Claims
- 1. A method for fabricating an insulating sash unit, comprising the steps of:forming a structurally rigid sash having an inside perimeter with a glazing pane spacing and mounting structure extending from said inside perimeter; said spacing and mounting structure defining a reduced perimeter within said inside perimeter and providing a pair of oppositely facing mounting surfaces for mounting separate glazing panes, each pane having a perimeter that is less than the inside perimeter of the sash and greater than said reduced perimeter; and adhesively mounting the glazing panes to respective ones of the mounting surfaces via sealant; wherein said spacing and mounting structure maintains planar window surfaces of said glazing panes substantially parallel to each other with a sealed fixed insulating space therebetween after the fabrication of said sash is completed, and said glazing panes are isolated from one another, with said sealant allowing the glazing panes to expand and contract independently, thereby reducing the chance of stress fractures caused by stress on the panes.
- 2. A method in accordance with claim 1, wherein the spacing and mounting structure in combination with said sealant allows the glazing panes to function independently with respect to stresses.
- 3. A method accordance with claim 1, comprising the step of providing a desiccant within said fixed space.
- 4. A method in accordance with claim 1, comprising the step of attaching at least one simulated muntin to said spacing and mounting structure,said simulated muntin residing within said fixed space after said glazing panes are applied.
- 5. A method in accordance with claim 4, wherein said muntin is attached to the spacing and mounting structure with a retaining clip.
- 6. A method in accordance with claim 1, comprising the step of applying glazing beads to said sash after the glazing panes are applied.
- 7. A method in accordance with claim 1, wherein said glazing panes are mounted in said sash such that perimeter edges of the panes are spaced from the inside perimeter of the sash.
- 8. A method for fabricating an insulating sash unit, comprising:forming a structurally rigid sash having an inside perimeter with a glazing pane spacing and mounting structure extending from said inside perimeter; said spacing and mounting structure having a first mounting surface for a first glazing pane and a second mounting surface for a second glazing pane, and being adapted to maintain planar window surfaces of said glazing panes substantially parallel to each other with an internal cavity therebetween when the glazing panes are mounted to the mounting surfaces within said inside perimeter; applying a sealant material (i) to said mounting surfaces for use in adhering the respective glazing panes thereto and (ii) within the internal cavity between said mounting surfaces to form a vapor barrier covering the spacing and mounting structure between said mounting surfaces; and applying the first and second glazing panes to the sealant on the respective first and second mounting surfaces, such that the glazing panes are adhesively mounted via the sealant on their respective mounting surfaces.
- 9. A method in accordance with claim 8, wherein said glazing panes are mounted in said sash such that perimeter edges of the panes are spaced from the inside perimeter of the sash.
- 10. A method in accordance with claim 8, wherein said sealant is desiccated.
- 11. A method in accordance with claim 8, comprising the step of attaching at least one simulated muntin to said spacing and mounting structure,said simulated muntin residing within said internal cavity after said glazing panes are applied.
- 12. A method in accordance with claim 11, wherein said muntin is attached to the spacing and mounting structure with a retaining clip.
- 13. A multipane window unit comprising:a structurally rigid sash having an inside perimeter with a glazing pane spacing and mounting structure extending from the inside perimeter; said spacing and mounting structure having a first mounting surface for a first glazing pane and a second mounting surface for a second glazing pane, and being adapted to maintain planar window surfaces of said glazing panes substantially parallel to each other with an internal cavity therebetween when the glazing panes are mounted to the mounting surfaces within said inside perimeter; and a sealant material (i) on said mounting surfaces adhering the respective glazing panes thereto and (ii) within the internal cavity between said mounting surfaces to form a vapor barrier covering the spacing and mounting structure between said mounting surfaces.
- 14. A multipane window unit in accordance with claim 13, wherein said glazing panes are mounted in said sash such that perimeter edges of the panes are spaced from the inside perimeter of the sash.
- 15. A multipane window unit in accordance with claim 13, wherein said sealant material is desiccated.
- 16. A multipane window unit in accordance with claim 13, further comprising one of a trough or recess for said sealant in each of said mounting surfaces.
- 17. A multipane window unit in accordance with claim 13, further comprising at least one glazing clip for holding at least one of the glazing panes.
