The present invention relates generally to frames, and specifically to a frame apparatus for displaying an article.
People often like to commemorate their achievements by framing diplomas and medals. Furthermore, people enjoy framing photographs, posters and other types of photographic media for display on the wall in their homes. People also frame certain types of memorabilia in order to display the memorabilia and protect it against damage that may occur over time as a result of the memorabilia being exposed to the ambient environment.
There are many different types of frames that currently exist for the purpose of displaying the item retained within the frame and protecting the item against damage. Frames come in a wide variety of sizes, colors, textures and finishes. Furthermore, frames can be used with matting that surrounds a smaller photo or item to enhance the aesthetics of the framed photo or item. Alternately, frames may be constructed such that they have transparent front and rear glazings. This permits a framed photo or item to appear as if it is floating within the frame.
One problem with existing frames is that they generally require a backing and additional mounting clips to retain the backing in the frame. Multiple clips are usually required to adequately secure the backing. These clips require assembly, add manufacturing cost, and are frequently prone to breakage. A simpler frame apparatus that has fewer components, is easier to assemble, and is more robust is therefore desired.
Exemplary embodiments according to the present disclosure are directed to a frame apparatus for displaying an article, the frame apparatus comprising an annular display frame having an inner surface defining a display opening, the annular display frame comprising a rabbet defined by a floor and a wall of the annular frame, the wall of the rabbet comprising a first engagement portion and a second engagement portion. The frame apparatus further comprises a transparent front panel positioned in the rabbet that encloses the display opening, a rear panel positioned in the rabbet in a stack with the transparent front panel, and an annular spacer frame having an inner surface defining a central opening, the annular spacer frame positioned in the rabbet. The first and second engagement portions engage the annular spacer frame to lock the annular spacer frame and the stack in the rabbet.
In one aspect, the invention can be a frame apparatus that includes an annular display frame defining a rabbet, a stack positioned in the rabbet, and a spacer assembly. The rabbet is defined by a floor and a wall, the wall including a channel. The spacer assembly may have a rigid portion and a compressible portion. The spacer assembly is positioned in the rabbet with the compressible portion of the spacer assembly extending into the channel in the wall to couple the spacer assembly to the annular display frame. The spacer assembly may also be in contact with the stack to hold the stack in the rabbet.
In another aspect, the invention can be a frame apparatus for displaying an article, the frame apparatus comprising: an annular display frame having an inner surface defining a display opening, the annular display frame comprising: a rabbet defined by a floor and a wall of the annular display frame; and a channel formed into the wall; a stack positioned in the rabbet; and a plurality of spacer bars positioned in the rabbet, each of the spacer bars comprising a rigid portion and a compressible portion, the compressible portion extending into the channel in the wall of the rabbet to couple the spacer bars to the annular display frame and hold the stack in the rabbet.
In yet another aspect, the invention can be a frame apparatus for displaying an article, the frame apparatus comprising: an annular display frame having an inner surface defining a display opening, the annular display frame comprising: a rabbet defined by a floor and a wall of the annular display frame; and a channel formed into the wall; a stack positioned in the rabbet; and a spacer assembly positioned in the rabbet in contact with the stack, the spacer assembly comprising a rigid portion and a compressible portion, the compressible portion extending into the channel in the wall of the rabbet to couple the spacer assembly to the annular display frame and hold the stack in the rabbet.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The following detailed description of the exemplary embodiments will be better understood when read in conjunction with the appended drawings. It should be understood, however, that the invention is not limited to the precise arrangements and instrumentalities shown in the following figures:
The description of illustrative embodiments according to principles of the present invention is intended to be read in connection with the accompanying drawings, which are to be considered part of the entire written description. In the description of embodiments of the invention disclosed herein, any reference to direction or orientation is merely intended for convenience of description and is not intended in any way to limit the scope of the present invention. Relative terms such as “lower,” “upper,” “horizontal,” “vertical,” “above,” “below,” “up,” “down,” “left,” “right,” “top” and “bottom” as well as derivatives thereof (e.g., “horizontally,” “downwardly,” “upwardly,” etc.) should be construed to refer to the orientation as then described or as shown in the drawing under discussion. These relative terms are for convenience of description only and do not require that the apparatus be constructed or operated in a particular orientation unless explicitly indicated as such. Terms such as “attached,” “affixed,” “connected,” “coupled,” “interconnected,” and similar refer to a relationship wherein structures are secured or attached to one another either directly or indirectly through intervening structures, as well as both movable or rigid attachments or relationships, unless expressly described otherwise. Moreover, the features and benefits of the invention are illustrated by reference to the preferred embodiments. Accordingly, the invention expressly should not be limited to such preferred embodiments illustrating some possible non-limiting combinations of features that may exist alone or in other combinations of features; the scope of the invention being defined by the claims appended hereto.
