Patent Document

BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a canvas stretching and framing device upon which canvas or other sheet material may be stretched. Particularly, this invention relates to a unique canvas stretcher and framing device having fixed, square comers and easily adjustable straight sections. 
     2. Brief Description of Prior Art 
     As is well-known in the art, oil paintings on canvas are conventionally mounted on wooden frames which are sometimes referred to as canvas stretchers. The canvas stretcher as known in the prior art is assembled with interlocking comers which form a miter joint between the straight sections of the canvas stretcher. The canvas is affixed to one edge of the canvas stretcher using staples or nails, draped over the opposite side of the frame, manually stretched taught, and stapled or nailed to the frame. During this process, a certain amount of force is applied to the canvas stretcher which can result in the miter comers shifting out of a square orientation. 
     These traditional miter comers also have the disadvantage of complicating any desired changes in the size of the frame. In order to change the size of the frame, the artist must be familiar with certain sophisticated woodworking techniques and have the necessary equipment to create a miter joint. 
     In the past, a number of adjustable frames have been disclosed. Three examples of such frames are U.S. Pat. Nos. 4,050,498, 4,179,830 and 4,144,660, all of which have been improved upon by the instant invention. The adjustable frames disclosed by the patents noted above are very complex from a mechanical standpoint and thus are difficult and expensive to manufacture. For example, U.S. Pat. No. 4,179,830 discloses corner segments which are made up of no less than five separate parts and include moving parts. U.S. Pat. No. 4,144,660 similarly has corner segments involving multiple elements including moving parts. U.S. Pat. No. 4,050,498 discloses a frame device having corner sections comprised of not less than four discrete parts including a spring-like “adjusting element.” 
     Known adjustable frames also require that the straight sections of the frame have 45° mitered ends. This limits the ease with which these straight sections can be cut down and reduced in length. Creating a mitered corner requires a certain advanced knowledge of woodworking techniques and equipment. Also, commercially available canvas stretchers ordinarily have 45° mitered comers with one or more projecting legs, and respectively one or more recesses which join with the adjacent frame member. This complicated joinery further limits the ease with which the size of the frame may be altered or resized. 
     A further problem with presently known and currently available canvas stretching devices is that they are not designed in such a way that they may effectively and simply adjust for any expansion or contraction of the canvas due to changes in environmental conditions. Commercially available canvas stretching devices attempt to alleviate this problem by requiring the insertion of spacers into each of the mitered comers in a way that expands the joints. Construction of mitered comers in a way that allows for adjustment in this fashion is complex. Both construction and use of this kind of stretching mechanism requires several working steps. 
     Canvas stretched upon a canvas stretcher, moreover, exerts inward force on the perimeter of the canvas stretcher which can result in distortions of the canvas stretcher. The constant inward force exerted by the canvas can cause the perimeter of the canvas stretcher to warp and bow toward the center of the canvas. In order to avoid this, braces are often placed across the back of the canvas stretcher. These braces are ordinarily tacked onto the back of the stretcher resulting in a painting which cannot be hung flush against a wall as a result of the protruding braces. 
     A further problem facing commercially available canvas stretchers is the deterioration of a painting that occurs with age. It has been found that canvas paintings deteriorate at the point of contact of the canvas with the frame. It is believed that this damage is due to the reaction of the paint on the canvas with the wood material of the canvas stretcher itself caused by the resins and acids in the wood. 
     SUMMARY OF THE INVENTION 
     It is a general object of the present invention to provide a canvas stretcher that overcomes the above-noted deficiencies. 
     It is a still further object of this invention to provide a canvas stretcher with fixed comers which maintain the canvas stretcher&#39;s squareness while allowing for easy adjustments in order to maintain the canvas in a taut condition over the frame. 
     It is another object of this invention to provide a canvas stretcher the size of which may be adjusted easily without the use of expensive tools or without knowledge of advanced or sophisticated woodworking techniques. 
     It is still a further object of this invention to provide a canvas stretcher which decreases the likelihood of canvas deterioration as a result of contact with the canvas stretcher by decreasing the surface area of the canvas stretcher which is in contact with the canvas. 
     Finally, it is a goal of this invention to provide a canvas stretcher with optional bracing members to prevent warping of the canvas stretcher as a result of the tension placed on the canvas stretcher by the canvas which do not protrude beyond the rear of the canvas stretcher itself. The optional bracing members define a plane which is internal to the rear plane of the canvas stretcher. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     For a more complete understanding of this invention, reference now should be made to the embodiment illustrated is greater detail in the accompanying drawings and described by way of example only. In the drawings: 
     FIG. 1 is a front elevation of one embodiment of the invention with the fixed corner sections, straight sections, and long and butting bracing members all joined together. 
