This application is a continuing application of co-pending U.S. application Ser. No. 11/106,235 filed Apr. 14, 2005, and provisional patent application Ser. No. 60/953,451 filed Aug. 1, 2007, all of which are hereby incorporated by this reference in their entireties.
TECHNICAL FIELDThe present invention relates to a system of picture framing, and in particular picture frames that can be grouped together precisely and mounted on a wall or alternatively supported together or individually on a desk or other flat surface. This inventive concept further relates to a system of displaying almost any generally flat graphic works including pictures, papers with text and/or graphics of almost any type, hereinafter called images, as well as storing a number of similar flat images simultaneously in the modular frame system.
BACKGROUND ARTThere have been a number of picture frame systems in the past that included a frame structure of injection molded polymer. One example is shown in PCT/US/89/04500 filed 12 Oct. 1989. That frame has an integral outer margin and a flexible clear laminate cover (FIG. 8) that snaps into the inner margins of the frame. Another prior art frame is shown in U.S. Pat. No. 6,705,034, where an integrally molded frame also has a transparent cover sheet which is removable from the front of the molded frame. Neither of these prior patents discuss the problem of storing multiple images nor of keeping all the parts of a modular framing system conveniently together while in use.
SUMMARY DISCLOSURE OF THE INVENTIONThe invention includes a modular picture frame system that includes a rectangular frame base of a predetermined overall rectangular dimension. The base includes a surround with a substantial depth dimension which defines an inner perimeter and an outer perimeter in a general rectangular shape, an image holder removably mountable within the inner perimeter of the base. The image holder has a generally planar, transparent front through which an underlying image can be viewed, and at least one upstanding wall integrally formed with the transparent front and extending from the plane of the transparent front. The upstanding wall has a detent on a distal end which is sized to releasably engage the inner perimeter of the frame body surround. The upstanding wall is sized to define, together with the transparent front, a cavity with a depth dimension adequate to contain and store at least several thicknesses of paper-based images when the surround is engaged by the wall detent. The image holder preferably has a translucent perimeter portion around the edges of the transparent front. This translucent perimeter is dimensioned such that at least the wall detent is partially obscured when viewed through the translucent perimeter portion.
More particularly, this translucent perimeter has a surface texture which obscures the edge portions of an image viewed through the transparent front. When the image is a photograph with reorder information printed on and around on the edge portions of the photograph, this reorder information underlies the translucent perimeter. Furthermore the perimeter has corner edges that connect the generally flat front with the edge portions, with these corner edges are rounded to an outer radius of around one-quarter inch.
The modular framing system includes at least one connector sized and shaped to releasably attach one frame body to a similarly constructed frame body when the two frame bodies are mounted on a wall or the like. Each of the frame bodies includes cavity extending into the surround from the backside thereof. The cavity in the frame body of at least one of the frame bodies is sized to store at least one connector.
The inventive modular frame system is constructed to be front loading, that is, the frame body need not be removed from its attached condition on the wall when removing or placing an image within the image holder. Preferably the modular frame system includes a hook and loop fastener adhesively adhered to the back of the frame body such that the modular frame system can be attached to a wall surface but removable therefrom. While the frame body is attached to the wall by the hook and loop fastener the image holder can be removed from the front of the frame bodies to permit changing the image to be displayed through the transparent front of the image holder without having to detach the frame body from the wall.
The image holder of this inventive concept defines a cavity by the integral edges having a depth, this cavity being adequate to store several thicknesses of image materials. In particular the depth of this cavity is adequate to store up to twenty photographs of conventional thickness, or up to fifteen such conventional photographs and two layers of three-ply mat board.
The front or consumer viewable side of the frame body is preferably float coated with a decorative, preferably opaque coating. The frame body has preferably two props or supports sized and shaped to stand the frame body upright on a horizontal surface such as a desk. These supports are integrally molded to an edge of a generally flat frame body interior and are positioned towards the center of the rectangular shape of the frame body. The frame body has at least one cavity of the cavities in the back surface of the frame body sized to grippingly receive an end of each support.
These supports or props include a horizontal surface engaging edge and a connector edge. The connector edge has an L-shape in cross section whereby when the desk prop is inserted in the frame body cavity, the support is held perpendicular to the overall plane of the frame body but positioned coplanar with the adjacent outer most perimeter edge of the frame body. The support is shaped such that when assembled it holds the frame body at approximately 64 degrees from the horizontal surface on which the supported frame is placed.
