CA1284745C - Hermetic window assembly with pressure-equalization system - Google Patents
Hermetic window assembly with pressure-equalization systemInfo
- Publication number
- CA1284745C CA1284745C CA000496587A CA496587A CA1284745C CA 1284745 C CA1284745 C CA 1284745C CA 000496587 A CA000496587 A CA 000496587A CA 496587 A CA496587 A CA 496587A CA 1284745 C CA1284745 C CA 1284745C
- Authority
- CA
- Canada
- Prior art keywords
- valve
- plunger element
- panes
- window assembly
- sealing
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Abstract
Abstract of the Disclosure A double-glazed, hermetically-sealed window assembly having a manually-actuated pressure-equalization system in the form of a spring-biased pushbutton valve installed in one of the glass panes. When actuated by pushbutton action, the valve opens to provide an air passageway coupling the interior airspace between the two panes to the ambient air, thereby equalizing any air pressure differential therebetween.
Description
7~5 HERMETIC WINDOW ASSEMBLY WITH
PRESSURE-EQ~ALIZATION SYSTEM
Background of the Invention The invention relates to a system for selec-tably equalizing an air pressure differential, relative to ambient, in the airspace between the pair of glass panes of double-glazed hermetically-sealed thermal insulating window units (hereinafter referred to as "hermetic window assemblies").
Hermetic window assemblies essentially consist of two or more glass panes spaced apart and provided with a hermetic seal about the entire perimeter of the panes. Such assemblies are useful for ener~y conser-vation purposes because the 'Idead air'l trapped in the space between the glass panes serves as an effective thermal insulator to reduce the amount of heat trans-mitted through the window assembly. These window assemblies can, in the normal course of use, be sub-jected to a major change in ambient air pressure (for example, if a mobile home containing such windows is moved through a significant elevation gradient, or a window assembled at a sea level manufacturing site is used on the upper stories of a high-rise building). If the ambient air pressure is significantly decreased, the differential air pressure in the space between the panes will cause them to deflect outwardly, producing dis~
tortion and stress on the hermetic seal at the window's perimeter. On the other hand, if the window assembly were assembled at a high elevation, then transported to 7~5 a lower elevation, the panes would deflect inwardly, similarly leading to stress on the perimeter's seal.
Over time this stress could breach the structural integrity of the hermetic seal, thus allowing air and moisture to enter into the airspace, causing foyging and condensation on the interior surface of the glass panes and rendering the window assembly unusable. If the pressure differential of the ambient air pressure and the airspace between the panes should become extreme, the deflections of the panes may in time, particularly if there are repeated air pressure variations such as might occur in a mobile home transported to several locations at differing elevations, even be severe enough to fracture the panes.
Systems which automatically equalize the air pressure differential of the airspace between the glass panes of a hermetic window assembly and the ambient air are known to the art. McCurdy et al. ~.S. Patent 3,60~,163 discloses a system for automatically equaliz-ing the interior air pressure of a plurality of hermetic window units by ducting the interiors of the window units to a common manifold which is ported, in turn, to the ambient air. The manifold is equipped with a means for automatically releasing air when the manifold pres-sure exceeds the ambient air pressure, and yet permitsair to enter into the manifold and thence the hermetic window units if the ambient air pressure exceeds the manifold air pressure.
~ elstharp U.S. Patent 2,062,7~7 d~scloses another type of system for automatically equalizing the air pressure in the interior of a hermetic window assembly with the ambient air pressure. This systern employs piping between the interiors of a plurality of hermetic double-glazed window assemblies together with a syphon which functions as a bellows and expands if the interior air pressure of the window assemblies is greater than ambient air pressure, and contracts if the latter is greater.
Such prior art systems are relatively compli-cated and costly because the equalization of the air pressure differential, between the ambient air and the interior of the window assemblies, is carried out auto-matically, and continuously, on a plurality of windowunits.
Thus, what is needed is an economical, easy to install and easy to operate system, for equalizing the air pressure differential of the airspace between the glass panes of an individual hermetic window assembly and the ambient air, which can be selectably actuated, as necessary, when this pressure differential becomes significant.
Summary of the Invention .
The present invention is directed to a low-cost, readily installable and simple to use system for equalizing the air pressure differential of the airspace 8~5 between thç glass panes of a double-glazed hermetic window assembly and the ambient air whereby this air pressure differential is selectably, rather than auto-matically or continuously, equalized.