Referring to
In the preferred embodiment, the transparent front panel 130 is clear. The transparent front panel 130 may be composed of any material, but is most preferably made of glass, polystyrene, acrylic, plexiglass, polycarbonate, or any other clear material suitable for framing purposes. The rear panel 140 may also be made of glass, polystyrene, acrylic, plexiglass, polycarbonate, or any other clear material suitable for framing purposes. In yet other embodiments, the rear panel 140 may be made of an opaque material such as cardboard, cellulosic fiberboard, PVC, aluminum, or other materials known in the art. The rear panel 140 need not be clear, and may be either clear or transparent, depending on the desired end product. In the event that the rear panel 140 is not desired to be clear, it may also be translucent or painted or finished with other materials such as paint or felt so that a pleasing texture is achieved. If desired, more than two panels may be used as discussed above. It is conceived that three or more panels may be used, and any of them may be transparent, translucent, or opaque. Thus, it is within the scope of the invention to have both the transparent front panel 130 and the rear panel 140 be formed of a transparent material and interpose one or more additional transparent, translucent, or opaque layers between the transparent front panel 130 and the rear panel 140.
As will be discussed in greater detail below, the annular display frame 110 may be constructed from extrusions of aluminum, PVC, steel, or other materials capable of providing a rigid profile and an aesthetically pleasing outward appearance. Generally the annular display frame 110 is rectangular, but in some embodiments, it may be formed as a square, and all four segments would be of equal length. The annular display frame 110 is formed of four segments, each segment being an extruded component having an identical cross-sectional profile. The annular display frame 110 is formed with two short segments 191, 192 and two long segments 193, 194. These four segments 191-194 form a closed perimeter. The segments 191-194 are cut such that each corner has a 45 degree miter or are cut at 90 degrees and one length is butted against the other. Other ways of forming the ends of the segments are also conceived of, as would be apparent to one of skill in the art. The lengths of material may be joined by a corner bracket, which is preferably made of stamped steel and dimensioned such that the corner bracket fits within the extruded profile of the lengths of material. The corner bracket engages two adjacent lengths of material, forming a finished edge without gaps. In alternate embodiments the corner brackets may be made of plastic, aluminum, or the like. In yet other embodiments, such as those discussed in greater detail below, the frame may be formed as a single piece, or may be constructed of wood, medium-density fiberboard (MDF), plastic, or other materials and joined using nails, screws, staples, adhesive, welding, molding, or the like. These embodiments do not require corner brackets. Other processes may be used to form the annular display frame 110, as would be apparent to one of skill in the art. In certain other embodiments the annular display frame 110 may be an oval, a polygon, or any other shape desired.
The annular display frame 110 generally comprises a front surface 112 and a rear surface 114. The front surface 112 is the surface of the annular display frame 110 that is typically visible to a user while the frame apparatus 100 is hanging from a wall or other surface. The rear surface 114 abuts the wall or other surface when the frame apparatus 100 is made to hang therefrom. The annular display frame 110 also has an inner surface 116 which defines a display opening 117. The inner surface 116 extends in a direction substantially perpendicular to the front surface 112, but may also be at an angle such that the inner surface 116 has either an inward or outward taper when viewed from the front surface 112 of the annular display frame 110. This may be used to enhance the aesthetic appeal of the frame apparatus 100. The inner surface 116 is adjacent to a rabbet 118 which is defined by a floor 120 and a wall 122 of the annular display frame 110. The rabbet 118 is formed so that the transparent front panel 130 will fit within the rabbet 118 but can only be removed from the rear surface 114 of the annular display frame 110. This provides a pleasing aesthetic appearance when viewed from the front surface 112 and prevents unintended removal of the transparent front panel 130. In yet other embodiments, the inner surface 116 need not be one formed of planes, but instead may consist of castellations, fingers, curves, or any other geometry. This may be desirable to produce an ornamental appearance that is more ornate or fanciful to enhance consumer appeal.
