The present invention refers to a window assembly used, for instance , in a vehicle or building or, for instance , in a train or a car . More especially the invention could be used, for instance , as a side window installed in a high-speed passenger- train .

Lateral Cab and body side windows for high capacity means of transportation, for instance , buses , trains , and metro are designed for services in a wide range of environmental and operational conditions . Generally, such windows use a glazing, either a single pane laminated safety glass unit ( LGU) or a double pane insulated glazing unit ( IGU) connected to the main structural body by a metallic frame .

The metallic frame is replaced increasingly by an extruded circumferential structural gasket that has structural properties in order to withstand defined static and dynamic loads caused by the operating conditions like , for instance , aerodynamic pressures , inertial forces due to acceleration or impacts/crashes , human loads and di f ferent combination of the mentioned actions in the spatial directions .

The structural gasket presents signi ficant advantages towards traditional solutions based on metallic frames coupling glazing and body structure . The main advantages of the structured gasket made of polymeric material are , for instance , the elimination of heavy and expensive parts like the metallic frame itsel f .

The main problem of the structural gasket is related to the need of structural consistency of the gasket in trans ferring of comparable mechanical stress and loads from the glazing to the body structure and vice versa . Accordingly, it is an obj ect of the invention to provide a window assembly avoiding the above mentioned problem, particularly, avoiding heavy and sti f f structural gaskets in case of increased operational loads on windows .

This obj ect is solved by the window assembly of the invention as mentioned in claim 1 . Accordingly, the window assembly or window of the invention for a vehicle or building, particularly for a high-speed passenger-train, comprises a glazing that has one or more panes made of glass , plastic, and/or ceramic material , a window opening provided in a body of , for instance , the vehicle or building, a frame like gasket provided between the glazing and the body and holding the glazing on the body within the window opening, and a reinforcing device for reinforcing the gasket .

The remarkable advantage of the invention is that , by using the reinforcing device , the usual gaskets could be used even in the case of higher operational loads and stresses on the window .

Further, since otherwise gaskets with increased sti f fness would be required to withstand increased loads , the thicker and sti f fer profiles of the gasket would not fit properly the curvature of the edge corners of the window . The heavy profiles of gasket could require often that these curved segments of the profiles have to be manufactured separately by inj ection and/or compression moulding processes resulting in a more complex gasket and window solution . Also these problems are avoided by the invention since the reinforcing device enables to use small and suf ficiently elastic profiles even in the case of higher operational loads . Further remarkable advantages of the window assembly of the present invention due to the reinforcing device are lower weight than with standard solution, easier assembly and maintenance of the system glazing/gasket on the vehicle ' s body, better fitting on the subcomponents with improvement of the water tightness of the system and less design constraint due to a lighter profile of the gasket that is more elastic and, therefore , can fit better the curvature of the glazing, improved overall mechanical strength and fatigue performances

Preferably, the window assembly of the invention has a reinforcing device that is fixed or at least partly moveable during installing or mounting the glazing on the body . Particularly, the moveable reinforcing device allows that the window can withstand even strongly increased loads .

Preferably, the window assembly of the invention provides an opening edge face of the body that is profiled and comprises a circumferential recess between parallel walls and of the profiled edge of the body wherein the reinforcing device comprises at least one reinforcing member or more reinforcing members extending in the recess between the inside and outside parallel walls of the profiled edge of the body to ensure a strong reinforcement of the gasket and, thus , also a reinforced mounting of the glazing on the body .

The reinforcing member may occupy a substantial part of the cross section area of the body recess which is the cross section area between the inside and outside parallel walls of the profiled edge of the body to further increase the mechanical resistance of the gasket and window assembly against increased mechanical loads . The reinforcing member can occupy 40% to 100% of the cross section area of the body recess . Preferably, the reinforcing member can occupy ca . 80% of the cross section area of the body . The window assembly of the invention may comprise a reinforcing device that provides a bracket , at least one insert or several inserts , like , for instance , screws or pins , and an equali zing strip, wherein the gasket has a gasket intermediate portion arranged between the bracket and the equali zing strip and the insert ( s ) coupling the bracket to the equali zing strip . This preferred construction increases the mechanical resistance of the window assembly against increased mechanical loads .