Preferably the modular frame system includes several of the aforementioned connectors. Each of these connectors has two ends and each of the ends sized to fit snugly into at least one cavity on the back side of the frame body, and a middle portion positioned between the two ends. The middle portion is sized to precisely space a frame body from a similarly constructed frame body when the two frame bodies are connected to the ends of a connector. This arrangement has the advantage such that when one picture frame assembly is mounted on a wall with connectors in place, the similarly constructed frame when connected to the connectors will be positioned precisely relative to the first frame. In particular if the first frame is level i.e. the top and bottom sides are horizontal, the thus connected frame will be also level and horizontal. In order to increase the versatility and number of aesthetically pleasing arrangements for plurality of these inventive frames, each of the four perimeter edge portions has appropriately sized cavities in its back sized to receive the ends of these connectors. These edge portions include a another cavity adjacent to these first cavities sized to store the connectors such that the connector's ends and middle portions are out of sight when the frame is mounted on the wall or the like.
The frame body has an interior flange extending from the inward facing edge at the back face of the perimeter frame. This interior flange has a broad front surface and a similarly broad rear surface. The front surface includes a graphic information in the form of a embossed or de-bossed text or graphics on the front of the surface, including such information as reorder information, legal legends and the like. This information is thus readable through the opaque or decorative surface treatment provided by the float coating. The back, broad surface of this interior flange has markings for locating the adhesive hook and loop fasteners as well as apertures for use with a penetrating nails, screws or other such conventional wall fasteners.
BRIEF DESCRIPTION OF THE DRAWINGSFIG. 1 shows a modular picture frame as seen from the front or consumer side thereof, including a pair removable, integrally molded desk supports.
FIG. 2 shows a rear view of the modular picture frame including two stored connectors.
FIG. 3 is a close-up view of the lower left corner portion of the modular picture frame ofFIG. 2.
FIG. 4 is a perspective view of a connector.
FIG. 5 is an exploded view of the modular picture frame system including the transparent image holder.
FIG. 6 is an orthographic view of an assembled modular picture frame with connectors inserted along an edge of the frame body.
FIG. 7 is a close up side view of the edge of a frame body showing a connector.
FIG. 8 is a partial cross section of a portion of the image holder taken along line7-7 ofFIG. 6.
FIG. 9 shows three frame bodies connected to each other with connectors.
FIG. 10 shows a portion of two frame bodies connected together with connectors.
FIG. 11 is an exploded view of the modular frame system showing typical collection of its parts as shipped to the consumer.
FIG. 12 is a detailed view of a support tab or prop.
FIG. 13 two frames supported with tabs (not to scale) on a horizontal surface.
BEST MODES FOR CARRYING OUT THE INVENTIONThe modular frame and the system of modular frames comprise at least one frame base orbody10, and preferably three such frame bodies, each manufactured in a different overall size to accommodate three different sizes of graphic works orimages62. By images it is meant the usual laminar, typically paper-based image bearing media such as photographs, documents, pencil or pen sketches, and other graphic representations. Such images could also be naturally occurring items of aesthetic or historical significance such as leaves, pressed flowers, and other relatively broad, thin objects that would be appropriate to place below a pane of glass such as is usually used to display such articles within a surrounding frame bezel. In the preferred embodiment these frame bases accommodate images having overall dimensions of up to a maximum of 8″×10″,5″×7″ and 4″×6″. Of course the larger e.g., 8×10 frame base can accommodate items smaller than 8″×10″ through the use of an aperture mat as will be detailed below.
In more detail the frame base has a front or forward facingsurface11 that usually predominates when the modular frame is being used to display an image on a desk or other horizontal surfaces, and preferably when mounted on a vertical wall surface. Thisfront surface11 is dominated by a moldedbezel12 which forms the overallrectangular surround12 of the frame. The molded bezel preferably has a generally vertical upstandingouter perimeter13 and artistically inwardly taperingfront surface14, which terminates at aninner edge15. The taperingfront surface14 could be further embellished or decorated with classical details, e.g. ball and spindle, scallops, but most preferably it is merely an ogee, that is with a smoothly curving S-shaped profile. Each side of the generally rectangular surround intersects at acorner16 that has a smoothly filleted miter intersection. formed when theframe body10 is injection molded into a one piece frame.