The display opening 117 formed by the inner surface 116 of the annular display frame 110 may be divided into separate display areas by one or more ornamental dividers, which are not shown in the present embodiment. One ornamental divider may be used to provide two separate display areas, or a pair of intersecting ornamental dividers may be used to divide the display opening 117 into four separate display areas. Other configurations would be apparent to one of skill in the art.
Surrounding the floor 120 is a wall 122. The wall 122 is generally perpendicular to the front surface 112 such that it forms the rabbet 118 and contains the transparent panel 130 such that the transparent panel 130 drops into the rabbet 118 and prevents significant in-plane motion of the transparent panel 130. Thus, the transparent panel 130 can only be moved a small distance in a plane parallel with the front surface 112. The wall 122 need not be a continuous surface, and need only contain the transparent panel 130 within the annular display frame 110.
The wall 122 of the rabbet 118 has a first engagement portion 170 and a second engagement portion 180 to retain the annular spacer frame 150. In the present embodiment, the engagement portions 170, 180 are formed as first and second grooves 171, 181 which are formed into the wall 122. The first groove 171 has a first entry section 172 and a first receiving section 173. The first entry section 172 extends generally parallel with the front surface 112 of the annular display frame 110, while the first receiving section 173 extends generally perpendicular to the front surface 112. The first entry section 172 may extend at an angle to the front surface 112, but may not be perpendicular to the front surface 112. Similarly, the first receiving section 173 may extend at an angle other than perpendicular to the front surface 112, but may not be parallel to the front surface 112. The engagement portions 170, 180 extend along the entirety of the length of their respective segments. However, in alternate embodiments the engagement portions 170, 180 may only be formed along part of the length of their respective segments.
The first entry section 172 has a first engagement surface 174 facing toward the floor 120 of the rabbet 118. The first engagement surface 174 forms one wall of the first groove 171, but does not need to be co-planar with the floor 120 of the rabbet 118. The first engagement surface 174 must only face toward the floor 120 of the rabbet 118, so considerable deviations from parallel are permissible. In certain embodiments, an angle may facilitate interlocking and retention of the annular spacer frame 150. The first receiving section 173 has a first locking surface 175 that is non-parallel to the first engagement surface 174. This provides a feature whereby the annular spacer frame 150 can interlock and cannot be easily withdrawn. However, in some embodiments the locking surface 175 may be omitted.
The second groove 181 has a corresponding second entry section 182 and a corresponding receiving section 183 which are identical to the first entry section 172 and the first receiving section 173. The second entry section 182 has a second engagement surface 184 forming one wall of the second groove 181, the second entry section 182 facing the floor of the rabbet 118. Once again, there is no requirement that the second engagement surface 184 be co-planar with the floor 120 of the rabbet 118. The second receiving section 183 has a second locking surface 185 that is non-parallel to the second engagement surface 184. In other embodiments the first and second grooves 171, 181 are not identical. As can be seen in
Turning to the annular spacer frame 150, which is shown in the exploded view of
Turning to
The first and third locking tabs 152, 152A of the annular spacer frame 150 engage the first engagement portion 170 of the annular display frame 110. The second and fourth locking tabs 154, 154A of the annular spacer frame 150 engage the second engagement portion 180 of the annular display frame 110. This locks the annular spacer frame 150 and the stack into the rabbet 118 of the annular display frame 110. In the present embodiment, the locking tabs 152, 152A are spaced apart from each other along the elongate member and spaced apart from the ends of the elongate member. Similarly, the locking tabs 154, 154A are spaced apart from each other along the elongate member and spaced apart from the ends of the elongate member. This helps to ensure even pressure is applied to the stack and permits deflection of the annular spacer frame 150 to permit assembly. In embodiments where a single locking tab is used per side, it is generally centered on the elongate member to ensure even distribution of compression force on the stack. However, in yet other embodiments, a single locking tab may be arranged asymmetrically on the elongate member.
The first and third locking tabs 152, 152A protrude from the outer surface 158 of the annular spacer frame 150. The outer surface 158 is the peripheral edge of the annular spacer frame 150, and is opposite the inner surface 156. The first and third locking tabs 152, 152A have a first locking section 160 and a second locking section 161. The first locking section 160 extends from the outer surface 158 in an approximately perpendicular direction. However, in other embodiments the first locking section 160 may extend at any angle from the outer surface 158 that is non-parallel to the outer surface 158. The second locking section 161 extends from the first locking section 160 in a non-parallel direction, facing toward the rear surface 114 of the annular display frame 110 when assembled. In the exemplary embodiment, the second locking section 161 extends perpendicular from the first locking section, but it may extend in any direction that is non-parallel to the first locking section 160.