Preferably, the bracket of the invention is arranged or glued on the circumferential outer glazing edge face ( s ) or edge of the glazing for reinforcing the gasket and also the mounting of the gasket .

The window assembly of the invention can comprise an improved reinforcing device with a bracket comprising a number of fixing through holes or fixing bores which are defined by means of corresponding sockets or sleeves extending from a glass gap between parallel glass panes through fixing through holes beyond the glazing edge face or edge of the glazing into the gasket . This preferred construction allows a reinforcing of the gasket and, thus , it also contributes to an increased mechanical resistance of the whole window assembly .

Preferably, a covering portion of the bracket is arranged in corresponding equali zing recesses provided on the glazing edge face ( s ) or edge of the inner and outer glass panes of the glazing for equali zing a thickness of the covering portion of the bracket such that the covering portion is flush to the glazing edge face or edge in order to provide a stable seat of the bracket on the glazing . The window assembly of the invention could have at least one reinforcing member of the reinforcing device which comprises an inner bar and an outer bar which are parallel to each other, and an intermediate portion extending between the inner and outer bars and connecting them, wherein the reinforcing member extending in a body recess of the body . These features result in a strong and stable locking of the gasket on the body or vehicle body .

Preferably, the window assembly of the invention provides at least one reinforcing member of the reinforcing device which is moveable or pivotable from a mounting position to a locked position in order to improve the mechanical resistance of the window assembly . Further, this feature allows a comfortable mounting of the reinforcing device or reinforcing member, particularly i f the reinforcing member occupies a substantial part of the cross section area in the body recess between the inside and outside parallel walls of the profiled edge of the body .

A gasket inner wall portion and/or a gasket outer wall portion could be an integral portion of the gasket . The gasket inner wall portion and/or the gasket outer wall portion of the gasket can have a separate portion that is fixed on the gasket after mounting of the glazing . Preferably, the gasket inner wall portion and/or the gasket outer wall portion comprise ( s ) at least one moveable portion that is connected or coupled to the gasket in a hinged or folding manner, wherein, during mounting of the glazing, the moveable portion is in an opened position for allowing access to the moveable reinforcing member ( s ) of the reinforcing device to be able to move the moveable reinforcing member ( s ) from a mounting position into a locked position, and wherein, after moving the reinforcing member ( s ) , the moveable portion is pushed into a closed position in which the access to the moveable reinforcing member ( s ) is closed and the moveable portion of the gasket touches the body surface .

The window assembly of the invention may provide a reinforcing device with a bracket , at least one insert or several inserts , an equali zing strip, and at least one reinforcing member or more reinforcing members mounted on the equali zing strip and extending in a body recess between parallel inner and outer walls of the profiled opening edge face of the body or vehicle body in order to obtain a further improved mechanical resistance against high loads from outside .

The window assembly of the invention can provide at least one bore or hole in the bracket , the equali zing strip and a corresponding bore or hole in a middle portion of the gasket , whereby the respective insert extends in the bore of the lining layer and in the corresponding bore of the middle portion of the gasket to ensure a secure seat of the insert and, accordingly, a corresponding reinforcement of the gasket .

The window assembly could provide a gasket that has a gasket inner wall portion or inner web, a gasket outer wall portion or outer web, and a gasket intermediate portion extending between gasket inner and outer wall portions , wherein the gasket inner wall portion extends on an inner surface of the glazing and on inner body surface of the body, the gasket outer wall portion extends on an outer surface of the glazing and on an outer body surface of the body, and wherein the gasket intermediate portion extending between the bracket and the equali zing strip of the reinforcing device in order to reinforce the gasket and to enable a strong and suf ficient fixing of the reinforcing device on the gasket and at the vehicle body . The window assembly or reinforcing device of the invention may have several inserts , pins or screws arranged along a perimeter or circumference of the gasket for improving the mechanical resistivity of the window assembly against increased mechanical loads ef fecting on the window assembly .

