


530


may be maneuverable via a gripper drive


540


. The gripper drive


540


may be an air cylinder, an AC or DC motor, a belt drive, a servo or stepper motor, a solenoid, or a similar type of drive means. The gripper drive


540


may be mounted on the gripper frame


510


. The gripper drive


540


may operate at about twenty (20) to about eighty (80) pounds per square inch.




Each edge gripper


520


,


530


may include an edge gripper plate


545


. Each edge gripper plate


545


may be positioned on the gripper assembly frame


510


and may be stationary or movable as described above. The edge gripper plates


545


may be made out of metal, plastic, wood, or other type of substantially rigid materials. Each edge gripper


520


,


530


also may have a pin assembly


550


. Each pin assembly


550


may include an insertion pin


560


positioned on a rotating arm


570


. The insertion pin


560


may be an elongated shaft or a similar type of structure. The rotating arm


570


may be positioned on the gripper plate


545


via a pivot


575


. The pin assembly


550


and the rotating arm


570


may be made out of metal, plastic, or other types of substantially rigid materials.




The pin assembly


550


also may include a pin drive


580


so as to push the rotating arm


570


back and forth as desired. The pin drive


580


may include a conventional piston driven by an air cylinder, a solenoid, a rotary actuator, or a similar type of drive means. The pin drive


580


may operate with about ten (10) to about thirty (30) pounds per square inch. The insertion pin


560


of the pin assembly


550


may swing forward so as to catch the edges


80


,


90


of the open side


15


of the comforter


10


. Alternatively, the pin assembly


550


may be manually operated or partially manually operated such that the user inserts the insertion pin


560


into the comforter


10


while the pin drive


580


removes the insertion pin


560


from the comforter


10


. Operation of the pin assembly


550


may be controlled by the controller


105


.




The edge grippers


520


,


530


also may have a clamping mechanism


600


. The clamping mechanism


600


may be positioned adjacent to the pin assembly


550


on the gripper plate


545


. The clamping mechanism


600


may include a set of jaws


610


. One of the jaws


610


may be stationary while the other one may rotate. Alternatively, both jaws


610


may be maneuverable. The jaws


610


may rotate via a clamping drive


620


. The clamping drive


620


may be an air cylinder, a solenoid, a rotary actuator, or a similar type of device. The clamping drive


620


may operate the jaws


610


at about thirty (30) to about sixty (60) pounds per square inch. Operation of the clamping mechanism


600


may be controlled by the controller


105


. Once the pin assembly


550


catches the edges


80


,


90


of the open side


15


of the comforter


10


, one of the edge grippers


520


,


530


may then tension the open side


15


of the comforter


10


by extending laterally along the frame


510


. The clamping mechanism


600


may then clamp the open end


15


in place.




The gripper assembly


500


may include a proximity device


541


. The proximity device


541


may include a sensor


542


positioned on one the gripper plates


545


and a proximity marker


543


positioned on the gripper frame


510


or adjacent thereto. Alternatively, the relative positions could be reversed. The proximity device


541


may be identical to the proximity device


411


described above.




The gripper assembly


500


also may include a moveable bar


650


. The bar


650


may extend the length of the gripper assembly frame


510


and may be attached thereto. The bar


650


may be made out of metal such as extruded aluminum, wood, plastics, or other types of substantially rigid materials. The bar


650


may be operated by a bar drive


660


. The bar drive


660


may be a conventional air cylinder or a similar type of device. The bar drive


660


may operate at about thirty (30) to sixty (60) pounds per square inch. The bar


650


may maneuver up and down so as to support the comforter


10


as needed in cooperation of the cutting head


430


. Operation of the bar drive


660


may be controlled by the controller


105


.




A support table


670


or other type of support structure may be positioned adjacent to the gripper frame


510


and other wise adjacent to the assembly frame


610


. The support table


670


may be used to support the comforter


10


as will be described in more detail below.




