None.
This relates generally to caskets, and more particularly to sheet metal caskets.
There is a trend in the death care industry towards personalizing to the deceased the funeral products and the funeral or other memorial service to provide a more meaningful memorial experience for the family and friends of the deceased. The casket in which the deceased is displayed can be customized to fit the needs and preferences of the deceased and the family. For instance, a wide variety of materials, finishes, colors, and decorative ornamentation can be chosen for the casket.
Some casket designs incorporate decorative corner ornaments secured to the casket during fabrication thereof. In many, if not most, prior designs, these ornamental corner pieces are rigidly affixed to the casket shell. Consequently, if a customer purchasing the casket is not pleased with the particular pre-installed ornamental corner pieces, and wishes to customize the casket exterior to his or her taste, the funeral director must go through a lengthy and complicated process to first remove the original ornamental corner pieces and then reinstall the ornamental corner pieces chosen by the customer. This process typically requires manual manipulation and access to the interior of the casket which may require the removal of bedding, lining, and the like. Such a process is time consuming and can damage the otherwise new casket and is thus frowned upon and generally avoided by the funeral director.
To more effectively market caskets, the funeral director desires to offer a wide variety of ornamental corner pieces from which a customer can select according to the customer's taste. However, to offer such a wide selection, and to avoid the undesirable practice mentioned above, the funeral director would have to maintain a large inventory of many different casket material/finish and corner piece combinations, which is also undesirable. To minimize the required inventory of finished caskets, the funeral director could simply have one casket of each material/finish on hand provided that the funeral director had some means providing for the quick and efficient changing of the ornamental corner pieces on each casket. As such, the customer could quickly view numerous corner pieces on a single casket, and the funeral director would need only stock a single casket of each material finish. Many prior casket designs, which rigidly affix the ornamental corner pieces, do not permit such quick and efficient changing of the ornamental corner pieces as discussed above.
A quick-change casket corner mechanism is disclosed in Acton et al. U.S. Pat. Nos. 6,591,466, 5,928,706, and 7,340,810, assigned to the assignee of the present invention and incorporated by reference herein. The Acton et al. patents disclose an ornamental corner piece assembly having a back plate that attaches to the corner of a casket. The back plate includes a clip member having at least one keyhole groove. A decorative corner insert includes at least one attachment member that slidingly engages the keyhole groove in the clip member such that the corner insert removably couples to the back plate. In this way, a funeral director may quickly and conveniently change out the decorative corner pieces to provide a wide variety of casket designs personalized to the deceased. Such a quick change casket corner ornament is commercially available from the assignee as its LIFESYMBOLS® line of corner ornaments.
Sheet metal caskets having round corners present their own unique challenges to incorporating the quick change casket corner of the Acton et al. patents. More particularly, it is desirable to orient the casket corner ornament at about a 45° angle relative to the adjacent casket shell side wall and end wall between which the casket corner ornament is positioned. Round corner sheet metal caskets have heretofore thus been problematic and therefore the casket corner ornament of the type disclosed in the Acton et al. patents has not previously been utilized on round corner sheet metal casket shells. For sheet metal casket shells having right-angle corners, currently a rectangular cut out is formed and then a flat rectangular plate is welded over the rectangular opening formed in the casket shell corner. A flat 45° wall between adjacent casket shell side and end walls is thus formed on which the casket corner back plate of the Acton et al. patents may be mounted.
It is desirable to devise a method of mounting the quick change casket corner ornament of the Acton et al. patents to a sheet metal casket having round corners which is less labor intensive than the method of mounting the quick change casket corner ornament of the Acton et al. patents to a sheet metal casket having right-angle corners.
In one aspect, a method of forming a sheet metal casket comprises providing a sheet metal casket shell having at least a portion of an end wall and at least a portion of a side wall and a round corner between the portion of the end wall and the portion of the side wall, and forming a generally planar corner oriented at about a 45° angle relative to the portion of the end wall and the portion of the side wall.