     FIG. 2 is a front elevation of the fixed corner sections of one embodiment of the invention. 
     FIG. 3 is a perspective view of the fixed corner section of one embodiment of the invention. 
     FIG. 4 is a rear elevation of the fixed corner section of one embodiment of the invention. 
     FIG. 5 is a cross-sectional view of the straight sections of one embodiment of the invention. 
     FIG. 6 is a perspective view of the straight sections of one embodiment of the invention. 
     FIG. 7 is a front elevation of the straight sections of one embodiment of the invention. 
     FIG. 8 is a detail front view drawing of the fixed corner sections and straight sections as they would be joined together in one embodiment of the invention. 
     FIG. 9 is a detail perspective drawing of the fixed corner sections and straight sections as they would be joined together in one embodiment of the invention. 
     FIG. 10 is a front view of the straight sections and the bracing members joined together in one embodiment of the invention. 
     FIG. 11 is a cross-sectional view of the straight sections and the bracing members joined together in one embodiment of the invention. 
     FIG. 12 is a perspective view of the straight sections and the bracing members joined together in one embodiment of the invention. 
     FIG. 13 shows the intersection of the bracing members at the back of the frame including a cross bracing member which provides support at their intersection in one embodiment of the invention. 
     FIG. 14 is a front elevation of the extended fixed corner sections of one embodiment of the invention. 
     FIG. 15 is a cross sectional view of the extended fixed corner sections of one embodiment of the invention. 
     FIG. 16 is a perspective view of the extended fixed corner sections of one embodiment of the invention. 
    
    
     DETAILED DESCRIPTION 
     With reference to the drawings, and initially to FIG. 1, it can be seen how the fixed corner sections  10  join with the straight sections  11  in a way that ensures the squareness of the canvas stretcher&#39;s structure. It can also be seen that the optional long and butting bracing members  14  and  15 , respectively, are transverse to each other across the back of the canvas stretcher and that their intersection is supported by a cross bracing member  20 . The long bracing member  14  covers the length or width of the canvas stretcher in a single span. The other butting bracing member  15  spans about half of the canvas stretcher&#39;s length or width and butts against the long bracing member  14 . As seen in FIG. 13, an alternative embodiment of this invention has four butting bracing members  15  whose intersection is supported by a cross bracing member  20 . 
     FIGS. 2,  3 , and  4  are detail drawings of the fixed corner sections  10 . The fixed corner sections  10  have a fixed corner upper surface  30 , a fixed corner lower surface  32 , a fixed corner interior surface  34  and a fixed corner exterior surface  36 . The fixed corner sections also have two fixed corner end surfaces  38 . This invention comprises a plurality of protrusions extending from at least one of the fixed corner end surfaces  38 . FIG. 3 shows an embodiment having a circular dowel  12  and a rectangular peg or tenon  13  which are formed on each fixed corner end surface  38  of the fixed corner section  10  configured in a way to frictionally join with the straight section  11 . The fixed nature of the fixed corner section  10  is also illustrated in FIGS. 2 and 4. FIGS. 2 and 4 show that the corner need not be formed by joining a number of structural elements. Rather, it can be formed in essentially a single piece construction, and can be made from, for example, a molded or extruded material such as plastic, although it can also be formed from a natural material such as wood. 
     The fixed corner sections  10  are also formed with a fixed corner raised surface  44  formed on the fixed corner upper surface  30  near the fixed corner exterior surface  36 . The fixed corner upper surface  30  slopes down towards the interior edge such that the fixed corner interior surface  34  is thinner than the fixed corner exterior surface  36 . 
     FIGS. 5 and 6 show the straight section  11  having a straight section interior surface  25 , a straight section exterior surface  26 , and two straight section end surfaces  40 . The embodiment shown in FIGS. 5 and 6 also shows a plurality of cavities located on at least one of said straight section end surfaces  40 . This embodiment exhibits a circular aperture  17  formed in the straight section end surfaces  40  configured to accept the circular dowel  12 . The straight section  11  also has a notch or mortise  16  formed into the straight section interior surface  25 . The straight section  11  is also formed with a straight section upper surface  27  having a straight section raised surface  28  near the straight section exterior surface  26  and slopes down towards the interior edge such that the straight section interior surface  25  is thinner than the straight section exterior surface  26 . FIG. 7 shows that the circular aperture  17  and notch  16  are formed throughout and along the entire length of the straight section  11 , respectively. 
