A system for interconnecting multiple panel assemblies comprising a first bracketing body having a first bearing member and at least one planar member; a second bracketing body having a second bearing member pivotally engaged with the first bearing member and at least one planar member; a third brac
A system for interconnecting multiple panel assemblies comprising a first bracketing body having a first bearing member and at least one planar member; a second bracketing body having a second bearing member pivotally engaged with the first bearing member and at least one planar member; a third bracketing body having at least one planar member; a fourth bracketing body having at least one planar member; a first panel receiving volume at least partially defined by the at least one planar member of the first and third bracketing bodies; a second panel receiving volume at least partially defined by the at least one planar members of the second and fourth bracketing bodies; and wherein the at least one planar members of the second and fourth bracketing bodies at least partially define a second panel receiving volume. According to another aspect of the present invention, a first thermal insulating body is positioned between and separates the first and third bracketing bodies, and a second thermal insulating body positioned between and separates the second and fourth bracketing bodies. According to yet another aspect of the present invention, a fastenerless connection is provided between surfaces of the system and the panel assemblies.
대표청구항▼
1. A panel connection assembly for interconnecting first and second panels and providing for rotation of said first panel with respect to said second panel around an axis of rotation between a first relative position and a second relative position, the panel connection assembly comprising: a first b
1. A panel connection assembly for interconnecting first and second panels and providing for rotation of said first panel with respect to said second panel around an axis of rotation between a first relative position and a second relative position, the panel connection assembly comprising: a first bracketing body having first and second planar members and a first bearing member, said second planar member extending outwardly from said first planar member;a second bracketing body having third and fourth planar members and a second bearing member pivotally engaged with the first bearing member, said fourth planar member extending outwardly from said third planar member, said second bearing member extending outwardly from said third planar member;a third bracketing body having fifth and sixth planar members, said sixth planar member extending outwardly from said fifth planar member;a fourth bracketing body having seventh and eighth planar members said eighth planar member extending outwardly from said seventh planar member;a first thermal insulating body positioned between said first planar member of said first bracketing body and said fifth planar member of said third bracketing body, said first thermal insulating body separating said first and third bracketing bodies;a second thermal insulating body positioned between said third planar member of said second bracketing body and said seventh planar member of said fourth bracketing body, said second thermal insulating body and separating said second and fourth bracketing bodies;a first panel receiving volume at least partially defined by said first, second, fifth and sixth planar members of said first and third bracketing bodies, the first panel receiving volume adapted to receive the first panel such that the first panel is located between the second planar member of the first bracketing body and the sixth planar member of the third bracketing body; anda second panel receiving volume at least partially defined by said third, fourth, seventh and eighth planar members of said second and fourth bracketing bodies, the second panel receiving volume adapted to receive the second panel such that the second panel is located between the fourth planar member of the second bracketing body and the eighth planar member of the fourth bracketing body. 2. The panel connection assembly of claim 1 further comprising a first sealing element positioned between said fifth planar member of said third bracketing body and said seventh planar member of said fourth bracketing body. 3. The panel connection assembly of claim 1 wherein: said first bearing member comprises a curved first bearing arm partially surrounding but spaced from a hinge pin; andsaid second bearing member comprises a curved second bearing arm that terminates in a hinge barrel partially encircling and engaging said hinge pin. 4. The panel connection assembly of claim 3 wherein the first bearing member further comprises: a convex first bearing surface of said hinge pin having a first radius R1 from the axis of rotation;at least one concave second bearing surface of said first bearing arm having a second radius R2 from the axis of rotation, wherein R2 is greater than R1;a convex exterior third bearing surface of said first bearing arm having a third radius R3 from the axis of rotation, wherein R3 is greater than R2;an end surface of said first bearing arm extending between the second and third bearing surfaces;a stop member extending from the exterior third bearing surface of said first bearing arm;said stop member comprising first and second opposing stopping surfaces extending between the third bearing surface and a convex fourth bearing surface. 5. The panel connection assembly of claim 4 wherein the second bearing member comprises: a concave fifth bearing surface of said hinge barrel having a fifth radius R5 from the axis of rotation, equal to R1;a convex sixth bearing surface of said hinge barrel having a sixth radius R6 from the axis of rotation, wherein R6 is greater than R5;a convex seventh bearing surface of said hinge barrel having a seventh radius R7 from the axis of rotation, wherein R7 is greater than R5;a concave eighth bearing surface of said second bearing arm having an eighth radius R8 from the axis of rotation, wherein R8 is greater than R7;a concave ninth bearing surface having a ninth radius R9 from the axis of rotation, wherein R9 is greater than R8;a first stopping surface extending between the seventh and eighth bearing surfaces;and second and third stopping surfaces extending from the ninth bearing surface and positioned to contact the first and second opposing stopping surfaces respectively, of the stop member. 