In use, the edges


30


,


50


of the fabric layers


40


,


60


of the open end


15


of the comforter


10


may be folded over to form a French hem. The comforter


10


may then be positioned on the support table


670


adjacent to the gripper assembly


500


. Specifically, the first end


80


of the comforter


10


may be positioned adjacent to the first edge gripper


520


while the second edge


90


may be positioned adjacent to the second edge gripper


530


. The comforter closer apparatus


100


may then be activated. The controller


105


may activate the pin assemblies


550


such that the insertion pins


560


may catch the edges


80


,


90


of the open end


15


. Alternatively, the insertion pins


560


may be manually inserted. If the first edge gripper


520


is stationary, the second edge gripper


530


may maneuver laterally a slight distance so as to tension the open end


15


. The distance moved by the second edge gripper


530


may be controlled by the proximity device


541


. The distance may be determined by the controller


105


so as to provide a predetermine amount of tension. Once the open edge


15


is properly tensioned, the clamping mechanism


600


may clamp both edges


80


,


90


of the comforter


10


. The open end


15


is then firmly held in place within the gripper assembly


500


.




The hemming device


210


and the cutting device


430


may then be operated by the controller


105


. The cutting device


430


may be used if an excess amount of the batting


20


extends beyond the edges


30


,


50


of the fabric layers


40


,


60


. The wheel


440


of the cutting device


430


may travel along the length of the frame


110


and/or the moveable bar


650


such that only a pre-determined amount of the batting


20


may be left extending over the edges


30


,


50


. For example, about an inch or so of the batting


20


may remain. The extra batting


20


may simply drop off of the frame


110


or a suction device may accompany the cutting device


430


.




The controller


105


may then direct the drive system


140


to position the hemming device


210


at the appropriate location adjacent to the first end


80


of the open end


15


of the comforter


10


. The hemming device


210


may be driven by the drive system


140


at a predetermined speed along the guide rails


125


.




The pusher device


520


may then be maneuvered into place adjacent to the open end


15


via the pusher drive


320


. Once in place, the plunger


290


may act in a reciprocating motion to push the batting


20


a pre-determined distance within the edges


30


,


50


of the open end


15


. Although the batting


20


may tend to be somewhat elastic and bounce back towards the open end


15


, the hemming device


210


moves with sufficient speed between the pusher device


520


and the fastening device


400


such that the open end


15


may be fastened before the batting


20


may interfere with the fastening process.




The tensioning device


330


may then be activated. The harpoon


340


may be extended by the tensioning drive


370


so as to pass between the edges


30


,


50


of the fabric layers


40


,


60


. The harpoon


340


then may be rotated by about ninety degrees (90°) such that the prongs


350


catch the folds in the edges


30


,


50


of the layers


40


,


60


. The harpoon


340


may then be retracted somewhat so as to pull on the folds in the edges


30


,


50


so as to maintain the layers


40


,


60


in alignment and under tension.




The edges


30


,


50


of the fabric layers


40


,


60


then may travel through the edge guide


380


. The edge guide


380


may be positioned such that the edge guide


380


“pushes” somewhat on the edges


30


,


50


while the tensioning device


330


“pulls” somewhat. The combination of the edge guide


380


and the tension device


330


thus maintains the edges


30


,


50


in proper alignment and tension as the edges


30


,


50


approach the fastening device


400


. The fastening device


400


then may join the layers


40


,


60


. In the present embodiment, the sewing head


405


sews the hem


70


into the edges


30


,


50


of the layers


40


,


60


.




Movement of the hemming device


210


may stop as the second edge


90


of the open end


15


of the comforter


10


is reached. The proximity device


411


may inform the controller


105


when the second edge


90


is approaching. As the second edge


90


approaches, the harpoon


340


again may be advanced within the open end


15


by the tensioning drive


370


so as to clear the edges


30


,


50


of the fabric layers


40


,


60


. The harpoon


340


may then be rotated and withdrawn from the open end


15


of the comforter


10


. Likewise, the pusher device


250


may be rotated out of the way via the pusher drive


320


. Once the fastening device


400


reaches the second edge


90


, the thread of the hem


70


may be cut via a sew head under-trimmer or other type of cutting device.