The reinforcing device could comprise several reinforcing members which can be arranged or inserted with constant or variable step along the whole perimeter or alternatively on a speci fic zone of the glazing and/or the body of a vehicle or building, in order to be able to adapt the window assembly to the mechanical load acting on the window, particularly in the case of an uneven distribution of the mechanical loads acting on the window .

The gasket of the invention can provide a gasket recess for accommodating and holding the glazing edge face or edge of the glazing to ensure the mounting of the glazing on the body together with the required water tightness of the window assembly .

Preferably, the window assembly of the invention provides an even gasket bottom of the gasket , wherein a flanged head of each of the inserts extending between the glazing edge face of the glazing and the gasket bottom of the gasket to ensure the mounting of the insert ( s ) on the gasket .

Preferably, the circumferential gasket of the window assembly of the invention comprises an inner wall portion or inner web, an outer wall portion or outer web, and a middle portion, wherein the inner wall portion extends from an inner surface of the inner pane of the glazing to an inner body surface of the body, the outer wall portion of the gasket extends from an outer surface of the outer pane of the glazing to an outer body surface of the body and wherein the middle portion extends between the gasket bottom of the gasket and the opening edge face of the body and between the outer and inner wall portions of the gasket . This gasket provides a secure watertight seat of the glazing on the body .

Further advantageous embodiments of the invention are mentioned in the dependent claims 2 to 15 . Advantageous embodiments and advantages of the invention could also be derived from the following description of exempli fied and preferred embodiments in connection with the following drawings showing in :

Fig . 1 a schematic section part-view of a window assembly according to a preferred and exempli fied embodiment of the invention in a locked position of a reinforcing device , seen along the auxiliary line I . of Fig . 2 ;

Fig . 2 the schematic section part-view of the window assembly of Fig . 1 in a mounting position of the reinforcing device ;

Fig . 3 a schematic perspective view of the window assembly of Fig . 2 in the locked position of the reinforcing device ;

Fig . 4 a schematic section view and perspective view of the window assembly of the invention according to Figs . 1 to 3 for explaining a window gasket pre-assembly wherein a gasket is mounted on a bracket of the reinforcing device already glued on an edge face of window glass panes ;

Fig . 5 a schematic perspective view of the window assembly of the invention according to Figs . 1 to 3 explaining the mounting of a with reinforcing pins or screws of the reinforcing device on the gasket ;

Fig . 6 a schematic section view of the window assembly of the invention according to Figs . 1 to 3 explaining the moveable reinforcing members of the reinforcing device in the mounting position;

Fig . 7 a schematic section view of the window assembly of the invention according to Figs . 1 to 3 explaining the moveable reinforcing members of the reinforcing device in their locking position;

Fig . 8 a schematic section part-view of a window assembly according to a further embodiment of the invention with a fixed reinforcing device ; and

Fig . 9 shows a schematic and explaining view of a window assembly of the invention according to Fig . 1 or Fig . 8 seen from outside .

Fig . 1 shows a schematic section part-view of a window assembly 10 according to a preferred and exempli fied embodiment of the invention comprising a reinforcing device 6 for a gasket 4 wherein the reinforcing device 6 is in a locked position . The window assembly 10 is shown in the assembled state with a glazing 1 mounted in a circumferential gasket 4 that extends on a circumferential opening edge face 5 of a body 8 , for instance , of a vehicle or building, defining a window opening 7 . The reinforcing device 6 is in a locked position . The window assembly 10 could also be used, for instance , as a side window of a high-speed passenger train .