The step of forming a generally planar corner can comprise deforming the round corner inwardly so that the prior round corner becomes generally planar and oriented at about a 45° angle relative to the portion of the end wall and the portion of the side wall. The method can further comprise attaching a corner ornament back plate to the planar casket shell corner. The method can further comprise attaching an attachment clip to the back plate, the attachment clip having at least one groove comprising a slot and an opening communicating with the slot. The method can further comprise attaching an attachment clip to the back plate, the attachment clip having at least one groove comprising a first keyhole portion and a second non-keyhole portion. The first keyhole portion can have a first longitudinal axis, the second non-keyhole portion can have a second longitudinal axis, and the first and second longitudinal axes can be non-parallel. The first and second longitudinal axes can be perpendicular. The method can further comprise attaching an attachment clip to the back plate, the attachment clip configured such that a corner ornament is removably secured to the back plate via motion in first and second non-parallel directions generally parallel to a plane defined by a mounting surface of the back plate. The motion in the first and second directions can be rectilinear.
In another aspect, a sheet metal casket comprises a sheet metal casket shell having a pair of side walls and a pair of end walls and a generally planar corner spanning respective ends of adjacent ones of the side and end walls, the generally planar corner oriented at about a 45° angle relative to the adjacent ones of the side and end walls, the generally planar corner, at least a portion of the adjacent end wall, and at least a portion of the adjacent side wall formed from a continuous single piece of sheet metal.
The casket can further comprise a corner ornament back plate attached to the planar casket shell corner. The casket can further comprise an attachment clip attached to the back plate, the attachment clip having at least one groove comprising a slot and an opening communicating with the slot. The casket can further comprise an attachment clip attached to the back plate, the attachment clip having at least one groove comprising a first keyhole portion and a second non-keyhole portion. The first keyhole portion can have a first longitudinal axis, the second non-keyhole portion can have a second longitudinal axis, and the first and second longitudinal axes can be non-parallel. The first and second longitudinal axes can be perpendicular. The casket can further comprise an attachment clip attached to the back plate, the attachment clip configured such that a corner ornament is removably secured to the back plate via motion in first and second non-parallel directions generally parallel to a plane defined by a mounting surface of the back plate. The motion in said first and second directions is can be rectilinear.
In another aspect a sheet metal casket comprises a sheet metal casket shell having a pair of side walls and a pair of end walls and a generally planar corner spanning respective ends of adjacent ones of the side and end walls, the generally planar corner oriented at about a 45° angle relative to the adjacent ones of the side and end walls, the generally planar corner, at least a portion of the adjacent end wall, and at least a portion of the adjacent side wall formed from a continuous single piece of sheet metal, a corner ornament back plate attached to the planar casket shell corner, an attachment clip attached to the back plate, the attachment clip having at least one groove comprising a slot and an opening communicating with the slot, and an ornament with a fastener attached thereto, the fastener having a head thereon, the ornament attached to the back plate, the head removably retained behind the slot.
The attachment clip can comprise a front portion having a pair of vertically spaced right angle keyhole grooves therethrough, having a rearwardly projecting circular post, and having a rectangular rib adjacent said post, and a back portion having a pair of vertically spaced spring tabs each of which cooperates with one of the pair of vertically spaced right angle keyhole grooves, having a circular hole for receiving the circular post, and having a rectangular hole for receiving the rectangular rib. The ornament can include a pair of vertically spaced fasteners on a rear side thereof, each of which includes a head thereon. Each spring tab can include a pair of ribs spaced apart to accept the head of a respective one of the pair of fasteners.
Referring to
The casket 10 and ornament 20 can further comprise apparatus 32 for removably securing the ornament 20 to a mounting surface 34 of the shell 12. That apparatus 32 can comprise a first attachment element 36 associated with the mounting surface 34 of the shell 12 and a second attachment element 38 associated with the ornament 20. The first 36 and second 38 attachment elements are for removably securing the ornament 20 to the shell 12. One of the first 36 and second 38 attachment elements can be at least one groove 40 and the other of the first 36 and second 38 attachment elements can be at least one fastener 42 having a head 44 thereon. The groove 40 can comprise a slot 50 and an opening 52 communicating with the slot 50, the opening 52 being of a greater dimension than the slot 50. The fastener 42 can be a threaded fastener, for example a screw. The screw can be for example a shoulder screw.