On the inward facing surface of the inner perimeter of this moldedbody10 includes a plurality of slots orindentations17 which are used to releasably engage the image holder as will be detailed below.
Each frame base has aback side18. This back surface is generally not visible when the frame is mounted on a wall and is only incidentally visible when the frame might be displayed on a desk or the like. This back18 hashollow sections19 extending around the perimeter of the molded bezel. These hollow sections are divided into generally overallrectangular cavities20, some of which haveprotrusions21 projecting inwardly from dividing walls. As least some of thesecavities20 are sized to snugly receive and hold a portion of specially formed connectors. Thesehollow sections19 also include ahollow perimeter portion22 inboard of the rectangular hollow sections. This hollow perimeter provides two main benefits. It reduces the amount of polymer or other material from which theframe body10 is formed, but it also provides adequate storage space to receive a plurality of the special connectors and thus serves as an integral, convenient, and generally hidden storage space for the unused connectors, even when the modular frame is being used to display images.
Visible from both the front and back, theframe body10 has aninterior flange23 that presents a broadrectangular surface24. This surface preferably has a number of throughholes25 which are sized and positioned to conveniently receive penetrating fasteners such as screws and nails (not shown) for holding the modular frame to the wall, although this is not the preferred method of fastening frame system to the wall. Thebroad surface24 facing outwardly has an important function in addition to the above, that is to receive molded-in text orgraphics25 either protruding (de-bossed) or embossed into the surface during molding via removable mold inserts. This system permits the manufacturer to include important technical and legal information readily visible to the user even when theframe body10 is affixed to a wall. Such information may include the name of the manufacturer, the model of theframe body10, and contact information for reordering replacement parts and the like. Its important to note that this text information is in the form of a texture so that the frame can be given a pleasing opaque coating over its front facing surfaces, as will be detailed below, but this information will not be obscured in this coating process.
Theback side18 of theframe body10 interior as stated above presents a broad flat surface26. This surface is sized to receive one or more adhesive attachingmeans27, preferably of the hook-and-loop fastener type. It is preferable that thehook portion28 of the hook-and-loop fastener27 would be adhered to this back surface26 located on the corner portions thereof, these locations being indicated by molded-in markings or the like. Once in place, the hooked portions attach well to the textile covering of office cubicles and the like, thus providing the office worker for convenient way to decorate their work cubicles. Otherwise, the loop portion of each hook and loop fastener can be positioned onto a vertical wall surface (not shown) to releasably hold the assembled modular frame system in position.
Removably mountable within theinterior perimeter edge17 of theframe body10 is theimage holder30. The image holder is injection molded of a water clear engineered polymer material such as an acrylic optical-grade polymer, a polycarbonate resin marketed under the brand “LEXAN” by GE Plastics, or the like. Preferably the polymer material has a UV absorbing additive to help protect the images displayed through the transparent center portion from light-induced degradation. Theimage holder30 includes aperimeter wall31 that extends around all four sides of thetransparent center portion32. Each of the four perimeter wall portions includes preferably two ridges ortabs33 that are resilient enough to pass along the inner perimeter of theframe body10 and snap into theindentations17 when theimage holder30, loaded with images, etc., is being mounted to theframe body10. To remove theimage holder30 from theframe body10, a thin tool or credit card can be inserted between theinner edge15 of theframe body10 and the upstanding wall31 (seeFIG. 8) to push aresilient tab33 away from the receivingindentation17 to permit removing theimage holder30 for changing the displayed image or, as will be detailed, for storing additional images within the perimeter walls of the image holder. Theimage holder30 includes an obscuringedge34 preferably in the form of a frosted texture (in contrast with the highly polished water clear surface of the center portion). This obscuring edge preferably consists of a frosted texture on both of the inner and outer surfaces at the perimeter of the image holder. This has the effect of obscuring the molded-intab33, thus somewhat disguising from the casual viewer the mechanics of how the image holder attaches to the frame body. The user of the frame can still see the tabs enough to insert the thin tool at thetabs33 to deflect the tabs from their correspondingindentations17. Providing this frosted texture on the perimeter, especially on the inside surfaces, also simplifies manufacturing, since the injection mold tooling need not be polished to the optical quality necessary for the proper transparency required in thecentral portion32 of theimage holder30.