The glazing 1 of the window assembly 10 comprises two glass panes 2 , 3 arranged parallel and a circumferential glazing edge face 11 or edge faces . The glazing 1 is arranged within the window opening 7 of the body 8 . The glazing 1 of the window assembly 10 may be an insulating glazing comprising, for instance , two usually transparent and parallel glass panes , an inner glass pane 2 and an outer glass pane 3 . Accordingly, the glazing 1 may be a double pane insulated glazing unit ( IGU) coupled to the main structural body 8 by the gasket 4 . The inner and outer glass panes 2 and 3 are separated by a dehydrated gas gap 26 enclosing, for instance , air or a special inert gas . The glass panes 2 and 3 can be made of monolithic tempered glass or laminated safety glass . A circumferential insolating spacer 27 is arranged and glued in between the inner and outer glass panes 2 and 3 . A remaining circumferential gap 26 . 1 or glazing recess is provided above the spacer 27 between the glass panes 2 and 3 . The outer glass pane 3 of the glazing 1 has an outer surface 3 . 1 corresponding to an outer surface 3 . 1 of the glazing 1 which is directed to an outside or environment of the respective vehicle or building . The inner glass pane 2 of the glazing 1 has an inner surface 2 . 1 corresponding to an inner surface 2 . 1 of the glazing 1 which is directed to an inside of the respective vehicle or building .

The opening edge face 5 or edge of the body 8 is profiled and comprises a circumferential body recess 9 or holding fixture opened to the window opening 7 . The recess 9 of the body 8 is defined by a circumferential inner wall 51 and a circumferential outer wall 52 extending in parallel wherein the inner wall 51 of the body 8 has an inner vehicle surface 53 directed to the inside or passenger side of the vehicle or building and the inner wall 52 of the body 8 has an inner body surface 54 directed to an outside or environmental side of the vehicle or building . The walls 51 and 52 are flush at the opening edge face 5 of the body 8 . The window assembly 10 of Fig. 1 comprises a reinforcing device 6 for reinforcing the gasket 4. The reinforcing device 6 could comprise a bracket 29, at least one insert 6.1 or several inserts 6.1, a mounting or equalizing strip 6.2 that is flat and even and that is parallel to the opening edge face 5 of the body 8 and to the glazing edge face 11 if the window assembly 10 is readily installed or mounted, and at least one moveable reinforcing member 6.3 or several moveable reinforcing members 6.3 extending in the body recess 9 of the body 8 if they are in locked position.

The reinforcing device could be formed circumferentially like a continuous frame comprising a circumferential bracket along the outer glazing edge face 11 of the glazing 1 or the reinforcing device may be formed in a single unit or separate units comprising one or more separated brackets 29 that are arranged with equal or unequal distance along the circumferential glazing edge face 11 of the glazing 1 or there could be a single bracket 29 arranged on the glazing edge face 11 of Fig.l and Fig. 4.

The bracket 29 is arranged or glued on the glazing edge face 11 or edge faces of the inner and outer glass panes 2 and 3. The bracket 29 has a flat covering portion 29.1 arranged on the glazing edge face 11 and covering the circumferential gap

26.1 of the glazing 1 partly, an outside portion 29.3 extending on the outer surface 3.1 of the outer glass pane 3, and an inside portion 29.2 extending on the inner surface 2.1 of the inner glass pane 2. The inside and outside portions

29.2 and 29.3 are substantially normal to the covering portion 29.1 of the bracket 29 and they are parallel to the inner and outer surfaces 2.1 and 3.1 of the glass panes 2 and 3.

The bracket 29 comprises fixing through holes 29.4 or fixing bores which could be threaded and which are defined by means of corresponding hollow sockets 29.5 or sleeves, that could be threaded, extending from the circumferential gap 26.1 above the spacer 27 between the glass panes 2 and 3 through the fixing through holes 29.4 beyond the glazing edge face 11 of the glazing 1 into the covering portion 29.1 of the bracket 29 of the gasket 4. The sockets 29.5 and the fixing through holes 29.4 are provided normal to the covering portion 29.1. As shown in Figs. 2 and 3, the bracket 29 may comprise three fixing through holes 29.4 or fixing bores which are defined by means of corresponding three hollow sockets 29.5 or sleeves.