     FIGS. 8 and 9 show how the fixed corner section  10  and straight section  11  are joined together. The rectangular peg or tenon  13  is received into the notch or mortise  16  formed on the straight sections  11  and the circular dowel  12  is received into the circular aperture  17  formed in the straight section  11 . FIGS. 8 and 9 also show a fastener  18  which may be driven through the straight section  11  in a way which fixes it to the rectangular peg  13  of the fixed corner section  10 . The fastener may take the form of fastening devices known in the art, such as nails, screws, staples, or other known fasteners. 
     FIGS. 10,  11 , and  12  show how the optional long and butting bracing members  14 ,  15  may be joined with the notch  16  formed in the straight sections  11 , by simply frictionally fitting them into the notch  16  in the straight section. These figures also show a fastener  18  which may be driven through the straight section  11  in a way which fixes the optional long and butting bracing members  14 ,  15  to the straight sections  11 . 
     Finally, FIG. 13 shows the intersection of the optional long and butting bracing members  14 ,  15 . FIG. 13 shows an embodiment of the invention utilizing four butting bracing members  15 . As shown in FIG. 1, an alternative embodiment has both a long bracing member  14  and two butting bracing members  15 . In either embodiment, the intersection of the optional long and butting bracing members  14 ,  15  is supported by a cross bracing member  20  which is affixed to the optional long and butting bracing members  14 ,  15  with one or more fasteners  18 . The optional bracing members  14 ,  15  are provided to enhance the overall strength of the stretcher and to prevent, for example, warping of the straight sections  11  of the canvas stretcher resulting from the stress applied by a taut canvas. 
     In the embodiment illustrated in FIGS. 8 and 9, the straight sections  11  and fixed corner sections  10  are adjustably butted together such that one or more fastening devices  18  could be utilized and removed. The straight section  11  may be adjusted by simply removing fastening device  18 , and by moving along the circular dowel  12  and rectangular peg  13  and refastening by replacing the fastening device  18 . This procedure provides a mechanism by which the canvas stretcher may adjust for any expansion of the canvas due to environmental conditions. 
     In U.S. Pat. Nos. 4,179,830, and 4,144,660, canvas stretching devices with adjustable corners are disclosed. However, these patents disclose multiple piece construction with complicated and heavy mechanical joinery involving nuts, threaded bolts and rods, and internally threaded grooves used to adjust the canvas stretcher. The instant invention provides an adjustable canvas stretcher with a mechanically simple, lightweight, and relatively inexpensive means to adjust the tension on the canvas. As described above, the present invention may be adjusted by merely altering the position of the straight section  11  on the rectangular peg  13  and circular dowel  12  formed on the fixed corner section  10  and reattaching fastening device  18 . 
     A particularly unique and advantageous aspect of the present invention is the design of the fixed corner sections  10 . As can be seen in FIGS. 2,  3  and  4 , the fixed corner sections  10  are not comprised of two members which join together at a 45° joint as in commercially available canvas stretchers. This type of joint is susceptible to moving out of square during the canvas stretching process. The one piece fixed corner sections  10  of the instant invention are not susceptible to this problem. When stretching canvas over the canvas stretcher, the canvas is draped over the canvas stretcher, stapled, tacked, or otherwise attached along one edge, pulled taut, and affixed to the other edges of the canvas stretcher. This process requires the application of a significant amount of force to the canvas stretcher. Comer sections composed of multiple pieces are likely to shift during this process resulting in a final product which is not square. The fixed corner sections  10  of this invention are of one piece construction which give them the strength and rigidity to remain in a square orientation and reduce torsional stress which ensures the squareness and non-warping of the frame. 
     Two other important elements of this invention are the rectangular peg  13  and circular dowel  12  formed on each fixed corner end surface  38  of the fixed corner section  10  shown in FIG.  3 . The circular dowel  12  is configured to provide for the proper alignment of the straight section  11  and fixed corner section  10 . The rectangular peg  13  also provides for proper alignment of the straight section  11  with the fixed corner section  10 . The rectangular peg  13  has the additional purpose of preventing any torsional movement of the straight section  11 . 
