The present invention is in the field of devices and methods for sewing, and, in particular, in the field of sewing frames and other devices and methods for the positioning and retention of fabric for sewing with a tabletop, sewing machine.
Devices for machine quilting typically consist of three primary components, a frame, a sewing machine, and a machine carriage having a carriage bottom plate that travels laterally on an x-axis and a carriage top plate that travels longitudinally on a y-axis. Fabric layers, that typically consist of backing fabric, batting, and top fabric, may consist of as few as one layer of fabric or more than three layers, which single fabric layer, or multiple layers collectively, referred to in this application as a “quilt core.” The term “fabric layers” when used in this application, shall be defined to include a single layer of fabric. The fabric layers are rolled onto fabric layer rails and fed from the respective fabric layer rails to a take-up rail that passes through the throat of the sewing machine, suspending the fabric layers of the quilt core together to rest on the sewing machine bed. In order for the fabric layers of the quilt core to remain flat and straight, it is necessary for the fabric layer rails and the take-up rail to be longer than the quilt is wide.
For a typical quilting frame, the sewing machine is positioned on and secured to the quilting frame carriage top plate and is guided on the machine carriage to create a desired stitching pattern as the layers of fabric are quilted together. The sewing machine is guided longitudinally and laterally across the available quilting work area, which is determined by the length of the throat of the sewing machine and the width of the quilt fabric itself, the width of the quilt being limited to the width of the quilting frame.
When the fabric in the work area has been sewn, the fabric is rolled forward from the fabric layer rails to the take-up rail so that the completed area is rolled onto the take-up rail that passes through the throat of the sewing machine. This also advances the fabric that has not yet been quilted into the work area and the new strip of un-quilted fabric area may then be sewn. A typical quilting frame requires that the quilt be sewed from front to back, or vice versa, with the fabric progressively being fed onto the take-up rail as each strip of the quilt core is sewed from one side of the quilt core to the other.
An alternative to machine quilting with a traditional frame is to quilt by hand, performing all the stitching without a sewing machine, simply using a needle and thread. Another alternative is to baste the three layers of fabric together using pins or small stitches later to be removed. Once the fabric is basted, the user can quilt the layers together by guiding the fabric through the machine by hand. Hoops may also used to hold small areas of the quilt flat and straight to perform the stitching. Embroidery machines, for example, use a hoop to hold the fabric and then through motor control, move the hoop while the sewing machine stitches to create the desired patterns on the fabric.
Sewing without a frame requires basting, which is time consuming. Hand quilting or quilting by using a hoop also requires basting, and moving the fabric to create the sewing patterns can be cumbersome due to the amount of fabric that has to be manipulated in a large quilt. Sewing and/or Machine quilting on a frame is a much more convenient and expeditious way to complete a quilt. Machine quilting on a frame requires a large frame, however, to make large quilts. Many quilters do not have enough space to accommodate the large quilting frame.
A sewing frame unit is provided. The sewing frame unit includes a frame support structure and a frame assembly. The frame assembly includes a front fabric retainer, a rear fabric retainer, a first end retainer, and a second end retainer. The front fabric, rear fabric, first end, and second end retainers are each affixed to the frame support structure, each end of the rear fabric retainer engages a first quick release housing and a second quick release housing, the first and second quick release housings each include a cap to secure each end of the rear fabric retainer in the first and second quick release housings. The sewing frame includes a first front retainer support member and a second front retainer support member each affixed to the frame support structure and to the front fabric retainer; and a first rear retainer support member and a second rear retainer support member each affixed to the frame support structure and each removably secured to the rear fabric retainer. The sewing frame includes a machine carriage assembly mounted on the frame support structure. The machine carriage assembly provides for lateral and longitudinal movement of the sewing machine.
In some aspects, the first and second front retainer support members each comprise an inner support member having a plurality of positions that engage a pin for adjusting a height of the respective first and second front retainer support members.
In some aspects, the first and second rear retainer support members each have an inner support member comprising a plurality of positions that engage a pin for adjusting a height of the respective first and second rear retainer support members.