The covering portion 29.1 of the bracket 29 is arranged in corresponding equalizing recesses 11.1 and 11.2 provided on the glazing edge face 11 or edge faces of the glass panes 3 and 2, respectively, of the glazing 1 for equalizing a thickness of the covering portion 29.1 such that the covering portion 29.1 is flush to the remaining original glazing edge face 11. The equalizing recesses 11.1 and 11.2 could be formed by grinding/milling, 3D printing, extrusion, or molding. The bracket 29 can be formed integrally and could be made of composite materials, polymeric or plastic materials and/or preferably metallic materials, for instance, aluminum or stainless steel.

Each of the moveable reinforcing members 6.3 - as shown in Figs. 3 and 4 there may be three moveable reinforcing members 6.3 - comprises an outer bar 6.31 and an inner bar 6.32 which are parallel to each other, and a flat intermediate member 6.33 extending between the outer and inner bars 6.31 and 6.32 and connecting them. The outer bar 6.31 has a bar outside 6.35 and the inner bar 6.32 has a bar outside 6.36 being tapered towards the intermediate member 6.33 at their free ends 6.34. The outer bar 6.31 has a hinged end 6.39 which is coupled to an additional flat member 6.40 which is screwed on the equalizing strip 6.2. The flat member 6.40 comprises a hinge socket 6.41 to be coupled to the hinged end 6.39 or a hinge pin of the hinged end 6.39 of the outer bar 6.31. Each intermediate member 6.33 comprises a stop 6.42 that stops at the corresponding flat member 6.40 if the corresponding moveable reinforcing member 6.3 is in the locked position. The stop 6.42 supports and locks the intermediate member 6.33 on the flat member 6.40.

The moveable reinforcing members 6.3 are made of composite materials, polymeric or plastic materials, and/or preferably metallic materials, for instance, aluminium or stainless steel .

The hinge socket 6.41 and the hinged end 6.39 or pin resulting in a hinge allow that the moveable reinforcing member (s) 6.3 can be moved or can pivot from a mounting or horizontal position, in which the moveable reinforcing member 6.3 is arranged parallel to the equalizing strip 6.2, to an upright or vertical position in which the moveable reinforcing member 6.3 is normal to the equalizing strip 6.2 in the locked position. As shown in Fig. 1, after moving the moveable reinforcing member 6.3 from the horizontal mounting position to the locked position, the bar outside 6.35 of the outer bar 6.31 touches the outer wall 52 of the profiled body 8 whereas the bar outside 6.36 of the inner bar 6.32 of the moveable reinforcing member 6.3 touches the inner wall 51 of the profiled body 8. Accordingly, the moveable reinforcing member 6.3 supports the walls 51 and 52 within the body recess 9 of the profiled body 8. A distance between the walls 51 and 52 within the body recess 9 corresponds, therefore, substantially to a distance between the bar outsides 6.35 and 6.36 of the moveable reinforcing member 6.3 for reinforcing the gasket 4 in the locked position of the moveable reinforcing member 6.3. The reinforcing members 6.3 in the locked position allow that the gasket 4 is able to withstand substantially increased static and dynamic loads and forces on the window assembly 10 or window.

The moveable reinforcing member 6.3 in locking position may occupy a substantial part of the cross section area of the body recess 9 which is the cross section area between the inside and outside parallel walls 51, 52 of the profiled edge of the body 8. The reinforcing member 6.3 can occupy ca. 80% of the cross section area of the body 8.

The window assembly 10 provides several structural elements or inserts 6.1 of the in the form of rotational symmetrical pins or screws for reinforcing the gasket 4, wherein the inserts 6.1 extend substantially in the gasket 4. Three inserts 6.1 are shown in Fig. 2. Each insert 6.1 comprises a flanged head 62 and a cylindrical portion 63 extending from the flanged head 62 into the corresponding socket 29.5 of the bracket 29 in order to fix the insert 6.1 in the socket 29.5. The inserts 6.1 are made of composite materials, polymeric or plastic materials and/or preferably metallic materials, for instance, aluminum or stainless steel.