As can be seen in
The second and fourth locking locking tabs 154, 154A of the annular spacer frame 150 also protrude from the outer surface 158 of the annular spacer frame 150. The second and fourth locking tabs 154, 154A have a first locking section 164 which extends in a non-parallel direction from the outer surface 158 of the annular spacer frame 150. In the exemplary embodiment, there is no second locking section, but a second locking section may be added to improve retention of the second and fourth locking tabs 154, 154A in the annular display frame 110. The first locking section 164 of the second and fourth locking tabs 154, 154A engages the second engagement portion 180 of the annular display frame 110. Specifically, the first locking section 164 makes contact with the second engagement surface 184. The first locking section 164 may extend perpendicular to the outer surface 158 of the annular spacer frame 150, or may extend at an angle that facilitates assembly or enhances the compression applied by the annular spacer frame 150 against the stack, to prevent the display article from moving when the frame apparatus 100 is handled.
As can be best seen in
During assembly of the frame apparatus, the user places the transparent front panel 130 into the rabbet 118 of the annular display frame 110. The display article is placed onto the transparent front panel 130, followed by the rear panel 140. Finally, the first and third locking tabs 152, 152A of the annular spacer frame 150 are engaged with the first engagement portion 170 of the annular display frame 110, inserting the second locking section 161 into the first groove 171. The annular spacer frame 150 is then rotated such that the second locking section 161 engages the first locking surface 175 and the first locking section 160 engages the first engagement surface 174. This causes a compression force to be applied to the stack as the annular spacer frame 150 drops into the rabbet 118. The user then deflects the second and fourth locking tabs 154, 154A using the gripping elements 165 and inserts the first locking section 164 of the second and fourth locking tabs 154, 154A into the second engagement portion 180 of the annular display frame 110. As pressure on the gripping elements 165 is released, the annular spacer frame 150 relaxes and the second and fourth locking tabs 154, 154A sit tightly in the second engagement portion 180, with the first locking section 164 engaging the second engagement surface 184. A further compression force is applied by the second and fourth locking tabs 154, 154A as they interact with the second engagement surface 184, which enhances the compression of the stack to retain the display article. The fully assembled state is known as the first state. The second state is achieved when the annular spacer frame 150 is deflected such that the second and fourth locking tabs 154, 154A are disengaged from the second engagement portion 180. In alternate embodiments, the first and third locking tabs 152, 152A may be disengaged from the first engagement portion 170 to release the annular spacer frame 150 instead of the second and fourth locking tabs 154, 154A.
The compression forces applied by the annular spacer frame 150 as it interacts with the first and second engagement portions 170, 180 are the product of the locking tabs 152, 152A, 154, 154A having an elasticity that functions as a spring. In alternate embodiments, a separate spring feature may be formed on the annular spacer frame 150 to provide the desired compression force. In yet other embodiments, a portion of the annular display frame 110 may provide the required compression force. In yet further embodiments, a compressible material may be applied to one of the annular spacer frame 150 or the annular display frame 110 to provide the required compression force.
The annular spacer frame 150 is intended to have a lower rigidity than the annular display frame 110 so that it is capable of being deflected as it is installed into the annular display frame. In this context, a component is said to have greater rigidity when, for a given length, the component deflects less than the component against which it is compared. Thus, the annular spacer frame 150 is capable of deflecting more than the annular display frame 110 when comparing elongate members of equal length. It is intended that the annular spacer frame 150 of the frame apparatus 100 be designed with a lower rigidity so that it can always be deflected for easy assembly. This lower rigidity may be obtained by materials selection (i.e. choosing a material that has a lower stiffness for the annular spacer frame 150 than the stiffness of the material used for the annular display frame 110) or by design. In achieving the desired lower rigidity, it is possible that the annular spacer frame 150 have features that intentionally lower the rigidity of the annular spacer frame 150. This intentional design may be used to selectively lower the in-plane stiffness of the annular spacer frame 150 while not having a lesser effect on the stiffness of the annular spacer frame 150 in a direction perpendicular to the plane formed by the front surface 112 of the annular display frame 110. Thus, the stiffness may be different in orthogonal directions, so that the annular spacer frame 150 is easy to deflect to engage the locking tabs 152, 154, but provides a strong compression force against the stack.
