Sewing – Special machines – Quilting
Reexamination Certificate
2000-03-02
2001-01-09
Nerbun, Peter (Department: 3741)
Sewing
Special machines
Quilting
C112S102500, C112S475190
Reexamination Certificate
active
06170414
ABSTRACT:
FIELD OF THE INVENTION
This invention relates generally to the field of quilting machines and, more particularly, to an improved quilting machine for stitching quilts of different thicknesses.
BACKGROUND OF THE INVENTION
In the manufacture of quilted fabrics in which, for example, a cover, a liner and one or more layers of filling material are joined to form an article such as a quilted furniture cover or a mattress cover, automated quilting machinery is commonly employed to stitch the layers of material together, with stitching applied in repeated patterns, or arrays of repeated patterns. High speed and economic production of such quilted fabrics generally requires equipment utilizing arrays of needles, ganged together and driven through a common stitch forming mechanism, to apply a plurality of patterns simultaneously in a predetermined array.
In between each stitch of the needle, the layers of fabric are moved in unison with respect to the needles in order to place the next stitch at the desired point in the quilting pattern. Further, with each stitch cycle of the needles, a presser plate on one side of the multi-layered fabric is moved toward a needle plate on the other side of the fabric to compact the layers of material between the plates for the stitching process. As the needles move out of the material, the presser plate is simultaneously lifted or moved away from the needle plate, thereby permitting the material to be moved for the next stitch. Normally, the needles are mechanically coupled to and driven by a needle bar rocker shaft that, in turn, is mechanically connected to and driven by a continuously rotating drive shaft. The presser plate is also mechanically connected to and driven by the needle bar rocker shaft. The motion of the presser plate is thus mechanically and constantly fixed with respect to the motion of the needle.
With every stitch cycle, the presser plate usually starts a stitch cycle at the same uppermost position with respect to the needle plate, moves downward to the same lowermost position with respect to the needle plate and then retracts upward to the starting uppermost position. Thus, with each stitch, such a presser plate moves the same distance downward to the same material compaction position and then retracts the same distance to its uppermost starting position. Since the operation of the presser plate is mechanically fixed throughout the quilting process, the gap between the presser plate and the needle plate at any given point in the stitching cycle is always the same. Therefore, a quilting machine is practically limited to stitching layers of material that have the same thickness. The relative motion of the presser plate is controlled by cams on a rocker shaft. Therefore, it is possible to change those cams in order to provide a different gap between the presser plate and the needle plate during the stitching cycle. Even though reconfiguring the quilting machine is possible by changing various cams, the task requires many hours of complex and difficult labor and, therefore is rarely if ever done.
Therefore, as a practical matter, if one desires to stitch a thicker quilt, a different quilting machine is generally used which has been configured to have a generally larger gap between the presser plate and the needle plate throughout the stitching cycle. With a thicker quilt, the presser plate must have a higher starting position that allows the thicker quilt to be inserted thereunder and a higher, full compaction position that properly compresses the thicker quilt during the stitching process. The requirement that different quilting machines must be used to stitch quilts having different thicknesses presents significant disadvantages. For example, for quilt manufacturers who can afford only one quilting machine, their market is limited to those applications for quilts of the single thickness that can be readily produced on that one machine. In other situations, the commercial demand or quantity of a quilt of a particular thickness may be relatively small; and therefore, the purchase and maintenance of an automated quilting machine to make such a quilt cannot be economically justified. Thus, those markets must be served by quilts that have a higher labor content and thus, are more expensive.
When quilting materials such as mattress covers and borders on a multi-needle chainstitch-quilting machine, the height of the presser foot above the needle plate is critical to proper stitch formation, sewing reliability and product quality. The presser foot height is determined primarily by the thickness and density of the materials to be stitched.
Therefore, users currently adjust quilting machines to sew a specific thickness range, depending on expected production requirements. As a result, when it becomes necessary to sew a different thickness, the machine must be re-adjusted, usually by maintenance personnel in a procedure that involves significant amounts of time. Such personnel must know the proper height setting for any given combination of materials.
Consequently there in a need for an improved quilting machine that is more flexible in its operation and reconfiguration so that with an easy adjustment quilts of different thicknesses may be stitched.
SUMMARY OF THE INVENTION
An objective of the present invention is to provide a quilting machine and method that is flexible in its ability to produce quilts of different thicknesses. A particular objective of the invention is to provide for adjustment of presser foot position in quilting processes so as to allow a single quilting machine to accommodate materials of differing thicknesses.
Further objectives of the invention include providing the correct presser foot setting for quilted products, particularly where the products are made automatically, and particularly where product thicknesses might change from one product to the next. Additional objectives of the invention are to provide quick presser foot adjustment requiring little operator skill or experience, to reduce error in the making of presser foot adjustments, to provide reliable and repeatable presser foot adjustments, and to provide automatic presser foot adjustments. Particular objectives of the invention are to provide for automatically making presser foot settings appropriate for each particular quilted product without the intervention of an operator, including by automatically providing a setting that has been predetermined to be appropriate for the product and by providing a setting that is sensed by the machine to be appropriate for the product. Other objectives of the invention are to provide a mechanism for quickly changing presser foot settings that is durable, and to provide a mechanism by which the height of both the lower and upper presser foot positions and the distance between lower and upper presser foot positions can be increased with the thickness of the material.
The invention achieves various of its objectives by making adjustment of the presser foot height totally automatic for batch mode and automatic operation, with the optimum position of the pressure foot determined by the machine controller computer based on product database information, motor torque feedback, material or load sensors and other methods. For manual operation, adjustments can be made instantly with the simple touch of an icon.
In accordance with the principles of the present invention, a quilting machine and method are provided with an adjustable drive linkage to quickly change the presser foot setting. The drive linkage is adjusted by a motor or other actuator, which is in turn responsive to a control signal produced in response to a controller. The controller in turn responds either to an input signal from an operator or facility computer or to information in a product database of a batch control system. The presser foot linkage may operate to move end positions of the presser foot travel during each stitch cycle between two positions, among a plurality of more than two positions, or continuously between maximum and minimum settings. Preferably
Bondanza James
Codos Richard N.
James Michael
Kaetterhenry Jeff
Leavis Glenn
L&P Property Management Company
Nerbun Peter
Wood Herron & Evans L.L.P.
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