The window assembly 10 of Fig. 1 comprises the circumferential frame like structural gasket 4 provided between the glazing 1 and the opening edge face 5 of the body 8. The gasket 4 couples or connects the glazing 1 to the body 8 and it holds the glazing 1 within the window opening 7 on the body 8 by holding the opening edge face 5 or edge of the body 8 and the outer glazing edge face 11 or edge of the glazing 1.

The structural gasket 4 is a separate element made by a compression moulding process using polymeric extruded material. The structural gasket 4 is duly fitted to the glazing 1 and to the body 8. The gasket 4 comprises structural elastic properties in order to withstand defined static and dynamic loads on the window assembly 10 or window caused by the operating conditions like , for instance , aerodynamic uni formly distributed pressures up to 3kPa, inertial forces due to acceleration or impacts/crashes up to 5g, human loads and di f ferent combination of the mentioned actions in the spatial directions .

The other function of the circumferential structural gasket 4 is to guarantee water tightness of the window assembly 10 in the operational conditions and last but not least a mandatory requirement is the fire/ smoke opacity and toxicity compliance , for instance , according to EN 45545 .

The circumferential frame like structural gasket 4 of the window assembly 10 comprises a circumferential recess 14 for holding the glazing 1 wherein the glazing edge face 11 or edge of the glazing 1 extends within the recess 14 of the gasket 4 . The recess 14 of the gasket 4 provides a circumferential bottom 15 that is opposed to the circumferential glazing edge face 11 of the glazing 1 . The covering portion 29 . 1 of the bracket 29 extends between the bottom 15 of the recess 14 of the gasket 4 and the glazing edge face 11 of the glazing 1 .

Further, the circumferential peripheral gasket 4 of the window assembly 10 according to the invention shown in Fig . 1 comprises a circumferential gasket outer wall portion 23 or outer web, a circumferential gasket inner wall portion 24 or inner web, and a circumferential flat gasket intermediate portion 25 . The gasket outer wall portion 23 extends from the outer surface 3 . 1 of the outer glass pane 3 of the insulating glazing 1 to the outer surface 54 of the body 8 and it presses against these surfaces 3 . 1 and 54 . The gasket inner wall portion 24 of the gasket 4 extends between the inner surface 2 . 1 of the inner glass pane 2 of the insulating glazing 1 to the inner body surface 53 of the body 8 and it presses against these surfaces 2.1 and 53.

The gasket inner wall portion 24 or inner web can be an integral portion of the gasket 4. In alternative, the gasket inner wall portion 24 could comprise a separate portion that is fixed to the gasket 4 after mounting of the glazing 1. In further alternative, the gasket inner wall portion 24 could comprise at least one moveable portion 24.1 that is connected or coupled to the gasket 4 in a hinged or folding manner. During mounting of the glazing 1, the moveable portion 24.1 is in an opened position for allowing access to the moveable reinforcing member (s) 6.3 of the reinforcing device 6 to be able to move the moveable reinforcing member (s) 6.3 from a mounting position into a locking position. After moving the reinforcing member (s) 6.3, the moveable portion 24.1 is pushed into a closed position in which the access to the moveable reinforcing member (s) is closed and the moveable portion 24.1 of the gasket 4 touches the inner body surface 53 of the inner wall 51. The moveable portion 24.1 is indicated by a schematic separating auxiliary line s shown in Fig. 1 with the moveable portion 24.1 in its closed position after mounting of the glazing 1.

The gasket intermediate portion 25 extends between the covering portion 29.1 of the bracket 29 and the equalizing strip 6.2 of the reinforcing device 6.