     Another unique and advantageous aspect of the instant invention is the ease with which the size of the canvas stretcher may be adjusted. As shown in FIGS. 6 and 7, the notch  16  and circular aperture  17  configured to receive the rectangular peg  13  and circular dowel  12 , respectively, are formed preferably continuously along either the entire length of the straight section  11 , or a substantial portion of that section. This allows the artist to merely make a simple straight cut, using, for example, an ordinary saw, across the straight section  11  in order to alter its length and accordingly alter the size of the canvas stretcher. This operation may be performed simply and requires no knowledge of sophisticated woodworking techniques. The fact that the notch  16  and the circular aperture  17  are formed along and throughout the entire length, or a substantial length, of the straight section  11  means that the straight cut will expose a similar cross-section of the straight section  11 , having a similar notch  16  and circular aperture  17  receptive to rectangular peg  13  and circular dowel  12 , allowing a virtually unlimited amount of flexibility as to the size and shape of the canvas stretcher disclosed here. Every cut of a straight section yields the notch  16  and circular aperture  17  configured in a manner to join with the rectangular peg  13  and circular dowel  12  of the fixed corner sections  10 . 
     Also, by providing a means to adjust the size of the canvas stretcher with a simple straight cut, this invention is less wasteful than commercially available canvas stretchers. Creating a mitered 45° joint requires that extra material be cut away to form the joint that need not be removed from the straight sections  11  in the current invention. This is particularly advantageous considering the cost of materials as well as environmental concerns. 
     This simplified process is a drastic contrast to the complicated means that are available for altering the size of commercially available canvas stretchers. The comers of commercially available stretchers have sophisticated mitered joints or involve heavy, mechanically complex systems with multiple components. U.S. Pat. Nos. 4,179,830, 4,144,600, and 4,050,498 disclose canvas stretchers with multiple piece corner construction and/or canvas stretching frames made out of numerous components joined together by complicated mechanical means involving nuts, threaded bolts and rods, and internally threaded grooves. In order to alter the size of the canvas stretcher, the artist must add or remove components or manipulate the heavy, complicated mechanical journey between each component. The instant invention provides a simpler, lighter, and more economical means of adjustment requiring only a simple straight cut of the straight section  11 . 
     The degree to which the size of the prior art canvas stretchers may be adjusted is inherently limited by the size of the components which make up the canvas stretcher. The user is limited to incremental alterations which are defined by the size of the components comprising the prior art devices. The size of the instant invention may be altered with more flexibility. The user may adjust the length of the straight section  11  by nearly infinitely small increments. 
     Another advantage of the present invention is the minimization of the areas of the canvas stretcher that make contact with the canvas. In conventionally known canvas stretchers, the canvas is stretched directly over the face of the canvas stretcher. This results in a relatively large area of canvas in intimate contact with the material of the canvas stretcher. It has been found that over time this contact causes deterioration of the canvas. This is particularly true for conventional canvas stretchers which are made of wood, because of the resins and acids which may be released by the wood. As seen in FIG. 5, the instant invention minimizes this problem by having a relatively thin straight section raised surface  28  on the straight section upper surface  27  of the canvas stretcher which minimizes the canvas&#39;s contact with the canvas stretcher. A similar fixed corner raised surface  44  is also formed on the fixed corner sections  10  so that the canvas is raised off the canvas stretcher over the entire perimeter. 
     The canvas stretcher of this invention also alleviates the canvas deterioration problem because it may advantageously be easily constructed of a synthetic product or plastic, such as high impact polystyrene, polyethylene, or PVC. Conventional canvas stretchers are constructed from wood. It is known that acid migration from the wood into the canvas causes deterioration of the canvas. Constructing a canvas stretcher from a synthetic product or plastic may reduce or eliminate this problem. It is possible to formulate a synthetic product which is acid free creating an acid free canvas stretching device which is greatly desired by the industry. The use of a synthetic or plastic material is particularly appropriate here as the simple structural elements of this invention are amenable to extrusion or molding type manufacturing techniques. Ease of construction using plastic is a further advantage considering the increased cost of and environmental concerns relating to the traditional use of wood in canvas stretcher construction. Similarly, the use of molding or extrusion-type construction techniques eliminates the finishing steps required in wood construction to form the notch  16  and circular aperture  17  in the straight section  11 . Use of plastic as a construction material does not affect the ease with which the user may cut the straight sections  11  easily to create a canvas stretcher of the desired size. 
