Caskets provide an aesthetically pleasing receptacle for the purpose of transporting the deceased and displaying the deceased during funeral ceremonies. Additionally, caskets are used for burial or for cremation processes.
Caskets are available in luxury and economy models. Economy models are particularly desirable when cremation is selected. Even for economy models, especially when cremation is desired, the casket should not be prohibitively expensive but at the same time, the casket should be strong and substantial in construction.
One example of a purported economical casket construction is disclosed in U.S. Pat. No. 5,862,847. This construction requires multi-ply walls and a corrugated fiberboard overlay to provide an aesthetically pleasing configuration.
Adding moldings and trim pieces to the walls and lids is not very common on wood caskets due to the extra cost of parts and labor. In addition, having moldings and trim pieces on flat walls increases the difficulty in sanding and painting the walls. It is difficult to justify the cost of these features on economy models.
The present inventor has recognized that it would be desirable to provide a casket and a method of manufacturing the casket that provides a cost effective construction that still provides a sturdy casket that is aesthetically pleasing. The present inventor has recognized that it would be desirable to provide a casket that reduces parts and assembly time.
The exemplary embodiments of the present invention generally relates to a casket and method for manufacture, and more particularly, to a casket having wall cladding constructed of fiberboard such as medium density fiberboard (MDF) that are molded or extruded to provide surface contours such as raised and/or recessed features without having to attach such features separately to casket walls. The resulting casket provides aesthetic characteristics and strength for use in funeral ceremonies. The casket is economical to manufacture and of such a construction as to facilitate cremation.
By molding or pressing the raised and/or recessed features on a wood fiberboard wall cladding, manufacturing cost is significantly reduced and manufacturing time is significantly reduced. Additionally, the same press that forms the raised and/or recessed features can be used to apply paper veneer/laminate, wood veneer, or other laminate to a top of the fiberboard wall cladding. Alternately the fiberboard wall can be pressed or extruded to form the raised and/or recessed features without a laminate.
The exemplary embodiments of the present invention also relate to a casket and method of manufacturing a casket, using wood fiber board for wall claddings, and in particular but not exclusively using Medium Density Fiberboard (MDF) wherein raised and/or recessed formations, with considerable differences in height, are formed into the wall claddings, showing on the outside surfaces of the wall claddings. The deformation of wood fiberboard is known as “extrusion”, whereby considerable plastic deformation, accompanied by flow and stretch of the material takes place.
An exemplary method of manufacturing caskets of the invention, comprises the steps of: providing a casket shell including opposite side walls and opposite end walls, a bottom wall and a lid; forming at least one of the side walls and end walls with a contoured outside surface by molding a flat fiberboard cladding, such as an MDF board between co-acting mold walls; and assembling the side walls, the end walls, the bottom wall and the lid with cladding into an openable box. The side walls, end walls and/or the lids can have contoured outside surfaces. The raised surfaces can provide raises and/or recessed rectangular trim portions or other decorative shapes.
Detailed methods of molding or extruding of medium density fiberboard into contoured surface shapes is disclosed for example in U.S. Pat. No. 6,868,644, International patent application WO96/03262, and the European patent application 0 420 831, all herein incorporated by reference.
Numerous other advantages and features of the present invention will become readily apparent from the following detailed description of the invention and the embodiments thereof, from the claims and from the accompanying drawings.
While this invention is susceptible of embodiment in many different forms, there are shown in the drawings, and will be described herein in detail, specific embodiments thereof with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the invention to the specific embodiments illustrated.
This application incorporates by reference in its entirety U.S. Provisional Application Ser. No. 62/745,332, filed Oct. 13, 2018.
One prior art example of a purported economical casket construction is disclosed in U.S. Pat. No. 5,862,847, herein incorporated by reference.