The gasket 4 has a number of through holes 20 or bores corresponding to the number of inserts 6.1 or pins. Each of the through holes 20 is provided in the gasket intermediate portion 25 between a bottom 15 of a recess 14 directed to the glazing 1 and a further bottom 15.1 of a further recess 14.1 of the gasket 4 which is directed to the body 8. The hollow sockets 29.5 of the bracket 29 extend within the through holes 20 of the gasket intermediate portion 25.

Fig. 4 shows schematic views of the window assembly 10 of the invention according to Figs. 1 to 3 for explaining a window gasket pre-assembly wherein the gasket 4 is mounted on the bracket 29 of the reinforcing device 6. Accordingly, after preparing or grinding the equalizing recesses 11.1 and 11.2 on the glazing edge face 11 or edge faces of the glass panes 2 and 3 of the glazing 1, the bracket 29 of the reinforcing device 6 is glued on the glazing edge face 11 within the inner and outer equalizing recesses 11.1 and 11.2 such that the covering portion 29.1 of the bracket 29 is flush to the remaining not grinded original glazing edge face 11. Afterwards, the gasket 4 is arranged on the glazing edge face 11 and on the bracket 29 within the of the equalizing recesses 11.1 and 11.2 of the glazing 1 wherein the bottom 15 of the gasket 4 within the gasket recess 14 lies on the glazing edge face 11 and above the covering portion 29.1 of the bracket 29. Accordingly, the gasket outer wall portion 23 touches the outer surface 3.1 of the outer glass pane 3 and the gasket inner wall portion 24 of the bracket 29 touches the inner surface 2.1 of the inner glass pane 2. The hollow sockets 29.5 extend within the through holes 20 of the bracket 29. As shown in Figs. 2 and 3, setting blocks 70 could be used on the further bottom 15.1 of the gasket 4 as auxiliary tools for proper positioning of the glazing 1 during the installation phase .

Fig. 5 shows a schematic view of the window assembly 10 of the invention according to Figs. 1 to 3 explaining the mounting of a liner or equalizing strip 6.2 of the reinforcing device 6 with screws as inserts 6.1 of the reinforcing device 6 on the bottom 15.1 of the recess 14.1 of the gasket 4. The equalizing strip 6.2, then, is arranged on the bottom 15.1 of the gasket 4 within its recess 14.1. The inserts 6.1 are then screwed into the hollow screw sockets 29.5 of the bracket 29 of the reinforcing device 6 until the inserts 6.1 or screws are tightened completely to fasten the equalizing strip 6.2 on the covering portion 29.3 of the bracket 29 with holding and clamping the gasket intermediate portion 25 between the equalizing strip 6.2 and the covering portion 29.3 of the bracket 29 fixedly.

Fig. 6 shows a schematic section view of the window assembly 10 of the invention according to Figs. 1 to 3 showing the moveable reinforcing members 6.3 of the reinforcing device 6 in the mounting position. The flat members 6.40 together with the corresponding moveable reinforcing members 6.3 hinged thereto are then screwed on the equalizing strip 6.2. Accordingly, the moveable reinforcement members are arranged in the mounting position in which they lie on top of the moveable reinforcing members 6.3. The glazing 1 with gasket 4 and reinforcing device 6 in mounting position thereon is then mounted on the body 8 within the window opening 7 whereby the opening edge face 5 or edge of the body 8 engages into the gasket recess 14.1.