In some aspects, the pin is operably connected to a cam lever for disengaging and engaging the pin with a position on the inner support member.
In some aspects, the plurality of positions are a plurality of teeth.
In some aspects, the first and second quick release housings each comprise grooves that guide a lip on the cap.
In some aspects, the machine carriage assembly further comprises a front carriage track, a rear carriage track, a lateral carriage element, and a pair of longitudinal tracks on the lateral carriage element.
In some aspects, the machine carriage assembly comprises front carriage rollers and rear carriage rollers mounted to the lateral carriage element.
In some aspects, the machine carriage assembly comprises a wheeled base comprising rollers that engage the pair of longitudinal tracks.
In some aspects, one or more of the front fabric retainer, the first end retainer, and the second end retainer have a fabric tightening mechanism.
In some aspects, each fabric tightening mechanism has a ratchet drive.
In some aspects, the sewing frame unit includes a plurality of retainer clips.
In some aspects, the sewing frame unit includes a foam attached to the frame support structure and configured to contact a tabletop.
A method for sewing by a user with a sewing machine of a quilt core comprised of one or more fabric layers, using a sewing frame unit and without the use of a full width sewing frame is provided. The method includes removing a rear fabric retainer from a first quick release housing and a second quick release housing; mounting the sewing machine on a machine carriage assembly, the machine carriage assembly being supported by a frame support structure; securing rear fabric retainer in the first quick release housing and the second quick release housing; sequentially securing respective fabric zones of the fabric core in a sewing frame assembly, the sewing frame assembly being supported by and positioned by the frame support structure, the sewing frame assembly comprising a front fabric retainer, the rear fabric retainer, a first end retainer, a second end retainer; and sewing respective pattern segments in each fabric zone sequentially, the machine carriage assembly providing for the quilting machine to be moved laterally and longitudinally by the user for sewing the pattern segments.
In some aspects, the pin is operably connected to a cam lever for disengaging and engaging the pin with a position on the inner support member.
As used herein “sewing frame” refers to a support structure for stitching fabric or other materials together. An example of a sewing frame is a quilting frame for sewing layers of fabric together.
Referring first to
The hoop frame assembly 5, for embodiment shown, is comprised of a front fabric retainer 11, a rear fabric retainer 41, a first end retainer 21, and a second end retainer 31. The front fabric retainer 11 is secured to the first frame end member 9 by first front retainer support member 13 and is secured to the second frame end member 10 by a second front retainer support member 15. The first end fabric retainer 21 is affixed to the first frame end member 9 by first front retainer support member 13. Likewise the second end fabric retainer 31 is affixed to the second frame end member 10 by a second front retainer support member 15. The rear fabric retainer 41 is affixed to the first frame end member 9 by first rear retainer support member 43 and is affixed to the second frame end member 10 by the second rear retainer support member 45. Other variations and designs for the hoop frame assembly 5, providing for variations in the connection of the hoop frame assembly components to the frame support structure 3 and for supporting, stabilizing and positioning the frame assembly 5, will be known to persons ordinarily skilled in the art, in view of the disclosures of the specification and drawings presented.
The machine carriage assembly 6 is supported by a front carriage track 61 and a rear carriage track 55 which are affixed on opposing ends into the first frame end 9 and the second frame end 10. For the embodiment shown, front carriage rollers 63 and rear carriage rollers 57 provide for lateral carriage movement 65, and thus for the machine lateral movement 100 of a sewing machine 101 as shown in
The front fabric 11, rear fabric 41, first end 21, and second end retainers 31 are each affixed to the frame support structure 3, each end 101, 102 of the rear fabric retainer 41 engages a first quick release housing 103 and a second quick release housing 104, the first 103 and second 104 quick release housings each include a cap 105, 106 to secure each end 101, 102 of the rear fabric retainer 41 in the first and second quick release housings 103, 104.
Referring to
In some aspects, the plurality of positions are a plurality of teeth.