When the annular spacer frame 150 is installed into the annular display frame 110, the floor 120 of the rabbet 118 conceals the annular spacer frame 150 when the frame apparatus 100 is viewed from the front surface 112 of the annular display frame 110. The inner surface 156 of the annular spacer frame 150 is outwardly offset from the inner surface 116 of the annular display frame 110 by an offset distance D. In some embodiments, the inner surface 156 is coplanar with the inner surface 116. In yet other embodiments, the inner surface 156 is inwardly offset from the inner surface 116 of the annular display frame 110.
Furthermore, the annular spacer frame 150 has a thickness which is less than the depth of the rabbet 118 so that the annular spacer frame 150 is recessed from the rear surface 114 of the annular display frame 110. This permits the frame apparatus 100 to be hung on a wall or other vertical surface, with the rear surface 114 of the annular display frame 110 flush against the wall.
In the preferred embodiment, the annular spacer frame 150 is integrally formed as a singular monolithic component. The annular spacer frame 150 is most preferably injection molded, but may be formed by other methods. This provides a sufficiently rigid structure which may be manufactured cheaply, and improves the ease of assembly. The annular spacer frame 150 is formed as a plurality of elongate members which form the periphery of the annular spacer frame 150. In alternate embodiments, the elongate members may be formed as individual elongate members which are individually formed and inserted into the annular display frame 110. In yet further embodiments, the annular spacer frame 150 may be formed in separate portions to avoid the need for unusually large injection mold tools or other fabrication equipment.
In the exemplary embodiment, hanger elements 168 are incorporated into the annular spacer frame 150 to permit hanging on a nail, hook, or other device mounted on a wall or other surface. The hanger elements 168 may be located on two adjacent sides of the annular spacer frame 150 to permit mounting in a landscape or portrait orientation, or may be included on all four sides for user convenience. The hanger elements 168 are generally formed at the midpoint of the elongate members so that the frame apparatus 100 will hang level. In yet other embodiments, the hangers 168 may be omitted.
As best seen in
The annular spacer 250 also has gripping elements 265 comprising gripping tabs 266 protruding from a rear surface 259 of the annular spacer frame 250. In contrast with the gripping elements 165 of the annular spacer 150 of the frame apparatus 100, these gripping elements 265 also have slots 269 on either side of the gripping tabs 266 which increase the flexibility of the second and fourth locking tabs 254, 254A so that they can more easily be inserted into the second engagement portion 280. Collectively, each of the respective gripping elements 265 and the locking tabs 254, 254A form a latch mechanism when they are bordered by slots 269. This is best shown in
Turning to the third embodiment of the present invention, the frame apparatus 300 disclosed in
Details of the construction of the annular display frame 310 are shown in greater detail in
The annular spacer frame 350 is also constructed so that it has a first locking tab 352 and a second locking tab 354 provided on opposite elongate members. The annular spacer frame 350 is constructed in two pieces. In addition, the annular spacer frame has third locking tabs 355 located on perpendicular elongate members, such that all four sides engage the annular display frame 310.
The first, second, and third locking tabs 352, 354, 355 are curved so as to apply a spring pressure on the stack, and may deflect to accommodate differing thicknesses of display articles. The locking tabs 352, 354, 355 of this embodiment are identically formed, and have only a single first locking section 360 which engages the first engagement surface 374 of the engagement portion 370. The gripping elements 365 are integrally formed with the first locking section 360, such that a latch mechanism is formed in by the C-shaped curvature of the locking tabs 352, 354, 355 and the gripping elements 365, and no additional features are required to provide the user with a gripping area to engage or disengage the latch mechanism. This design also provides the necessary compression force, requiring no additional geometry. Individual engagement of each of the locking tabs 352, 354, 355 is possible due to the flexibility inherent in the C-shaped curvature.
Turning to
In a fifth embodiment of the frame apparatus 500 as shown in
Of particular note, the annular display frame 510 has an engagement portion 570 which is formed a simple groove having only an entry section 572 having a first engagement surface 574. There is no locking section because it is not required to provide the desired level of retention and compression force. Furthermore, the annular display frame 510 is formed of a solid material rather than an extrusion.