The shell 12 can have a mounting member 60 disposed between adjacent ones of the side 14 and end 16 walls, and the ornament 20 can be mounted to the mounting member 60. Accordingly in this example the mounting surface 34 is a part of the mounting member 60 of the shell 12. Mounting member 60 can be the back plate shown and described in the Acton et al. patents. It can be attached to the shell with the use of bolts, nuts, and washers 72, 74, 76, respectively, or other suitable attachment means. Other mounting surfaces and members are possible. The mounting member 60 can be oriented at a 45° angle relative to the adjacent ones of the side 14 and end 16 walls. The first attachment element 36 can be associated with the mounting member 60, and the second attachment element 38 can be associated with the ornament 20. For example, groove 40, or a pair of grooves 40, can be formed in an attachment clip 62 secured to mounting member 60 with screws 64, and the shoulder screws 42 can be secured to the rear side of the ornament 20.
The first 36 and second 38 attachment elements can be configured such that the ornament 20 is removably secured to the shell 12 via motion in first and second non-parallel directions generally parallel to a plane defined by the mounting member 60. The groove(s) 40 can include a first keyhole portion 66 and a second non-keyhole portion 68. The first keyhole portion 66 can have a first longitudinal axis, the second non-keyhole portion 68 can have a second longitudinal axis, and the first and second longitudinal axes can be non-parallel. For example, the first and second longitudinal axes can be perpendicular. For examples, the first and second directions can be rectilinear or curvilinear.
To install the ornament 20, the head(s) 44 of the fastener(s) 42 are inserted into opening(s) 52 of groove(s) 40; ornament 20 is then moved generally parallel to a plane defined by mounting member 60 from left to right as illustrated thus sliding head(s) 44 from left to right in slot(s) 40. The ornament 20 is then moved again generally parallel to the plane defined by the mounting member 60 downwardly thus sliding head(s) 44 down in slot(s) 50. While not required, the multi-direction movement to install ornament 20 can reduce the potential for the ornament 20 to become inadvertently dislodged.
Referring to
Referring to FIGS. 1 and 2A-C, a method of forming the sheet metal casket shell 12 is illustrated. The method comprises providing a sheet metal casket shell 12 having at least a portion 216 of the end wall 16 and at least a portion 214 of the side wall 14 and a round corner 220 between the portion 216 of the end wall 16 and the portion 214 of the side wall 14, and forming a generally planar corner 222 oriented at about a 45° angle relative to the portion 216 of the end wall 16 and the portion 214 of the side wall 14. One way to form the generally planar corner 222 is to deform the round corner 220 inwardly by, for example, a tool or die 250 so that the prior round corner 220 becomes generally planar and oriented at about a 45° angle relative to the portion 216 of the end wall 16 and the portion 214 of the side wall 14. All other ways of forming a generally planar corner 222 are also deemed to be embraced by the claims. Once so formed, the mounting member or back plate 60 can be attached to the generally planar corner 222. One way to form the sheet metal casket shell 12 is to form two single continuous sheets of sheet metal into two complete end assemblies each having an end wall 16, two round corners 220 and two short sections of side wall 214 extending from the round corners 220 towards one another. Then, a side wall panel 260 can be welded to the two short sections of side wall 214 extending towards one another, on both sides of the end assemblies, to form the two long sections of the side walls 14. In this way the shell is fabricated from four components. Other fabrication techniques are of course possible and all other ways of fabricating the sheet metal casket shell are deemed to be embraced by the claims. For example, the shell could be fabricated from eight components: four round corners each with a short section of side wall and a short section of end wall, two side wall panels welded to the four corners, and two end wall panels welded to the four corners.
The embodiments shown and described are merely for illustrative purposes only. The drawings and the description are not intended to limit in any way the scope of the claims. Those skilled in the art will appreciate various changes, modifications, and other embodiments. All such changes, modifications and embodiments are deemed to be embraced by the claims. Accordingly, the scope of the right to exclude shall be limited only by the following claims and their equivalents.
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