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1. A kit for constructing a modular cooled product merchandizing unit, the kit comprising: a plurality of panels;a multiplicity of extruded frame members each having a length between opposing ends and a continuous shape along the length, the shape defining: a first outer panel mounting assembly,a first inner panel mounting assembly,wherein the mounting assemblies each include opposing legs extending from a base web to define a panel engagement region,a first joint capture region at least partially defined between the mounting assemblies,wherein the first...
1. A kit for constructing a modular cooled product merchandizing unit, the kit comprising: a plurality of panels;a multiplicity of extruded frame members each having a length between opposing ends and a continuous shape along the length, the shape defining: a first outer panel mounting assembly,a first inner panel mounting assembly,wherein the mounting assemblies each include opposing legs extending from a base web to define a panel engagement region,a first joint capture region at least partially defined between the mounting assemblies,wherein the first outer and inner panel mounting assemblies are arranged to retain two of the panels in a spaced apart, substantially parallel fashion;a multiplicity of molded joint pieces each including: a block core forming first-sixth faces,first-third plug assemblies projecting from a respective one of the faces and configured to frictionally mate with the joint capture region; anda cooling unit;wherein the kit is configured such that the frame members each retain respective ones of the panels as paired inner and outer panels within the corresponding panel engagement regions, the joint pieces are assembled to interconnect the frame members and the corresponding paired panels to form a merchandizing cabinet, and the cooling unit is mountable to a face of the cabinet to form a modular cooled product merchandizing unit. 2. The kit of claim 1, wherein the panels are formed of cardboard. 3. The kit of claim 1, wherein the frame members are configured to maintain a gap between the panels of each pair of the inner and outer panels, the kit further comprising: a source of expandable foam insulation for a dispensement into the gap. 4. The kit of claim 1, wherein the cooling unit includes a thermoelectric component. 5. The kit of claim 1, wherein the outer panel mounting assembly is configured such that the opposing legs extend in a substantially parallel manner relative to one another from the corresponding base web. 6. The kit of claim 1, wherein the multiplicity of frame members includes a plurality of corner frame members the shape of which further includes: a second outer panel mounting assembly; anda second inner panel mounting assembly;wherein the second and outer and inner panel mounting assemblies each include opposing legs and are arranged to retain another two of the panels in a spaced apart, substantially parallel fashion;and further wherein the legs of the first panel mounting assemblies are substantially perpendicular with the legs of the second mounting assemblies. 7. The kit of claim 6, wherein the legs of the second outer panel mounting assembly extend from the base web of the first outer panel mounting assembly, and the legs of the second inner panel mounting assembly extend from the base web of the first inner panel mounting assembly. 8. The kit of claim 7, wherein the shape further defines a guide shoulder interconnecting the base webs, the guide shoulder configured for mounting to one of the joint piece plug assemblies. 9. The kit of claim 1, wherein the multiplicity of frame members includes a plurality of clip frame members each further including: a connection web projecting from and interconnecting the base webs of the panel mounting assemblies;a first guide shoulder projecting inwardly from the base web of the outer panel mounting assembly toward the inner panel mounting assembly, the first guide shoulder configured for mounting to one of the joint piece plug assemblies; anda second guide shoulder projecting outwardly from the base web of the inner panel mounting assembly toward the outer panel mounting assembly, the second guide shoulder configured for mounting to one of the joint piece plug assemblies. 10. The kit of claim 9, wherein each of the clip frame members further include: a flange projecting from the connection web in a direction opposite the panel mounting assemblies. 11. The kit of claim 1, wherein the multiplicity of frame members includes a plurality of horizontal post frame members each further including: a second outer panel mounting assembly;a second inner panel mounting assembly;wherein the second outer and inner panel mounting assemblies each include opposing legs and are arranged to retain another two of the panels in a spaced apart, substantially parallel fashion, and further wherein the legs of the first and second outer panel mounting assemblies are substantially parallel with one another;a first platform mounting assembly; anda second platform mounting assembly;wherein the first and second platform mounting assemblies are configured and arranged to retain another two of the panels in a spaced apart, substantially parallel fashion. 12. The kit of claim 11, wherein the platform mounting assemblies each include opposing legs defining a panel engagement region, and further wherein the legs of the platform mounting assemblies are substantially perpendicular to the legs of the inner panel mounting assemblies. 13. The kit of claim 1, wherein the multiplicity of frame members includes: a plurality of corner frame members each further defining: a second outer panel mounting assembly including opposing legs,a second inner panel mounting assembly including opposing legs,wherein the legs of the second mounting assemblies are substantially perpendicular with the legs of the first mounting assemblies;a plurality of clip frame members each further defining: a connection web interconnecting the base webs of the corresponding first panel mounting assemblies,a guide shoulder projecting from the base web of the corresponding first outer panel mounting assembly;a plurality of horizontal post frame members each further defining: a second outer panel mounting assembly including opposing legs,a second inner panel mounting assembly including opposing legs,wherein the legs of the horizontal post frame member mounting assemblies are substantially parallel with one another,a first platform mounting assembly,a second platform mounting assembly; anda plurality of vertical post frame members each further defining: a second outer panel mounting assembly including opposing legs,a second inner panel mounting assembly including opposing legs,wherein the legs of the first and second outer panel mounting assemblies of the corresponding vertical post frame member are aligned, and the legs of the first and second inner panel mounting assemblies of the corresponding vertical post frame member are aligned. 14. The kit of claim 1, wherein each plug assembly includes: a first prong body; anda second prong body;wherein the first prong body is spaced from the second prong body to define a channel sized to frictionally capture a guide shoulder formed at the ends of each of the frame members. 15. The kit of claim 1, wherein the first plug assembly projects from the first face of the block core, the fourth face of the block core is arranged perpendicular to the first face and forms an exterior surface of the corresponding joint piece, and further wherein a first outer panel slot is formed in the first face spatially between the first plug assembly and the fourth face, the outer panel slot sized to receive an edge of one of the panels. 