The controller


105


may then instruct the gripper assembly


500


to release the comforter


10


. The jaws


610


of the clamping mechanism


600


may be released and the insertion pin


560


of the pin assembly


550


may be rotated out of the way via the pin drive


580


. The comforter


10


may then be removed from the comforter closer


100


. The drive system


140


may then return the hemming device


210


to its original position. The comforter


10


may then be shaken to maneuver the batting


20


into proximity to the hem


70


. The comforter


10


may be shaken manually or a shaking device may be used to ensure that the batting


20


is positioned adjacent to the hem


70


. Alternatively, an amount of the batting


20


may be blown into the comforter


10


just prior to the hemming device


210


completing the hem


70


.




Although the comforter


10


and the gripper assembly


500


may be described as being stationary while the hemming device


210


has been described as moving about the frame


110


, the opposite also may be employed. In other words, the gripper assembly


500


and the comforter


10


may be maneuvered through a stationary hemming device


210


. The comforter closer


100


also may include a device to place and attach a label to the comforter


10


. The various components of the comforter closer


100


may be arranged in any desired order or position.





FIG. 13

shows an alternative embodiment of the present invention, a comforter closer


700


. Except as described below, the comforter closer


700


may be substantially identical to the comforter closer


100


described above. In this case, the comforter closer


700


may include an extended gripper shuttle


710


. The gripper shuttle


710


may be substantially identical to the frame


110


and may have any convenient size or shape.




Positioned on the gripper shuttle


710


may be two or more pairs of edge grippers, a first edge gripper pair


720


and a second edge gripper pair


730


. The edge gripper pairs


720


,


730


may be substantially identical to the edge grippers


520


,


530


described above. The edge gripper pairs


720


,


730


may be mounted for movement along an edge gripper track


740


. The edge gripper track


740


may be powered so as to maneuver the edge gripper pairs


720


,


730


from a loading station


750


to a hemming station


760


. As such, a first comforter


10


may be attached to the first edge gripper pair


720


adjacent to the loading station


750


while a second comforter


10


may be held in place by the second edge gripper pair


730


adjacent to the hemming station


760


.




The comforter closer


700


may use a hemming device


770


that may be substantially identical to the hemming device


210


described above. Likewise, the comforter closer


700


may use a cutting device


780


that may be substantially identical to the cutting device


430


described above. In this case, the cutting device


780


also may be mounted adjacent to the loading station


750


. Further, the comforter closer


700


may include a pusher device


790


mounted adjacent to the cutting device


780


. The pushing device


790


may be substantially identical to the pusher device


250


described above. The comforter closer


700


also may have an additional pushing device


790


that is part of the hemming device


770


in a manner similar to that described above. As is shown, the various components of the comforter closer


700


may be arranged in any desired order or position.




The comforter closer


700


may have a removal mechanism


800


so as to remove the comforter


10


from the hemming station


760


. In this case, the comforter closer


700


may include one or more take away grippers


810


so as to remove the comforter


10


from the hemming station


760


. Operation of the comforter closer


700


may be controlled by the controller


105


as described above.




In use, a first comforter


10


may be positioned within the first edge gripper pair


720


at the loading station


750


. Once the open end


15


of the comforter


10


is tensioned by the first edge gripper pair


720


, the cutting device


780


and the pushing device


790


may cut the batting


20


as described above and then push the remaining batting


20


within the open side


15


. The cutting device


780


and the pushing device


790


also may be positioned adjacent to the hemming station


760


. The first edge gripper pair


720


may then transport the comforter


10


along the edge gripper tracks


740


to the hemming station


760


. The hemming device


770


may then close the comforter


10


in the manner described above.




