1. Field of the Invention
The present invention relates generally to improvements to a craft stand, and particularly to a craft stand provided with a bracket to secure the stand in a position proximate to the user's lap while the user is in a sitting position. More particularly, the present invention relates to a craft stand mounted on a swivel base attachable to various bracket configurations for supporting the craft stand upon a user's lap. Still more particularly, the present invention relates to a craft stand having a base plate or platen mounted upon a universal joint and with means for engaging legs depending from a craft hoop.
2. Description of the Related Art
Craft hoop assemblies generally include two concentric hoops or rings (an inner hoop and an outer hoop) for holding material such as fabric in a taut position over a center opening so that craft work, such as stitching with needle and thread, may readily be performed. Typically, the inner hoop has a fixed diameter and the outer hoop has an adjustable diameter. Material upon which work is to be performed is placed across the inner hoop. The outer hoop is then placed over the material and around the inner hoop. The diameter of the outer hoop is then reduced, typically by tightening a clamping mechanism associated with the outer hoop, such that the outer hoop fits snugly against the material and inner hoop so as to hold the material between the two hoops.
A variety of stands have previously been developed for supporting work pieces or craft frames, such as stretcher frames, embroidery hoops and the like, in predetermined positions. These stands generally allow a user to support the work piece or craft frame on the stand so that the user has both hands available to perform the desired craft. In addition, it is often preferable for the user to work in a sitting position with the work piece upon or proximate the user's lap.
The means used for supporting various work pieces and craft frames on a craft stand should be versatile enough to support, hold or secure various types and sizes of work pieces and frames. The means for supporting these work pieces and frames should also allow the work piece or frame to be supported in the user's lap and in a wide range of orientations. In addition, the means for supporting the work pieces and frames must function to securely hold the work piece or frame while in use and in a variety of positions without damaging the materials of the work piece and of the craft, and without causing fatigue to the user.
While performing craft work on material secured between the rings of a craft hoop, it is often necessary for the user to access the space below, as well as the space above, the material held between the rings for manipulation of a needle relative thereto, e.g. as with cross stitching or needlepoint. Having to constantly maneuver the craft hoop while performing the craft work to gain the appropriate access can be tiresome. Therefore, a craft stand should be provided with open sides to allow access to the space below the craft hoop. Many previous stands were limited in the ability to position the work piece proximate to a user's lap and were further limited in the ability to position the work piece in a wide range of orientations.
Various craft hoops are disclosed in U.S. Pat. Nos. 6,158,153; 5,722,191; 5,555,653 and 5,287,640; and a craft stand is disclosed in U.S. Pat. No. 5,330,143.
The purpose of this invention is to provide a lap stand for supporting a wide range of craft materials and sizes of frames upon or proximate a user's lap and in a wide range of orientations. The improved lap stand includes a craft hoop and base plate joined to one another with rods or legs to form an opened-sided craft stand subassembly. The base plate can be a flat, relatively solid plate, or can include relatively large cut outs or apertures to reduce the weight of the base plate. Both the craft hoop and the base plate are typically provided with receiving holes or bores for receiving the ends of the legs that join the craft hoop to the base plate, unless other means for attaching the legs are employed.
Bores of various distances from the center of the base plate may be provided so that legs depending from craft hoops of various diameters can be attached to the base plate. The bores may be round but alternatively may be square, triangular or otherwise polygonal, particularly if the legs are provided with matching polygonal ends that are inserted into the holes directly. By providing a multi-sided receiving hole for each similarly multi-sided leg to engage, the legs are prevented from turning within the holes when the craft hoop is turned, thereby maintaining the spatial relationship of the craft hoop to the base plate. Alternatively, screws may thread through smaller holes in the base plate and craft hoop and then into the ends of each support leg.
To allow the craft stand to be supported in a wide range of orientations, the lower surface of the base plate may be attached to a universal joint, such as a ball and socket, that further attaches to a lap stand bracket. A swivel device such as disclosed in U.S. Pat. No. 5,330,143 may be attached to the base plate to allow for tilt and rotation of the craft stand when the lap stand is sitting on the user's lap. Various embodiments of a lap bracket may be connected to the swivel device to allow the lap stand to either straddle the user's legs, be secured between the user's legs, or provide means for the user to sit upon a portion of the bracket, thereby applying leg pressure to the bracket to secure and stabilize the lap stand.
Other advantages of the invention will become apparent from the following description taken in connection with the accompanying drawings, wherein is set forth by way of illustration and example an embodiment of the present invention.
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure. In the drawings, similar numerical references indicate corresponding parts.