16. The kit of claim 15, wherein the fifth face of the block core is orthogonal to the first and fourth faces and forms another exterior surface of the corresponding joint piece, and further wherein a second outer panel slot is formed between the first plug assembly and the fifth face, the second outer panel slot sized to receive an edge of another one of the panels. 17. The kit of claim 15, wherein an inner panel slot is formed in the first face spaced from the first plug assembly opposite the outer panel slot, the inner panel slot sized to receive an edge of another one of the panels, and further wherein the kit is configured such that upon assembly of: a first panel to the outer panel mounting assembly of a first frame member,a second panel to the inner panel mounting assembly of the first frame member, andthe first plug assembly to the first end of the first frame member,the first panel nests within the outer panel slot and the second panel nests within the inner panel slot. 18. The kit of claim 1, wherein the multiplicity of joint pieces includes: a plurality of three-way corner connectors including the first-third plug assemblies projecting from the first-third faces of the corresponding three-way corner connector core such that the fourth-sixth faces of the corresponding three-way corner connector define exterior surfaces; anda plurality of four-way corner connectors including the first-third plug assemblies and a fourth plug assembly projecting from a respective one of the first-fourth faces of the corresponding four-way corner connector such that the fifth and sixth faces of the corresponding four-way corner connector define exterior surfaces. 19. The kit of claim 1, further comprising: a door assembly including: first and second panes,a plurality of extruded door frame members each having a length between opposing ends and a continuous shape along the length, the shape defining: a first pane mounting assembly,a second pane mounting assembly,wherein the pane mounting assemblies each include opposing legs extending from a base web to define a pane engagement region,a joint capture region defined between the pane mounting assemblies,wherein the pane mounting assemblies are arranged to retain the first and second panes in a spaced apart, substantially parallel fashion;a plurality of molded door joint pieces each including: a core defining an interior surface,first and second prong bodies projecting from the interior surface, wherein a direction of projection of the first prong body is substantially perpendicular to a direction of projection of the second prong body,wherein the prong bodies are each configured to frictionally mate within the joint capture region at one of the end of one of the door frame members;wherein the kit is configured such that four of the door frame members retain the first and second door panes and four of the joint pieces interconnect the four door frame members to form a completed door assembly that is mountable to the merchandizing cabinet. 20. A method of constructing a modular cooled product merchandizing unit, the method comprising: receiving a multiplicity of extruded frame members each defining opposing ends and a continuous shape along the length, the shape defining: a first outer panel mounting assembly,a first inner panel mounting assembly,wherein each of the mounting assemblies includes opposing legs combining to define a panel engagement region,a first joint capture region between the mounting assemblies;determining a desired size and shape of a cabinet of the merchandizing unit;selecting ones of the frame members at lengths based upon the determined size and shape of the cabinet;assembling the selected frame members to one another with joint pieces, the joint pieces including: a block core forming first-sixth faces,first-third plug assemblies projecting from respective ones of the faces and configured to frictionally mate with the joint capture region at the end of a respective one of the frame members;wherein the frame members and the joint pieces combine to define a cabinet frame demarcated into a plurality of frame face regions;assembling panels to each of the inner and outer panel mounting assemblies of each of the frame members associated with at least some of the frame face regions to define closed face regions each having a pair of the panels maintained in a spaced apart, substantially parallel fashion;mounting a door assembly to the cabinet frame; andmounting a cooling unit to the cabinet frame to create a completed modular unit. 21. The method of claim 20, further comprising: dispensing a foaming insulation material between the pair of panels at each of the closed face regions. 22. The method of claim 20, further comprising: determining a desired location of a door opening in the cabinet;forming the door opening at one of the frame face regions, including assembling four of the frame members to define a perimeter of the door opening;wherein the four frame members each further include a flange, the flanges being substantially co-planar upon final assembly of the cabinet frame; andmounting the door assembly to the door opening, wherein a perimeter of the door assembly selectively abuts the flanges in a closed position. 23. The method of claim 22: wherein three of the four frame members are clip frame members each further defining: a connection web interconnecting the corresponding panel mounting assemblies,a flange web projecting from the connection web in a direction substantially perpendicular the legs of the corresponding inner panel mounting assembly; andwherein the fourth frame member is a horizontal post frame member further defining: a second outer panel mounting assembly,a second inner panel mounting assembly,wherein legs of the first and second outer and inner panel mounting assemblies are substantially parallel with one another,a first platform mounting assembly,a second platform mounting assembly,wherein legs of the platform mounting assemblies are substantially perpendicular with the legs of the corresponding outer and inner panel mounting assemblies. 24. The method of claim 23, further comprising: assembling first and second panels to the first and second pairs of platform mounting assemblies, respectively, to form a shelf in the cabinet frame. 25. The method of claim 20, further comprising: constructing a door assembly for mounting to the cabinet, including: receiving a plurality of extruded door frame members each having a length between opposing ends and a continuous shape along the length, the shape defining: a first pane mounting assembly,a second pane mounting assembly,a joint capture region between the pane mounting assemblies, determining a desired size and shape of the door assembly,selecting ones of the door frame members at lengths based upon the determined size and shape,assembling the selected door frame members to one another a with door joint pieces including: a base defining an interior surface,first and second door prong bodies projecting from the interior surface and configured to mate with the joint capture region, wherein a direction of projection of the first prong body is substantially perpendicular to a direction of projection of the second prong body,assembling first and second panes to the first and second pane mounting assemblies, respectively, of the door frame members; andmounting the door assembly to the cabinet.