A bottom surface of the lid 36 optionally includes a decorative, add on rectangular trim 44 that surrounds a cap panel 50. This cap panel is for decorative purpose and includes a fabric with patterns or embroidery design wrapped on a piece of cardboard, or printings on a thin board. The rectangular trim 44, fastened to an underside of the lid 36, holds the cap panel 50 in place and is removable for changing the cap panel. Alternately, another embodiment of the casket can have a lid that is simply supported on the walls without hinges and is removed and replaced simply by lifting. A support pillow 54 and side fabric liners 56 are secured to the inside surfaces of the casket for aesthetic appearance.
A plurality of longitudinally spaced apart standoffs 60 are attached to and along the sidewall 18. A handle rail 64 is fastened to the standoffs 60 for lifting and transporting the casket 10 before and after a funeral ceremony. An identical arrangement of standoffs 60 and a further handle rail 64 are provided on the second sidewall 20 (shown in
The sidewall 18 includes three rectangular trim moldings 62, 63, 66 that are raised from the dominant surface 65 of the sidewall 18 (convex). The trim moldings could alternatively be recessed below the dominant surface 65 of the sidewall 18 (concave), or both raised in part and recessed in part.
The second end wall 26 includes a rectangular trim molding 68 that is raised from a dominant surface 71 of the end wall 26. The trim molding 68 could alternatively be recessed below the dominant surface 71 of the end wall 26, or both raised in part and recessed in part.
The second sidewall 20 can have rectangular trim moldings 62, 63, 66 (
The lids 36 and 40 can each have a contoured trim molding 69, such as a raised and/or recessed rectangular portion, or both raised in part and recessed in part, from a dominant surface 75 of each lid.
A lamination or other decorative covering 73 can be applied over the side wall claddings, end wall claddings and lid claddings. This lamination can be applied to a flat board 96 before the board is molding into a cladding as shown in
As shown in
One method for molding the trim moldings on the flat board 96 is described in more detail in U.S. Pat. No. 6,868,644 herein incorporated by reference.
By a pre-selected relative movement of the upper mold half 74 and the lower mold half 76, the wood fiber board will be plastically deformed to form a contoured profile in the board 96.
Before the board 96 is positioned between the upper mold half 74 and the lower mold half 76, a decorative layer or lamination 73 can be arranged on a top surface of the board 96 which may then be joined with or adhered to the top surface of the board 96 during the pressing or molding operation, as shown in
Although rectangular trim moldings are described for the side walls, end walls and lids, many other shapes are encompassed by the invention, including oval or round shapes, curved line shapes, straight line shapes, an oval shape in the middle and straight line plus curved line trims on the left and right sides.
Although particular shaped trim moldings are described for the side walls, end walls and lids, many other shapes are encompassed by the invention, including oval or round shapes, curved line shapes, straight line shapes, an oval shape in the middle and straight line plus curved line trims on the left and right sides.
The head-end lid 36 of
The lid cladding of the head-end cap 236 and the foot-end cap 240 can be formed into the concave shape by pressing and molding a flat fiberboard into the concave shape, forming the surrounding skirts 211, 212, at the same time that trim moldings 202 are pressed and molded into a lid cladding of the caps 236, 240.
The sidewall claddings 18a, 20a, the end wall claddings 24a, 26a and the lid claddings 36a, 236a, 40a, 240a can be formed of MDF having a thickness of 3 mm to 5 mm. The inside structural walls 18b, 20b, 24b, 26b, 36b, 40b, 236b, 240b can have a thickness of about 15 mm. The overall thickness of the sidewalls and end walls can be within a range of 15 mm to 22 mm.
The sidewall claddings, the end wall claddings and the lid claddings are shown as covering the inside structural wall completely and coextensively. However the invention also encompasses a cladding that covers only a portion of the structural wall.
From the foregoing, it will be observed that numerous variations and modifications may be effected without departing from the spirit and scope of the invention. It is to be understood that no limitation with respect to the specific apparatus illustrated herein is intended or should be inferred.
This application claims the benefit of U.S. Provisional Application Ser. No. 62/745,332, filed Oct. 13, 2018.
Number | Date | Country | |
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62745332 | Oct 2018 | US |