While the hemming device


770


is operating, a second comforter


10


may be loaded into the second edge gripper pair


730


at the loading station


750


. The cutting device


780


and the pushing device


790


may then operate as described above. The removal mechanism


800


may then remove the first comforter


10


from the loading station


750


. The second edge gripper pair


730


may then transport the second comforter


10


to the hemming station


760


as described above. The process may then be repeated.




It should be apparent that the foregoing relates only to the preferred embodiments of the present invention and that numerous changes and modifications may be herein without departing from the spirit and scope of the invention as defined by the following claims and equivalence thereof.



Claims
  • 1. An apparatus for closing an open side of a fabric article from a first end to a second end, said apparatus comprising:a gripping device for gripping the first end and the second end of the open side of the fabric article and tensioning the open side; and a closing device positioned adjacent to said gripping device such that said closing device maneuvers along said fabric article to fasten the open side from the first end to the second end.
  • 2. The apparatus of claim 1, further comprising one or more guide rails associated with said closing device such that said closing device may maneuver along said one or more guide rails.
  • 3. The apparatus of claim 2, further comprising a drive system associated with said closing device, said drive system comprising one or more drive belts so as to maneuver said closing device along said one or more guide rails.
  • 4. The apparatus of claim 2, wherein said closing device comprises a closing device frame, said frame positioned on said one or more guide rails for movement thereon.
  • 5. The apparatus of claim 1, wherein an amount of batting extends out of the open side of the fabric article and wherein said closing device comprises a pusher device so as to push the amount of batting within the open side of the fabric article.
  • 6. The apparatus of claim 5, wherein said pusher device comprises a reciprocating plunger.
  • 7. The apparatus of claim 6, wherein the fabric article includes a first layer with a folded edge and a second layer with a folded edge and wherein said pusher device comprises a pair of edge guides for maintaining the folded edge of the first layer and the folded edge of the second layer in alignment.
  • 8. The apparatus of claim 1, wherein an excess amount of batting extends out of the open side of the fabric article and wherein said apparatus further comprising a cutting device positioned adjacent to said gripping device such that said cutting device cuts the excess amount of batting from the first end to the second end of the open side.
  • 9. The apparatus of claim 1, wherein the fabric article includes a first layer with a folded edge and a second layer with a folded edge and wherein said closing device comprises a tensioning device.
  • 10. The apparatus of claim 9, wherein said tension device comprises a harpoon with a plurality of extensions.
  • 11. The apparatus of claim 10, wherein said tensioning device comprising a tensioning drive such that said tensioning drive inserts said harpoon between the first layer and the second layer, rotates said harpoon such that said plurality of extensions engages the folded edge of the first layer and the folded edge of the second layer, and retracts said harpoon by about a predetermined distance so as to tension the folded edge of the first layer and the folded edge of the second layer.
  • 12. The apparatus of claim 1, wherein said closing device comprises an edge guide.
  • 13. The apparatus of claim 12, wherein said edge guide comprises a plurality of U-shaped compartments.
  • 14. The apparatus of claim 1, wherein said closing device comprises a fastening device.
  • 15. The apparatus of claim 14, wherein said fastening device comprises a sewing head.
  • 16. The apparatus of claim 1, further comprising a proximity device associated with said closing device so as to determine a position of said closing device along said gripping device.
  • 17. The apparatus of claim 1, wherein said gripping device comprises a first edge gripper positioned to accommodate the first end of the fabric article and a second edge gripper positioned to accommodate the second end of the fabric article.
  • 18. The apparatus of claim 17, wherein said gripping device comprises a gripper drive so as to maneuver said first edge gripper and/or said second edge gripper with respect to each other.