A hermetic window as~embly, comprising a pair of glass panes spaced apart and hermetically sealed about their entire perimeter so as to form an airtight airspace therebetween, is provided with a valve which is selectably-actuated to open an air passageway from the interior airspace to the ambient air. If it is desired to equalize the air pressure differential between the interior airspace and the ambient air, the valve can be actuated by the user to open a connecting air passageway and allow the interior air pressure to equalize.
The valve exemplarily is a manually operated, spring-biased push-button type plunger valve, somewhat similar to that shown in Peterson et al. U.S. Patent 4,014,365 and Hobbs U.S. Patent 2,820,475, although other types of valves, capable of being actuated selec-tably, may also be employed.
Therefore, it is an object of the present invention to provide a means and system for selectably equalizing the air pressure differential of the airspace between the glass panes of a hermetic window assembly and the ambient air.
It is a further object to provide a means and system for selectably equalizing such air pressure dif-ferential which is inexpensive, easy to manufacture and install, and which can be manually operated.
7~i The foregoing and other objective~, features, and advantages of the invention will be mor~ readily understood upon consideration of the following detailed description of the invention, taken in conjunction with the accompanying drawings~
Brief Description of the Drawings FIG. 1 is a partially broken-away perspective view of a hermetic window assembly incorporating the air pressure equalization system of the persent invention.
FIG. 2 is an enlarged cross-sectional view of a portion of the hermetic window assembly of FIG. 1, showing the valve assembly in the closed position, taken along the line 2-2 of FIG. 1.
FIG. 3 is a similar view to FIG. 2, but show-ing the valve in the open position.
Detalled Descripton of the Drawings Referring to FIG. 1, a hermetic do~hle-gla~ed window assembly 20 of conventional construction is shown comprising a frame 22, typically made of aluminum alloy or other metal, and two glass panes 24 and 26 spaced apart and sized so that their perimeters contact the inner surface of the frame which is provided with a her-metic caulking sealant 21 and 23 therebetween. (Ofcourse, other types of hermetic sealants suitable for sealing the perimeters of glass panes 24 and 26 against the inner surface of frame 22 could also be used.) One of the panes of the window is provided at one of its s lower corners with a manually-actuated hermetic valve 28, the details of which are shown in FIGS. 2 and 3.
Turning now to the cross-sectional views of FIGS. 2 and 3, hermetic valve ass~mbly 28 includes a valve seat element 30 comprised of a central cylinder 34 and an interior hore 36. The ~ylinder 34 is enlarged at one end to form an expanded outwardly-tapered circular flange 38. At the other end the cylinder is threaded to mate with a matching circular flange member 42 on collar 40. When the valve asse~bly is installed the two flanges 38 and 42 on valve seat 30 and collar 40 respectively are spac~d apart by the thickness of the interposed glass pane 24, as hereinafter described. The valve 28 also includes a push-button plunger 44 comprising a cylindrical axial member 46, having a button-type flange element 50 mounted by threading or other means onto its outer end and a flared interior end portion 48. The flared end 48 is provided with an annular groove 55 in which ~-ring 52 is seated.
Plunger 44 mates with valve seat 30 so thatthe major portion of its axial member 46 is located inside the bore channel 36. The flared end 48 of the plunger sits within the general confines of the expanded portion 38 of the bore 36 and is designed to make sealing contact therewith, as shown in FIG. 2. A
circular spring 54 passes around the outer portion of the axial member 46 betwePn the button flange 50 and the circular flange 42 so that spring 54 biases the ~21 3~745 plunger 44 outwardly, away from glass pane 24, when the valve is installed. In this biased, or closed position, flared end 48 of the plunger sealingly contacts the expanded portion 38 o~ the cylindrical member 34. A second 0-ring 52 is provided therebetween to form an annular hermetic seal ~etween these two elements.
The valve assembly 28 is installed in glass pane 24, prior to the latter's assembly into a double-glazed window unit, by first boring a hole just largeenough to accommodate the cylinder member 34, then passing valve seat 30 through the hole from one side so that the maior portion of cylinder 34 is positioned within the pane opening. The outer circular flange element 42 is then screwed on so that a snug fit is made between the two flanges and the interposed pane, with the 0-rings 60 and 64 providing an annular he~metic seal.
The plunger 44 and its 0-ring member 52 are then installed from the interior side, the spring applied from the outer side and the button flange then fitted onto the outer end of the plunger.