6. The panel connection assembly of claim 2 further comprising: first and second fins extending from said fifth planar member of the third bracketing body and partially defining a first sealing volume therebetween, said first sealing element located in said first sealing volume;third and fourth fins extending from said seventh planar member of the fourth bracketing body and partially defining a second sealing volume therebetween; anda second sealing element located in said second sealing volume. 7. The panel connection assembly of claim 1 further comprising a plurality of teeth extending into said first and second panel receiving volumes from at least one of said planar members. 8. The panel connection assembly of claim 6 wherein when said assembly is in the first relative position: the first and second panel receiving volumes are aligned;the first sealing element is compressed between the first and second fins of said third bracketing body by said fourth fin of the fourth bracketing body; andthe second sealing element is compressed between the third and fourth fins of said fourth bracketing body by said first fin of the third bracketing body. 9. A panel connection assembly for interconnecting first and second panels and providing for rotation of said first panel with respect to said second panel around an axis of rotation between a first relative position and a second relative position, the panel connection assembly comprising: a first bracketing body having first and second planar members and a first bearing member;a second bracketing body having third and third fourth planar members and a second bearing member pivotally engaged with the first bearing member;said first bearing member comprises a curved first bearing arm partially surrounding but spaced from a hinge pin;said second bearing member comprises a curved second bearing arm that terminates in a hinge barrel partially encircling and engaging said hinge pin;a convex first bearing surface of said hinge pin having a first radius R1 from the axis of rotation;at least one concave second bearing surface of said first bearing arm having a second radius R2 from the axis of rotation, wherein R2 is greater than R1;a convex exterior third bearing surface of said first bearing arm having a third radius R3 from the axis of rotation, wherein R3 is greater than R2;an end surface of said first bearing arm extending between the second and third bearing surfaces;a convex fourth bearing surface of said hinge barrel having a radius R7 from the axis of rotation;a concave fifth bearing surface of said second bearing arm having a radius R8 from the axis of rotation, wherein R8 is greater than R7;a stopping surface extending between the fourth and fifth bearing surfaces, said first bearing member adapted to be received between the fourth bearing surface and the fifth bearing surface of the second bearing member. 10. The panel connection assembly of claim 9 including a stop member extending from the third bearing surface of said first bearing arm, wherein said stop member comprises first and second stopping surfaces extending between the third bearing surface and a convex sixth bearing surface; and said sixth bearing surface having a radius R4 from the axis of rotation, wherein R4 is greater than R3. 11. The panel connection assembly of claim 10 wherein the second bearing member comprises: a concave seventh bearing surface of said hinge barrel having a radius R5 from the axis of rotation, equal to R1;a convex eighth bearing surface of said hinge barrel having a radius R6 from the axis of rotation, wherein R6 is greater than R5;a concave ninth bearing surface having a radius R9 from the axis of rotation, wherein R9 is greater than R8;an outer end surface of said hinge barrel extending between the seventh and eighth bearing surfaces; andsecond and third stopping surfaces extending from the ninth bearing surface and positioned to contact the first and second stopping surfaces respectively, of the stop member. 12. The panel connection assembly of claim 9 further comprising: a third bracketing body having fifth and sixth planar members;a fourth bracketing body having seventh and eighth planar members;a first thermal insulating body positioned between and separating said first and third bracketing bodies;a second thermal insulating body positioned between and separating said second and fourth bracketing bodies;a first panel receiving volume at least partially defined by said first, second, fifth and sixth planar members of said first and third bracketing bodies; anda second panel receiving volume at least partially defined by said third, fourth, seventh and eighth planar members of said second and fourth bracketing bodies. 13. The panel connection assembly of claim 10 further comprising a first sealing element positioned between said third bracketing body and said fourth bracketing body. 14. The panel connection assembly of claim 13 further comprising: first and second fins extending from the third bracketing body and partially defining a first sealing volume therebetween;third and fourth fins extending from the fourth bracketing body and partially defining a second sealing volume therebetween;said first sealing element occupying the first sealing volume; anda second sealing element occupying the second sealing volume. 15. The panel connection assembly of claim 10 further comprising a plurality of teeth extending into said first and second panel receiving volumes from at least one of said planar members. 16. The panel connection assembly of claim 14 wherein when said assembly is in the first relative position: the first and second panel receiving volumes are aligned;the second sealing element is compressed between the first fin and the fourth bracketing body; andthe first sealing element is compressed between the fourth fin and the third bracketing body.
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