- 18. A multipane window unit in accordance with claim 13, further comprising at least one simulated muntin attached to said spacing and mounting structure and residing within said internal cavity.
- 19. A multipane window unit in accordance with claim 18, wherein said muntin is attached to the spacing and mounting structure with a retaining clip.
- 20. A multipane window unit comprising:a structurally rigid sash profile surrounding a viewing opening and having a glazing pane spacing and mounting structure extending therefrom toward said viewing opening; said spacing and mounting structure having a pair of oppositely facing mounting surfaces for respective first and second glazing panes, and being adapted to space planar window surfaces of said glazing panes apart with a sealed internal cavity therebetween when the glazing panes are mounted to their respective mounting surfaces; and a sealant material adhering the glazing panes to their respective mounting surfaces; wherein: the glazing panes are not rigidly connected or connected to the spacing and mounting structure in a fixed manner, thereby reducing the possibility for stress fractures to occur.
- 21. A multipane window unit in accordance with claim 10, wherein said sealed internal cavity encloses a gas therebetween.
- 22. A multipane window unit in accordance with claim 10, wherein said glazing panes are mounted in said sash such that perimeter edges of the panes are spaced from an inside perimeter of the sash.
- 23. A multipane window unit in accordance with claim 10, wherein said sealant material is desiccated.
- 24. A multipane window unit in accordance with claim 10, further comprising one of a trough or recess for said sealant material in each of said mounting surfaces.
- 25. A multipane window unit in accordance with claim 10, further comprising at least one glazing clip for holding at least one of the glazing panes in place.
- 26. A multipane window unit in accordance with claim 10, wherein sealant material is provided on said spacing and mounting structure within said sealed internal cavity to form a vapor barrier.
- 27. A multipane window unit in accordance with claim 10, further comprising at least one simulated muntin attached to said spacing and mounting structure and residing within said internal cavity.
- 28. A multipane window unit in accordance with claim 27, wherein said muntin is attached to the spacing and mounting structure with a retaining clip.
- 29. A multipane window unit comprising:a structurally rigid sash profile forming a frame surrounding a viewing opening, said frame having an inner sash frame surface; a glazing pane spacing and mounting structure extending from the inner sash frame surface toward said viewing opening; said spacing and mounting structure having a first leg extending toward the viewing opening to provide a mounting surface for a first glazing pane, and a second leg extending further toward said viewing opening than said first leg, to provide a mounting surface for a second glazing pane; said spacing and mounting structure maintaining planar window surfaces of said glazing panes in a spaced apart relationship with a sealed internal cavity therebetween, when the glazing panes are mounted to their respective mounting surfaces via a sealant material.
- 30. A multipane window unit in accordance with claim 28 wherein:said first glazing pane is mounted to a side of the first leg that faces away from said internal cavity; and said second glazing pane is mounted to a side of the second leg that faces away from said internal cavity.
- 31. A multipane window unit in accordance with claim 29, wherein:said first glazing pane is mounted to a side of the first leg that faces away from said internal cavity; and said second glazing pane is mounted to a side of the second leg that faces said internal cavity.
- 32. A multipane window unit in accordance with claim 29, wherein said spacing and mounting structure comprises an additional mounting surface for a third glazing pane.
- 33. A multipane window unit in accordance with claim 32, wherein said additional mounting surface comprises a third leg extending toward the viewing opening.
- 34. A multipane window unit in accordance with claim 33, wherein said second leg extends further into said viewing opening than said third leg.
- 35. A multipane window unit in accordance with claim 29, wherein said first and third legs extend the same amount into said viewing opening.
- 36. A multipane window unit in accordance with claim 29, wherein an inner edge of the second leg defines the viewing opening.
- 37. A multipane window unit in accordance with claim 29, wherein the glazing panes are unconnected to each other over substantially their entire surface area except through the sealant and intervening spacing and mounting structure.
Parent Case Info
This application is a continuation of U.S. patent application Ser. No. 09/307,825 filed on May 7, 1999, now U.S. Pat. No. 6,286,288, which was a continuation-in-part of U.S. patent application Ser. No. 08/935,924 filed on Sep. 23, 1997, now abandoned, which claimed priority from U.S. provisional application 60/032,776 filed on Dec. 5, 1996.
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