A~ shown in FIG. 3, when the plunger 44 is pressed, its flared end 48 moves away from sealing contact with the expanded channel portion 38 of the central cylindrical member 34, thereby breaking the hermetic seal and creating an air passageway in the clearance between the plunger and the cylinder. Any air pressure differential existing between the airspace in the glass panes 24 and 26 o~ the assembled window unit and the ambient air pressure will then equalize as this newly opened air passageway allows the ambient air to freely mix with the inside airspace. Hermetic valve 28 can thus be selectably actuated by a user as needed to e~lalize the air pressure.
The terms and expressions which have been employed in the foregoing specification are used therein as terms of description and not of limitation and there is no intention, in the use of such terms and expressions, of excluding equivalents of the features shown and described as portions thereof, it being recognized that the scope of the invention is defined and limited only by the claims which follow.
PRESSURE-EQ~ALIZATION SYSTEM
Background of the Invention The invention relates to a system for selec-tably equalizing an air pressure differential, relative to ambient, in the airspace between the pair of glass panes of double-glazed hermetically-sealed thermal insulating window units (hereinafter referred to as "hermetic window assemblies").
Hermetic window assemblies essentially consist of two or more glass panes spaced apart and provided with a hermetic seal about the entire perimeter of the panes. Such assemblies are useful for ener~y conser-vation purposes because the 'Idead air'l trapped in the space between the glass panes serves as an effective thermal insulator to reduce the amount of heat trans-mitted through the window assembly. These window assemblies can, in the normal course of use, be sub-jected to a major change in ambient air pressure (for example, if a mobile home containing such windows is moved through a significant elevation gradient, or a window assembled at a sea level manufacturing site is used on the upper stories of a high-rise building). If the ambient air pressure is significantly decreased, the differential air pressure in the space between the panes will cause them to deflect outwardly, producing dis~
tortion and stress on the hermetic seal at the window's perimeter. On the other hand, if the window assembly were assembled at a high elevation, then transported to 7~5 a lower elevation, the panes would deflect inwardly, similarly leading to stress on the perimeter's seal.
Over time this stress could breach the structural integrity of the hermetic seal, thus allowing air and moisture to enter into the airspace, causing foyging and condensation on the interior surface of the glass panes and rendering the window assembly unusable. If the pressure differential of the ambient air pressure and the airspace between the panes should become extreme, the deflections of the panes may in time, particularly if there are repeated air pressure variations such as might occur in a mobile home transported to several locations at differing elevations, even be severe enough to fracture the panes.
Systems which automatically equalize the air pressure differential of the airspace between the glass panes of a hermetic window assembly and the ambient air are known to the art. McCurdy et al. ~.S. Patent 3,60~,163 discloses a system for automatically equaliz-ing the interior air pressure of a plurality of hermetic window units by ducting the interiors of the window units to a common manifold which is ported, in turn, to the ambient air. The manifold is equipped with a means for automatically releasing air when the manifold pres-sure exceeds the ambient air pressure, and yet permitsair to enter into the manifold and thence the hermetic window units if the ambient air pressure exceeds the manifold air pressure.
~ elstharp U.S. Patent 2,062,7~7 d~scloses another type of system for automatically equalizing the air pressure in the interior of a hermetic window assembly with the ambient air pressure. This systern employs piping between the interiors of a plurality of hermetic double-glazed window assemblies together with a syphon which functions as a bellows and expands if the interior air pressure of the window assemblies is greater than ambient air pressure, and contracts if the latter is greater.
Such prior art systems are relatively compli-cated and costly because the equalization of the air pressure differential, between the ambient air and the interior of the window assemblies, is carried out auto-matically, and continuously, on a plurality of windowunits.
Thus, what is needed is an economical, easy to install and easy to operate system, for equalizing the air pressure differential of the airspace between the glass panes of an individual hermetic window assembly and the ambient air, which can be selectably actuated, as necessary, when this pressure differential becomes significant.
Summary of the Invention .
The present invention is directed to a low-cost, readily installable and simple to use system for equalizing the air pressure differential of the airspace 8~5 between thç glass panes of a double-glazed hermetic window assembly and the ambient air whereby this air pressure differential is selectably, rather than auto-matically or continuously, equalized.
A hermetic window as~embly, comprising a pair of glass panes spaced apart and hermetically sealed about their entire perimeter so as to form an airtight airspace therebetween, is provided with a valve which is selectably-actuated to open an air passageway from the interior airspace to the ambient air. If it is desired to equalize the air pressure differential between the interior airspace and the ambient air, the valve can be actuated by the user to open a connecting air passageway and allow the interior air pressure to equalize.