Referring now to
Three protuberances or bosses 60a, 60b and 60c (referred to collectively by the numeral 60) are formed on, and extend inwardly from, the inner surface of the inner ring 25 of the craft hoop 20 in equally spaced apart relationship. A first leg-receiving bore 65 (first bore) is formed in and extends at least partially into each of the bosses 60 on the inner ring 25 of the craft hoop 20. The first bores 65 may be referred to individually as first bores 65a, 65b and 65c, with first bore 65a being formed in boss 60a, first bore 65b being formed in boss 60b and first bore 65c being formed in boss 60c. The first bores 65 extend into the bosses 60 from a lower surface 61 of the bosses 60 toward an upper surface 62 thereof. The first bores 65 may extend all the way through the bosses 60 to open at the upper surfaces 62 of the bosses 60 or may terminate prior to opening through the upper surfaces 62 (see
A base plate 70 is disposed below the craft hoop 20. The base plate 70 includes second leg receiving bores (second bores) 75a, 75b and 75c (referred to collectively by the numeral 75) formed therein, typically of a number equal to that of the first bores 65 (see
Three rods or legs 80a, 80b and 80c (referred to collectively by the numeral 80), each having first (upper) 85 and second (lower) 90 ends, are adapted for use in securing the craft hoop 20 and base plate 70 together. Each of the first ends 85 of the legs 80 are sized for insertion into one of the first leg receiving bores 65 for frictional engagement therein. Each of the second ends 90 of the legs 80 are sized for insertion into one of the second leg receiving bores 75 for frictional engagement therein.
The craft stand subassembly 5 is formed, therefore, by attaching the craft hoop 20 to the base plate 70 by securing the upper ends 85 of the legs 80 in first bores 65 and the lower ends 90 in radially aligned, underlying, second bores 75, as illustrated in
The legs 80 may be more securely attached to either the craft hoop 20 or the base plate 70 using set screws threaded through holes 95 in the side of the craft hoop 20 or base plate 70, or through holes 97 in the top surfaces 62 of the bosses 60 or the bottom surface 72 of the base plate 70 proximate to the second bores 75 (see
Similarly, the base plate 70 may be provided with leg receiving bores 75 that protrude downward from the top surface 74 of the base plate 70 stopping short of emergence through the bottom surface 72 of the base plate 70. A smaller hole (not shown) may then be provided through that bottom surface 72, typically in axial alignment with the center of the associated bore 75, for receiving screws (not shown) that are then be threaded through these smaller holes and into the lower ends 90 of the legs 80 within the bores 75.
The lap stand 1 is stabilized for use through employment of a lap bracket 15 that is connected to the base plate 70 by the universal joint 10, which will be described in greater detail below. The lap bracket 15 includes an elongated, generally horizontal arm 100 for attachment to, and to support, the universal joint or swivel mechanism 10. In certain embodiments, the arm 100 may substantially comprise the bracket 15. For example,
In an alternative embodiment of the lap bracket 15, shown in
A further alternative embodiment of the lap bracket 15, shown in
The universal joint typically includes a ball or knob and cooperatively engaged socket such that the knob may turn within the socket. An appropriate universal joint assembly is disclosed in U.S. Pat. No. 5,330,143, and also, more generally, in the disclosure herein. The universal joint assembly 10 shown in
The lower portion of the bore 175 may include threads 210 for receiving a threaded plug 215. The lower portion of the plug 215 may be welded, screwed or otherwise attached to the arm 100 of the lap bracket 15. In use, the casing 160 is turned about the plug 215 to advance the plug 215 either upward or downward within the bore 175 of the casing 160 to increase or decrease compression of the spring 200 and concomitant pressure against the ball head 185. When the casing 160 is threadingly advanced downward relative to the plug 215, the upper end of the plug 215 urges the spring 200 and cup washer 195 upward so as to compress the ball head 185 between the cup washer 195 and the lip 180 thereby increasing resistance to rotation of the ball head 185 within the casing 160 and lock the ball head 185 in place in a selected position. Advancing the casing 160 upward reduces compression of the cup washer 195 against the ball head 185 and allows the ball head 185 to rotate in the casing 160.
The shank 190 extends above the lip 180 of the casing 160 and can rotate or pivot freely from vertical alignment to approximately 40 degrees from vertical. The upper end of the casing 165 may include a cut out portion or notch 220 (see
The upper portion of the shank 190 is attached to the base plate 70 through any effective means such as welding, integral molding with the base plate 70, or mechanical attachment such as screws or bolts. As shown in the cutaway in
It is to be understood that while certain forms of this invention have been illustrated and described, it is not limited thereto except insofar as such limitations are included in the following claims and allowable equivalents thereof.
Number | Name | Date | Kind |
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3309803 | Wilson | Mar 1967 | A |
3750312 | Bucher | Aug 1973 | A |
3906648 | Bard | Sep 1975 | A |
4660814 | Shader et al. | Apr 1987 | A |
5287640 | Morgan | Feb 1994 | A |
5330143 | Rich et al. | Jul 1994 | A |
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5722191 | Morgan | Mar 1998 | A |
6158153 | Morgan | Dec 2000 | A |