Referring to
The fabric zone 805 is the portion of the fabric core 803 positioned between the front fabric retainer 11, the first end retainer 21, the second end retainer 31, and the rear fabric retainer 41, after the respective retainer clips 91, 93, and 95, are secured in place for sewing as shown in
When the fabric core 803 is secured and the selected fabric zone 805 is in place as shown in
In some aspects, the sewing frame unit includes a foam attached to the frame support structure and configured to contact a tabletop. The foam may be a non-skid foam. A non-skid foam can be any foam that prevents motion of the sewing frame unit on the surface of the table. Other materials besides foam may be used so that the sewing frame unit sits motionless on a table-top or other surface on which the sewing frame unit is resting. The foam at the base of the unit replaces the need for having a clamp to attach the unit to the table.
A method for sewing by a user with a sewing machine of a quilt core comprised of one or more fabric layers, using a sewing frame unit and without the use of a full width sewing frame is provided. The method includes removing a rear fabric retainer from a first quick release housing and a second quick release housing; mounting the sewing machine on a machine carriage assembly, the machine carriage assembly being supported by a frame support structure; securing rear fabric retainer in the first quick release housing and the second quick release housing; sequentially securing respective fabric zones of the fabric core in a sewing frame assembly, the sewing frame assembly being supported by and positioned by the frame support structure, the sewing frame assembly comprising a front fabric retainer, the rear fabric retainer, a first end retainer, a second end retainer; and sewing respective pattern segments in each fabric zone sequentially, the machine carriage assembly providing for the quilting machine to be moved laterally and longitudinally by the user for sewing the pattern segments.
In view of the disclosures of this specification and the drawings, other embodiments and other variations and modifications of the embodiments described above will be obvious to a person skilled in the art. Therefore, the foregoing is intended to be merely illustrative of the invention and the invention is limited only by the following claims and the doctrine of equivalents.
This application is a U.S. Non-provisional application claiming priority under 35 U.S.C. 120 and 119(e) to U.S. provisional application No. 63/085,448, filed Sep. 30, 2020. The disclosure of this priority application is incorporated herein in its entirety.
Number | Name | Date | Kind |
---|---|---|---|
806485 | Parker | Dec 1905 | A |
872498 | Cleveland | Dec 1907 | A |
2165496 | Mccall | Jul 1939 | A |
2206774 | Hallowell | Jul 1940 | A |
3410232 | Bills | Nov 1968 | A |
3787968 | Littmann | Jan 1974 | A |
4655426 | von Dulong | Apr 1987 | A |
5423502 | Thomason | Jun 1995 | A |
5479852 | Lloyd | Jan 1996 | A |
5562052 | Glashouwer | Oct 1996 | A |
6990914 | Canan | Jan 2006 | B2 |
D549494 | Waner | Aug 2007 | S |
9109313 | Bagley | Aug 2015 | B2 |
9273421 | Bagley | Mar 2016 | B2 |
9476151 | Bagley | Oct 2016 | B2 |
9648949 | Penaflor | May 2017 | B1 |
10889930 | Bagley | Jan 2021 | B2 |
20030079666 | Barrus | May 2003 | A1 |
20070040482 | Williams | Feb 2007 | A1 |
20130156492 | Maier | Jun 2013 | A1 |
20150114272 | Bagley | Apr 2015 | A1 |
20160270496 | Pitchforth | Sep 2016 | A1 |
20170189736 | Martin | Jul 2017 | A1 |
20170259153 | Fiedler | Sep 2017 | A1 |
20210131000 | Bagley | May 2021 | A1 |
20220025564 | Bagley | Jan 2022 | A1 |
Entry |
---|
Grace Company, Q-Zone Hoop-Frame Assembly, Jan. 8, 2019, YouTube (https://www.youtube.com/watch?v=_RSovj4xhcY), last accessed Jul. 11, 2023. (Year: 2019). |
Number | Date | Country | |
---|---|---|---|
20220098772 A1 | Mar 2022 | US |
Number | Date | Country | |
---|---|---|---|
63085448 | Sep 2020 | US |