The valve exemplarily is a manually operated, spring-biased push-button type plunger valve, somewhat similar to that shown in Peterson et al. U.S. Patent 4,014,365 and Hobbs U.S. Patent 2,820,475, although other types of valves, capable of being actuated selec-tably, may also be employed.
Therefore, it is an object of the present invention to provide a means and system for selectably equalizing the air pressure differential of the airspace between the glass panes of a hermetic window assembly and the ambient air.
It is a further object to provide a means and system for selectably equalizing such air pressure dif-ferential which is inexpensive, easy to manufacture and install, and which can be manually operated.
7~i The foregoing and other objective~, features, and advantages of the invention will be mor~ readily understood upon consideration of the following detailed description of the invention, taken in conjunction with the accompanying drawings~
Brief Description of the Drawings FIG. 1 is a partially broken-away perspective view of a hermetic window assembly incorporating the air pressure equalization system of the persent invention.
FIG. 2 is an enlarged cross-sectional view of a portion of the hermetic window assembly of FIG. 1, showing the valve assembly in the closed position, taken along the line 2-2 of FIG. 1.
FIG. 3 is a similar view to FIG. 2, but show-ing the valve in the open position.
Detalled Descripton of the Drawings Referring to FIG. 1, a hermetic do~hle-gla~ed window assembly 20 of conventional construction is shown comprising a frame 22, typically made of aluminum alloy or other metal, and two glass panes 24 and 26 spaced apart and sized so that their perimeters contact the inner surface of the frame which is provided with a her-metic caulking sealant 21 and 23 therebetween. (Ofcourse, other types of hermetic sealants suitable for sealing the perimeters of glass panes 24 and 26 against the inner surface of frame 22 could also be used.) One of the panes of the window is provided at one of its s lower corners with a manually-actuated hermetic valve 28, the details of which are shown in FIGS. 2 and 3.
Turning now to the cross-sectional views of FIGS. 2 and 3, hermetic valve ass~mbly 28 includes a valve seat element 30 comprised of a central cylinder 34 and an interior hore 36. The ~ylinder 34 is enlarged at one end to form an expanded outwardly-tapered circular flange 38. At the other end the cylinder is threaded to mate with a matching circular flange member 42 on collar 40. When the valve asse~bly is installed the two flanges 38 and 42 on valve seat 30 and collar 40 respectively are spac~d apart by the thickness of the interposed glass pane 24, as hereinafter described. The valve 28 also includes a push-button plunger 44 comprising a cylindrical axial member 46, having a button-type flange element 50 mounted by threading or other means onto its outer end and a flared interior end portion 48. The flared end 48 is provided with an annular groove 55 in which ~-ring 52 is seated.
Plunger 44 mates with valve seat 30 so thatthe major portion of its axial member 46 is located inside the bore channel 36. The flared end 48 of the plunger sits within the general confines of the expanded portion 38 of the bore 36 and is designed to make sealing contact therewith, as shown in FIG. 2. A
circular spring 54 passes around the outer portion of the axial member 46 betwePn the button flange 50 and the circular flange 42 so that spring 54 biases the ~21 3~745 plunger 44 outwardly, away from glass pane 24, when the valve is installed. In this biased, or closed position, flared end 48 of the plunger sealingly contacts the expanded portion 38 o~ the cylindrical member 34. A second 0-ring 52 is provided therebetween to form an annular hermetic seal ~etween these two elements.
The valve assembly 28 is installed in glass pane 24, prior to the latter's assembly into a double-glazed window unit, by first boring a hole just largeenough to accommodate the cylinder member 34, then passing valve seat 30 through the hole from one side so that the maior portion of cylinder 34 is positioned within the pane opening. The outer circular flange element 42 is then screwed on so that a snug fit is made between the two flanges and the interposed pane, with the 0-rings 60 and 64 providing an annular he~metic seal.
The plunger 44 and its 0-ring member 52 are then installed from the interior side, the spring applied from the outer side and the button flange then fitted onto the outer end of the plunger.
A~ shown in FIG. 3, when the plunger 44 is pressed, its flared end 48 moves away from sealing contact with the expanded channel portion 38 of the central cylindrical member 34, thereby breaking the hermetic seal and creating an air passageway in the clearance between the plunger and the cylinder. Any air pressure differential existing between the airspace in the glass panes 24 and 26 o~ the assembled window unit and the ambient air pressure will then equalize as this newly opened air passageway allows the ambient air to freely mix with the inside airspace. Hermetic valve 28 can thus be selectably actuated by a user as needed to e~lalize the air pressure.