Often certain images, especially school or team photographs, include reorder information in the form of a multi digit code printed on the front face of the photographic image very near an edge. This reordered code is not aesthetically pleasing. Accordingly the image holder's obscuringedge34 could be made even less transparent through the use of a very aggressive prismatic texture. This has the effect of obscuring this reordered information such that the user is not tempted to cut off the reorder information and thus frustrate the advantage of having the reorder code affixed to the corresponding image. Also, this obscuringedge34 eliminates the need for making or providing a aperture mat or mount to hide the reorder information or the raw and sometimes jagged edges of a paper image.
While wall mounting of the modular frame systems is preferred, support tabs ordesk props40 are provided. These are integrally molded to the innermost edge of the frame body interior flange. Each of these tabs have aconnection end41 and asupport end42 which form a predetermined angle there-between as will be detailed. The connector end is L shaped in cross section. Theoutermost edge43 of the connector end is sized to fit into the rectangular hollow sections betweenprotrusions21 arranged in thecavities19 on both the long and short sides of the rectangular frame body. Note that the L-shape of theconnector41 protrudes toward the front face of the frame body when theprops40 are initially integrally molded therewith. This places the outward facing side of theprops40 such that when the integrally molded frame body and props are coated or painted, as for example in float coating or spray coating, these surfaces are particularly given a coating aesthetically consistent with the paintedframe bezel12. The L-shaped connection ends41 position the thus coated surface of each prop substantially coplanar with the surface of the adjacentouter perimeter13 of the frame body. In this way when the frame body andsupport props40 are assembled for display on a horizontal surface such as a desk, the supports aesthetically blend with the frame bezel. The support edge and connector edge are such that, in combination with precisely positioned hollow sections/protrusions on the backside of the frame previously described with reference toFIGS. 2 and 3 for example, theframe body10 will be held at approximately sixty-four degrees from horizontal regardless of whether the frame is supported in the portrait or landscape orientation. This is illustrated inFIG. 13 where two frames, one with its longer dimension horizontal (that is, in a landscape orientation) and the other with its shorter dimension horizontal (that is, in a portrait orientation) are each supported at the desired sixty-four degree angle by identically dimensionedprops40.)
The modular frame system includes aspecial connector50 which shown in greater detail in the above mentioned prior U.S. application Ser. No. 11/106,235 which is incorporated herein to the extent and is consistent with this disclosure. Eachconnector50 is preferably injection molded from a generally transparent or translucent polymer and consists of three main portions interconnected by asmall web51, these portions comprising two ends52 and amiddle portion53 which protrudes up from theweb51 between the two ends. The figures show theconnectors50 in different combinations with the frame body, as will be detailed. In general though each connector, when connecting two frame bodies of the modular frame system, space each frame body by a precise thickness of themiddle portion53 of the connector then the ends are plugged into and frictionally engage the appropriately sizedhollow sections20 on the back of the frame bodies. Also, at least with regard to the larger of the frame bodies,multiple connectors50 store neatly by frictionally engaging one of the end portions into one of therectangular cavities20 with the rest of the connector positioned in thehollow perimeter22. This provides convenient storage place for such connectors when they are not being used interconnect a number of frame bodies. In this way the consumer will always have the connectors available for subsequent connecting or rearranging the interconnected frame bodies.
Preferably the modular frame is sold as a complete system in a neatly and easily shipped package. The package preferably includes threeframe bodies10 with the appropriatelysized image holders30 for each of the frame bodies (8×10, 5×7 and 4×6). Each of the thus sized image holders include abacking card60 of conventional one to three ply card stock and at least one preferably two aperture mounts61. The image holder has a depth dimension as determined by the distance theperimeter wall31 stands up from the back of thetransparent center portion32. This dimension should be at least such that it can contain at least the backing card, one aperture mount and one image (photograph, document, etc.). Preferably this depth dimension should be around 0.25 inch such that each of the image holders can hold and store a backing card, an aperture matt board mount, both of the desk props and around twelve standard thickness paper based images, or twenty standard thickness photographs without the apertured mount. In this way this modular frame system provides not only a means for displaying a selected image but a convenient place to store all the accessories necessary to or desired to change the method of display (from wall to desk mounting and from individual frame display to interconnected frames) as well as a plurality of related or unrelated images, as long as the images have a fairly small thickness dimension, like the above-describedphotographs62. For example it would be convenient for the parent, grandparent, or guardian of a child to have each school year photograph of their student held in the same image holder so that an entire photographic record of a child's primary school education could be contained in a single modular frame image holder.