1. Field of the Invention
The present invention relates generally to embroidery systems, and in particular, to an angle finder tool for determining accurate embroidery angle measurements.
2. Description of the Related Art
In the current art, embroidery designs may be used as templates for embroidering a design onto fabric. Embroidery designs are employed by an embroidery/sewing machine to guide the machine's movement of the embroidery arm. The embroidery arm is directed to stitch the same pattern specified in the design.
An embroidery hoop is used to hold the stabilizer material and the fabric together, so that the design may be embroidered in the desired location and position on the underlying fabric. However, in some instances, the designs may be very large, and thus may not fit within a user's embroidery hoop. For example,
However, alignment may be a problem when orienting a design template to the fabric, as well as to other design sections. Currently, if a user wants to align a design template to a desired position, the user must currently orient the design by essentially “eyeballing” the angle in which the design template should be placed against the fabric. Once the estimated orientation angle is determined, the user may then provide this estimated angle to the embroidery machine. The embroidery machine uses the user-provided angle to orient the embroidery to the design on the fabric. As the angle provided to the embroidery machine is a user-determined and estimated angle, the angle determined by a user may be inaccurate.
Thus, it would be advantageous to have a mechanism for finding a more accurate angle measurement for use in properly orienting the design onto the fabric during the embroidery process.
The present invention provides an angle finder tool for use with embroidery machines. The mechanism of the present invention allows for determining an accurate angle measurement so that the embroidery machine may properly orient the design onto the fabric during the embroidery process. The angle finder tool includes a lower component comprising an angle degree chart and an upper component connected to the lower component, wherein the upper component comprises a crosshair. The upper component rotates independently of the lower component. The angle finder tool is placed within and parallel to an embroidery hoop and centered on a target orientation indicator on the fabric. The crosshair on the upper component is rotated to align with an arrow on the target indicator. The angle indicated by alignment of the crosshair and the arrow on the target orientation indicator is supplied to an embroidery machine, which uses the angle to orient a design template in relation to the fabric.
The novel features believed characteristic of the invention are set forth in the appended claims. The invention itself, however, as well as a preferred mode of use, further objectives and advantages thereof, will best be understood by reference to the following detailed description of an illustrative embodiment when read in conjunction with the accompanying drawings, wherein:
The present invention provides an angle finder tool for use with embroidery machines. In an illustrative example, the angle finder tool comprises an upper and lower component connected together. The lower component of the angle finder tool comprises an angle degree chart, preferably comprising 360 degrees. The upper component of the angle finder tool comprises cross hairs, the cross hairs being preferably in a contrasting color or line pattern from the color or line pattern of the angle degree chart.
Each design section 202–210 comprises a component of the original large design template. To determine an accurate angle measurement to allow an embroidery machine to properly orient the design template onto fabric 212 and to other designs as well, a target orientation indicator, such as target indicators 214–222, is used to indicate the proper orientation of the embroidery design. A target indicator comprises an arrow which indicates the top edge of the design. For instance, all lettering in the design appears as it should read. Rotating a letter rotates the baseline of the letter. The target indicator is used to designate the orientation of the design in relation to the fabric and, if present, other embroidery designs. In this illustrative example, target indicators are obtained from a target indicator sheet 224, which contains multiple target indicators. These target indicators may contain adhesive on one side to allow the target indicator to adhere to the fabric. A user may place a target indicator from target indicator sheet 224 under a design template and onto the fabric to indicate the orientation of the design. In alternative embodiments, embroiderers may draw alignment crosshairs on the fabric using chalk, pencil, removable marker, or pins. An embroiderer may also use two pressed creases for an alignment crosshair, which is most often used when embroidering a single design in the center of an item, such as a pillow, quilt block, towel, and the like. Once the target indicators for the design templates have been positioned on the fabric, the design templates may be removed, as shown in
Turning next to
Lower component 404 of angle finder tool 400 comprises angle degree chart 406. In a preferred embodiment, angle degree chart 406 comprises 360 degrees. Upper component 404 of angle finder tool 400 comprises cross hairs 408. The shape of upper component 402 is such that the angle degree chart 406 in lower component 402 is visible to a user while the upper component is positioned on top of the lower component. In a preferred embodiment, cross hairs 408 are comprised of colors or line patterns in contrast from the colors or line patterns present in the angle degree chart.
In this illustrative example, embroidery machine monitor panel 700 comprises angle input screen 702. Angle input screen 702 comprises the current angle 704 of an embroidery design (in this example, 47°) and keypad 706. Keypad 706 may be used to adjust current angle 704 shown on angle input screen 702. For example, the user may select to rotate the design by 90° to the right or left (708 and 710, respectively), 100 to the right or left (712 and 714, respectively), or 1° to the right or left (716 and 718, respectively). Likewise, the user may use keypad 706 to move the design within the sewing field (hoop) without rotating the design. These movements may include right/left and up/down movements in small increments, such as millimeters. Movement may be limited by the size of the attached hoop.
Current angle 704 should be adjusted to reflect the angle measurement that was found using the angle finder tool as described in
Once the current angle on the angle input screen has been updated with the angle measurement found using the angle finder tool, the embroidery machine may then embroider the design onto the fabric. This process of identifying the angle measurement may be repeated for each design.
The description of the present invention has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention, the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.
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20060277780 A1 | Dec 2006 | US |