The terms and expressions which have been employed in the foregoing specification are used therein as terms of description and not of limitation and there is no intention, in the use of such terms and expressions, of excluding equivalents of the features shown and described as portions thereof, it being recognized that the scope of the invention is defined and limited only by the claims which follow.
Claims (2)
1. A hermetically-sealed, double-glazed window assembly having a pressure-equalization valve, said assembly being of the type having a pair of glass panes spaced apart with an intervening zone of trapped air serving as a thermal insulator, said valve being installed in an opening formed in one of the panes of said window assembly so as to provide when actuated an air passageway coupling the trapped air zone to the ambient atmosphere, said valve having a valve seat member positioned on one side of said pane opening, a pushbutton-type plunger element positioned inside and cooperating with an axially-extending central cylindrical bore portion of said valve seat member, a collar member positioned on the other side of said opening and also cooperating with said cylindrical bore portion, said valve seat and collar members having respective flange portions, said plunger element being biased to hermetically seal said bore, and said respective flange portions being in sealing engagement with the respective surfaces of said one of said panes, said plunger element having a sealing member and said valve seat member having a sealing surface for matingly contacting said sealing member to hermetically seal said bore, said plunger element further including means defining a manually-engageable actuating area against which a force can be applied to move said sealing member and sealing surface apart, said plunger element having exterior surface means on a portion of said plunger element located axially between said sealing member and said actuating area, said exterior surface means forming said air passageway for coupling said trapped air zone to the ambient atmosphere.
2. The pressure-equalization system of claim 1 wherein said valve is further provided with O-ring members cooperating respectively with said flange portions to provide a sealing engagement of said valve to said one of said glass panes.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA000496587A CA1284745C (en) | 1985-11-29 | 1985-11-29 | Hermetic window assembly with pressure-equalization system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CA000496587A CA1284745C (en) | 1985-11-29 | 1985-11-29 | Hermetic window assembly with pressure-equalization system |
Publications (1)
Publication Number | Publication Date |
---|---|
CA1284745C true CA1284745C (en) | 1991-06-11 |
Family
ID=4131990
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CA000496587A Expired - Lifetime CA1284745C (en) | 1985-11-29 | 1985-11-29 | Hermetic window assembly with pressure-equalization system |
Country Status (1)
Country | Link |
---|---|
CA (1) | CA1284745C (en) |
-
1985
- 1985-11-29 CA CA000496587A patent/CA1284745C/en not_active Expired - Lifetime
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US4567703A (en) | Hermetic window assembly with pressure-equalization system | |
US5653073A (en) | Fenestration and insulating construction | |
US7763334B2 (en) | System and method for upgrading building windows | |
RU2250975C2 (en) | Assembling system for heat- and noise-insulated windows | |
US5333428A (en) | Method and apparatus for creating design insulated glass | |
CA1315604C (en) | Spacer element for multiglazed windows and windows using the element | |
KR100949054B1 (en) | Sealed glazing units | |
US4223493A (en) | Multi-layered skylight | |
US6553728B1 (en) | Insulating glass unit pressure equalization valve | |
CA2158460A1 (en) | Leakproof framed panel curtain wall system | |
DK201000560A (en) | System of outwardly opening window assemblies | |
CA1284745C (en) | Hermetic window assembly with pressure-equalization system | |
US20200040643A1 (en) | Glazed element with improved tightness | |
WO2018079956A1 (en) | Double glazed window of polycarbonate layer | |
US20150323784A1 (en) | Passive reduction or elimination of frost and fog with expandable air container | |
EP1137857B1 (en) | A mounting device | |
DE3637064C1 (en) | Pressure compensation system for fire protection glazing | |
KR20180101067A (en) | Triple structure window of the building | |
KR100662656B1 (en) | Ventilation window using the glass part | |
KR101919321B1 (en) | Window device operated with gear coupling | |
JP2591430Y2 (en) | Double glass structure | |
JPH0742452A (en) | Double glazing equipped with internal pressure automatic controller | |
KR100505917B1 (en) | Air dome having airtight window | |
KR102429820B1 (en) | Aluminum PVC Blast-Resistnat insulated double window | |
GB2098647A (en) | Insulating frame member for doors and windows |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
MKLA | Lapsed |