A spacer member, for allowing a walkable skylight with an insulating glass unit to be created with a structural glass panel and a thermal glass panel. The spacer member includes a slab part and a tube part having substantially the same thickness. The tube part is hollow, containing desiccant materia
A spacer member, for allowing a walkable skylight with an insulating glass unit to be created with a structural glass panel and a thermal glass panel. The spacer member includes a slab part and a tube part having substantially the same thickness. The tube part is hollow, containing desiccant material for absorbing moisture within the insulating glass unit. The spacer members may be joined together to create a spacer frame. The spacer frame defines an inner rectangular region. When the spacer frame is sealed between the structural glass panels and the thermal glass panel, an air gap is created within the inner rectangular region. The desiccant material effectively removes moisture from air within the air gap.
대표청구항▼
1. A spacer for creating an insulating glass unit using a structural glass panel and a thermal glass panel, comprising: a top surface, a bottom surface, an inner edge, and an outer edge, the top surface is adapted to support the structural glass panel, and the bottom surface is adapted to rest upon
1. A spacer for creating an insulating glass unit using a structural glass panel and a thermal glass panel, comprising: a top surface, a bottom surface, an inner edge, and an outer edge, the top surface is adapted to support the structural glass panel, and the bottom surface is adapted to rest upon the thermal glass panel;a slab part, the slab part extending from the inner edge, having an upper edge that both coincides and is coplanar with the top surface, a lower edge that both coincides and is coplanar with the bottom surface, the slab part is substantially solid between the upper edge and lower edge, and is adapted to carry the weight of the structural glass panel;a tube part, the tube part having an outer wall at the outer edge, the tube part having an upper wall that both coincides and is coplanar with the top surface, a lower wall that both coincides and is coplanar with the bottom surface, the tube part adjoining the slab part, and having a tube hollow between the upper wall, lower wall, and outer wall, wherein the slab part is elongated from the inner edge toward the tube part; andthe slab part having a slab thickness, the slab thickness being a constant thickness from the inner edge to the tube partdesiccant material, contained within the tube part, for absorbing moisture in air adjacent to the inner edge. 2. The spacer as recited in claim 1 the tube part having a tube thickness between the top surface and bottom surface, wherein the tube thickness and slab thickness are the same. 3. The spacer as recited in claim 2, wherein the tube part has a tube part width, the slab part has a slab part width, and wherein the slab part width is at least twice the tube part width. 4. The spacer as recited in claim 3, wherein the slab part further has venting holes that extend from the inner edge to the tube hollow for communicating air from the inner edge to the desiccant material within the hollow. 5. A spacer frame, for creating an insulating glass unit with a structural glass panel and a thermal glass panel, comprising: four spacer members, each spacer member having: a top surface, a bottom surface, an inner edge, and an outer edge, a first end and a second end, the top surface is adapted to support the structural glass panel, and the bottom surface is adapted to rest upon the thermal glass panel;a slab part, the slab part extending from the inner edge, having an upper edge that both coincides and is coplanar with the top surface, a lower edge that both coincides and is coplanar with the bottom surface, the slab part elongated from the inner edge and substantially solid between the upper edge and lower edge, the slab part is adapted to carry the weight of the structural glass panel;a tube part, the tube part having an outer wall at the outer edge, the tube part having an upper wall that both coincides and is coplanar with the top surface, a lower wall that both coincides and is coplanar with the bottom surface, the tube part adjoining the slab part, and having a tube hollow between the upper wall, lower wall, and outer wall; andwherein for each spacer member the slab part has a slab thickness, the slab thickness being a constant thickness from the inner edge to the tube partdesiccant material, contained within the tube part, for absorbing moisture in air adjacent to the inner edge; andwherein the spacer members are joined together, with the first end of each of the spacer members joined to the second end of another of the spacer members, the inner edges of the spacer members together creating an inner rectangular region. 6. The spacer frame as recited in claim 5, the tube part has a tube thickness between the top surface and bottom surface, and wherein the tube thickness and slab thickness are the same. 7. The spacer member as recited in claim 6, wherein for each spacer member the tube part has a tube part width, the slab part has a slab part width, and wherein the slab part width is at least twice the tube part width. 8. The spacer member as recited in claim 7, wherein for each spacer member the slab part further has venting holes that extend from the inner edge to the tube hollow for communicating air from the inner edge to the desiccant material within the hollow. 9. A spacer for creating an insulating glass unit using a structural glass panel and a thermal glass panel, comprising: a top surface, a bottom surface, an inner edge, and an outer edge, the top surface is adapted to support the structural glass panel, and the bottom surface is adapted to rest upon the thermal glass panel;a slab part, the slab part extending from the inner edge, having an upper edge that both coincides and is coplanar with the top surface, a lower edge that both coincides and is coplanar with the bottom surface, the slab part is substantially solid between the upper edge and lower edge and has a slab thickness therebetween the slab thickness being a constant thickness from the inner edge to a tube part, the slab part is adapted to carry the weight of the structural glass panel;the tube part having an outer wall at the outer edge, the tube part having an upper wall that both coincides and is coplanar with the top surface, a lower wall that both coincides and is coplanar with the bottom surface, and a tube thickness therebetween wherein the slab thickness and the tube thickness are the same, the tube part adjoining the slab part, and having a tube hollow between the upper wall, lower wall, and outer wall, wherein the slab part is elongated from the inner edge toward the tube part; anddesiccant material, contained within the tube part, for absorbing moisture in air adjacent to the inner edge. 10. The spacer as recited in claim 9, wherein the slab part further has venting holes that extend from the inner edge to the tube hollow for communicating air from the inner edge to the desiccant material within the hollow. 11. The spacer as recited in claim 10, wherein the tube part has a tube part width, the slab part has a slab part width, and wherein the slab part width is at least twice the tube part width.
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