  • 19. The apparatus of claim 17, wherein said first edge gripper and said second edge gripper comprises a pin assembly.
  • 20. The apparatus of claim 19, wherein said pin assembly comprises an insertion pin for entry into the first end and the second end of the open side of the fabric article.
  • 21. The apparatus of claim 20, wherein said pin assembly comprises a rotating arm driven by a pin drive.
  • 22. The apparatus of claim 17, wherein said first edge gripper and said second edge gripper comprise a clamping mechanism for clamping the first end and the second end of the fabric article.
  • 23. The apparatus of claim 22, wherein said clamping mechanism comprises a plurality of jaws.
  • 24. The apparatus of claim 23, wherein said clamping mechanism comprises a clamping drive such that one or more of said plurality of jaws may rotate.
  • 25. The apparatus of claim 1, further comprising a plurality of gripping devices.
  • 26. The apparatus of claim 25, wherein said plurality of gripping devices comprises a first pair of gripping devices and a second pair of gripping devices.
  • 27. The apparatus of claim 25, further comprising an edge gripper track to as to maneuver said plurality of gripping devices.
  • 28. The apparatus of claim 27, further comprising a loading station and a fastening station, such that said plurality of gripping devices maneuver along said edge gripper track between said loading station and said fastening station.
  • 29. The apparatus of claim 28, further comprising a removal mechanism positioned about said fastening station.
  • 30. An apparatus for closing a fabric article, said fabric article having a first layer with a folded edge and a second layer with a folded edge, said apparatus comprising:a tensioning device positioned along a predetermined path; said tension device comprising a harpoon; said harpoon comprising a plurality of prongs; said tensioning device comprising a tensioning drive such that said tensioning drive inserts said harpoon between the first layer and the second layer, rotates said harpoon such that said plurality of prongs engages the folded edge of the first layer and the folded edge of the second layer, and retracts said harpoon by about a predetermined distance so as to tension the folded edge of the first layer and the folded edge of the second layer; and a fastening device positioned along said predetermined path such that said fastening device fastens the folded edge of the first layer with the folded edge of the second layer.
  • 31. The apparatus of claim 30, further comprising an edge guide positioned along said predetermined path between said tensioning device and said fastening device.
  • 32. The apparatus of claim 31, wherein said edge guide comprises a plurality of U-shaped compartments.
  • 33. The apparatus of claim 30, wherein said fastening device comprises a sewing head so as to stitch the folded edge of the first layer with the folded edge of the second layer.
  • 34. A method for closing an open side of a fabric article, with the fabric article having a first layer and a second layer, said method comprising the steps of:folding the first layer to form a first folded edge; folding the second layer to form a second folded edge; aligning the first folded edge and the second folded edge; passing a tensioning guide along the open side to keep the first folded edge and the second folded edge in alignment; and passing a fastening device along the open side to close the open side along the first folded edge and the second folded edge.
  • 35. The method of claim 34, wherein the fabric article includes an amount of batting therein, said method further comprising the step of adding additional batting prior to said step of passing said fastening device along the open side.
  • 36. The method of claim 34, wherein the fabric article includes an amount of batting therein, said method further comprising the step of shaking said fabric article to position the batting therein.
RELATED APPLICATIONS

The present application is a non-provisional application based upon Provisional Application Ser. No. 60/269,037, filed on Feb. 13, 2001.

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4408552 Kondo et al. Oct 1983 A
4716845 Codos Jan 1988 A
5018416 Freermann May 1991 A
5027726 Brower et al. Jul 1991 A
5040473 Zesch et al. Aug 1991 A
5088425 Adams Feb 1992 A
5379708 Moll et al. Jan 1995 A
5619942 Stewart et al. Apr 1997 A
5669320 Stewart et al. Sep 1997 A
5685248 Stewart et al. Nov 1997 A
5806449 Schramayr et al. Sep 1998 A
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5928462 Stewart et al. Jul 1999 A
6058863 Stewart et al. May 2000 A
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Provisional Applications (1)
Number Date Country
60/269037 Feb 2001 US