     The notch  16  formed continuously in the straight section  11  is not only formed to receive the rectangular peg  13  of the fixed corner section  10 , it is also configured to receive the optional long and butting bracing members  14 ,  15  in a way that keeps the optional long and butting bracing members  14 ,  15  from extending beyond the back of the canvas stretcher. These optional long and butting bracing members  14 ,  15  may be used to counteract the inward forces exerted on the canvas stretcher by the taut canvas that would otherwise warp the straight sections  11  of the canvas stretcher. Conventional bracing elements are ordinarily tacked onto the back of the canvas stretcher creating a canvas stretcher which cannot be hung flush against a wall. The instant invention allows the optional long and butting bracing members  14 ,  15  to be inserted into the interior notch  16  formed on the straight section interior surface  25  of the straight sections  11  such that they do not protrude from the back of the canvas stretcher. The optional long and butting bracing members  14 ,  15  may be affixed to the straight sections using a fastener  18 . 
     This invention further contemplates a cross bracing member  20  placed at the intersection of the optional long and butting bracing members  14 ,  15 . As shown in FIG. 1, this cross bracing member  20  allows the long bracing member  14  to span the entire length or width of the canvas stretcher while the butting bracing member  15  which is perpendicular to the long bracing member  14  is bisected into two sections which butt against the long bracing member  14 . FIG. 13 shows how the cross bracing member  20  is affixed to the optional long and butting bracing members  14 ,  15  using one or more fasteners  18 . Specifically, FIG. 13 shows that in one embodiment of this invention four optional butting bracing members  15  may be used. The cross bracing member  20  is affixed to the optional bracing members  14 ,  15  in the same manner if four butting bracing members  15  are used or if a long bracing member  14  and two butting bracing members  15  are used. 
     The cross bracing member  20  improves the strength and rigidity of the canvas stretcher while also allowing the use of optional long and butting bracing members  14 ,  15  that are flush with the body of the canvas stretcher. The cross bracing member  20  allows the butting bracing member  15  to butt against the long bracing member  14 . Otherwise, one bracing member would have to ride over the top of the perpendicular bracing member creating a profile which extends beyond the main body of the canvas-stretcher. 
     From the description above, it will be seen that the present invention provides a unique canvas stretcher. The canvas stretcher is composed of a small number of simply designed elements which represent a real advance over the prior art. The fixed corner sections  10  ensure the squareness of the canvas stretcher throughout the canvas stretching process. The straight sections  11  with a notch  16  on the straight section interior surface  25  and circular aperture  17  formed along and through the entire length, or a substantial length, of the straight section  11  provides the user with the ability to alter the canvas stretcher by making a single, simple straight cut. The straight section raised surface  28  and fixed corner raised surface  44  provide clearance for the canvas to minimize deterioration. Finally, the optional long and butting bracing members  14 ,  15  allow the final work of art to be hung flush against a wall. 
     While particularly preferred embodiments have been shown, it should be expressly understood that such embodiments have been given for illustrative purposes only and are not intended to limit the scope of the present invention as further defined by the appended claims. For example, the fixed corner sections  10  discussed above are fixed at 90° angles and thereby limiting the canvas stretcher to square or rectangular shapes. Fixed comers having different angles may be used without departing from the underlying concept of the invention. Similarly, the embodiment discussed above relates a notch  16  and circular aperture  17  configured to receive the rectangular peg  13  and circular dowel  12 , respectively. These elements need not be rectangular or circular. Other shapes may be used without departing from the underlying concept of the invention. 
     FIGS. 14,  15  and  16  illustrate a further alternative embodiment of the present invention having extended fixed corner sections  46 . The extended fixed corner sections  46  have a shorter leg  68  terminating in a first shorter end surface  48  and a longer leg  70  terminating in a second longer end surface  50  as well as a longer leg interior surface  60 , extended fixed corner exterior surface  62 , extended fixed corner upper surface  64  and extended fixed corner lower surface  66 . The resulting extended fixed corner section is substantially “L” shaped in this embodiment. The first shorter end surface  48  has formed on it a plurality of protrusions which may include a shorter leg circular dowel  52  and a shorter leg rectangular peg or tenon  54 . The second longer end surface  50  and the longer leg interior surface have formed in them a plurality of cavities which may include a longer leg circular aperture  56  and a longer leg notch or mortise  58 . The longer leg circular aperture  56  and longer leg notch  58  are configured in a way to receive the shorter leg circular dowel  52  and shorter leg rectangular peg  54 . It is apparent that for a rectangular construction a four piece construction may be used and the size of the frame, adjusted in a manner analogous to the other embodiments described which have separate fixed corner sections  10  and straight sections  11 . This embodiment does not depart from the underlying principles of the instant invention.

Technology Category: b