Turning now to
The rear panel 740 of the present embodiment differs from the rear panel of other embodiments because it incorporates a hanger element 768 attached to a rear face 741 of the rear panel 140. This hanger element 768 permits hanging of the frame apparatus 700, and is located near the center of the rear panel 740 so that it is covered by the article to be displayed when in use, preventing it from being seen in the event that the rear panel 740 is a transparent or translucent material. The hanger element 768 may be attached by ultrasonic welding, adhesive, integral molding, or the like. The hanger element 768 further incorporates mounting features 742 so that the frame apparatus 700 may be hung in a portrait orientation or a landscape orientation. In alternate embodiments, two or more mounting features 742 may be incorporated. Additional hanger elements may also be provided on the annular spacer frame 750.
The embodiment of the frame apparatus 800 shown in
The locking tabs 852 protrude outward from the wall 822 of the rabbet 818. The locking tabs 852 are formed as a first locking section 860 having an insertion aid 876 formed on the top surface 877. The insertion aid 876 is designed to reduce the force required to insert the annular spacer frame 850. The annular spacer frame 850 is then captured underneath the locking tab 852 and compressed against the stack. The locking tabs 852 are designed to apply the required compression by design, and may extend outward from the wall 822 at any angle that is non-parallel with the wall 822. In some embodiments, the locking tabs 852 may be formed as a triangular protrusion, and may have additional features to increase the flexibility of the locking tabs 852 without compromising the rigidity of the annular display frame 810. In this embodiment, the annular spacer frame 850 still has a rigidity which is lower than the annular display frame 810, but in other embodiments it is contemplated that the annular spacer frame 850 may have a similar or greater rigidity, and may rely on the deflection of the locking tabs 852 alone to assemble the frame apparatus 800.
In a ninth embodiment of the invention shown in
While the invention has been described with respect to specific examples including presently preferred modes of carrying out the invention, those skilled in the art will appreciate that there are numerous variations and permutations of the above described systems and techniques. It is to be understood that other embodiments may be utilized and structural and functional modifications may be made without departing from the scope of the present invention. Thus, the spirit and scope of the invention should be construed broadly as set forth in the appended claims.
The present application is a continuation of U.S. patent application Ser. No. 16/454,320, filed Jun. 27, 2019, which is a continuation of U.S. patent application Ser. No. 15/948,025, filed Apr. 9, 2018, now U.S. Pat. No. 10,376,077, which is a continuation of U.S. patent application Ser. No. 15/155,984, filed May 16, 2016, now issued as U.S. Pat. No. 9,962,018, which claims the benefit of U.S. Provisional Patent Application Ser. No. 62/200,184, filed Aug. 3, 2015, the entireties of which are hereby incorporated herein by reference.
Number | Name | Date | Kind |
---|---|---|---|
1358988 | Rindsberger | Nov 1920 | A |
2777232 | Kulicke | Jan 1957 | A |
2806309 | Goldberg | Sep 1957 | A |
3579886 | Hughes | May 1971 | A |
3665628 | Dammond | May 1972 | A |
3745680 | Faust | Jul 1973 | A |
3811214 | Tate | May 1974 | A |
3865342 | Kanzelberger | Feb 1975 | A |
4583309 | Kane | Apr 1986 | A |
4736539 | Dickinson | Apr 1988 | A |
4850125 | Green | Jul 1989 | A |
4949483 | Dobson | Aug 1990 | A |
5012601 | Garland et al. | May 1991 | A |
5125175 | Huff, Jr. | Jun 1992 | A |
5524370 | Roy | Jun 1996 | A |
6354031 | Meur | Mar 2002 | B1 |
6742296 | Johnson et al. | Jun 2004 | B2 |
7069682 | Gatt et al. | Jul 2006 | B2 |
20030226302 | Flodin et al. | Dec 2003 | A1 |
20130180142 | Kressin et al. | Jul 2013 | A1 |
Number | Date | Country |
---|---|---|
1927833 | Dec 1970 | DE |
2707150 | Jan 1995 | FR |
2828081 | Feb 2003 | FR |
2114884 | Sep 1983 | GB |
Entry |
---|
Klingenberg, Rena, Wire Line Art Pendant (Tutorial), Jewelry Making Journal, 2016. |
Number | Date | Country | |
---|---|---|---|
20210030172 A1 | Feb 2021 | US |
Number | Date | Country | |
---|---|---|---|
62200184 | Aug 2015 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 16454320 | Jun 2019 | US |
Child | 17075791 | US | |
Parent | 15948025 | Apr 2018 | US |
Child | 16454320 | US | |
Parent | 15155984 | May 2016 | US |
Child | 15948025 | US |