Fig. 7 shows a schematic section view of the window assembly 10 of the invention according to Figs. 1 to 3 explaining the moveable reinforcing members 6.3 of the reinforcing device 6 in their locking position. Mounting of the glazing 1 with gasket 4 is performed from outside of the body 8. During mounting the glazing 1 with gasket 4 on the body 8 and before the gasket outer wall portion 23 touches the outer body surface 54 or the gasket inner wall portion 24 touches the inner body surface 53 or the opening edge face 5 or edge of the body 8, there occurs an adjustment opening 30 or access that allows to move the moveable reinforcing member (s) 6.3 of the reinforcing device 6 from the mounting position into the locking position in which the reinforcing members 6.3 are normal to the equalizing strip 6.2 and to the gasket intermediate portion 25. A pin like tool, for example, could be used to cause the movement or pivoting of the moveable reinforcing member (s) 6.3 into their locking position through the adjustment opening 30. Afterwards, the adjustment opening 30 or access can be closed by moving the moveable portion 24.1 of the gasket inner wall portion 24 from its opened position into its closed position in which the adjustment opening 30 or access to the moveable reinforcing member (s) 6.3 is closed and the moveable portion 24.1 of the gasket 4 touches the inner body surface 53 of the inner wall 51.

Fig. 8 shows a schematic section part-view of a window assembly 9.10 according to a further exemplified embodiment of the invention with a fixed reinforcing device 9.6 for a gasket 9.4 wherein the reinforcing device 9.6 is in a fixed upright locking position. The window assembly 9.10 is shown in the assembled state with a glazing 9.1 mounted in the circumferential gasket 9.4 that extends on a circumferential opening edge face 9.5 of a body 8 or body defining a window opening 9.7. The window assembly 9.10 could be used, for instance, in a vehicle or a building or in a side window of a high-speed passenger train.

The glazing 9.1 of the window assembly 9.10 comprises two glass panes 9.2, 9.3 arranged parallel and a circumferential outer glazing edge face 9.11 or edge faces. The glazing 9.1 is arranged within the window opening 9.7 of the body 9.8. The glazing 9.1 of the window assembly 9.10 may be an insulating glazing. The inner and outer glass panes 9.2 and 9.3 are separated by a dehydrated gas gap 9.26 enclosing, for instance, air or a special inert gas. A circumferential insolating spacer 9.27 is arranged and glued in between the glass panes 9.2 and 9.3. A remaining gap 9.26.1 or glazing recess is provided above the spacer 9.27. The inner glass pane 9.2 of the glazing 9.1 has an inner surface 9.2.1 which is directed to an inside of the corresponding vehicle or building. The outer glass pane 9.3 has an outer surface 9.3.1 which is directed to an outside or environment of the respective vehicle or building.

The opening edge face 9.5 or edge of the body 9.8 is profiled and comprises a circumferential body recess 9.9 or holding fixture opened to the window opening 9.7. The recess 9.9 is defined by a circumferential inner wall 9.51 and a circumferential outer wall 9.52 extending in parallel wherein the outer wall 9.52 of the body 9.8 has an outer body surface 9.54 directed to the outside or environmental side of the vehicle or building and the inner wall 9.51 of the body 9.8 has an inner body surface 9.53 directed to an inside or passenger side of the vehicle or building. The walls 9.51 and 9.52 are flush to the opening edge face 9.5 of the body 8.

The reinforcing device 9.6 could comprise a bracket 9.29, at least one insert 9.6.1 or several inserts 9.6.1, a mounting or equalizing strip 9.6.2 that is flat and even and that is parallel to the opening edge face 9.5 of the body 8 and to the glazing edge face 9.11 if the window assembly 9.10 is readily installed or mounted, and at least one locking, fixed and unmoveable reinforcing member 9.6.3 or several fixed unmoveable reinforcing members 9.6.3 extending in the body recess 9.9 of the body 9.8.

The reinforcing device 9.6 could be formed circumferentially like a continuous frame comprising a circumferential bracket along the outer glazing edge face 9.11 of the glazing 9.1 or the reinforcing device 9.6 may be formed in a single unit or separate units comprising one or more separated brackets 9.29 that are arranged with equal or unequal distance along the circumferential glazing edge face 9.11 of the glazing 9.1 or there could be the single bracket 9.29 arranged on the glazing edge face 9.11 of Fig. 8.

The bracket 9.29 is arranged or glued on the glazing edge face 9.11 or edge faces of the glass panes 9.2 and 9.3. The bracket 9.29 has a flat covering portion 9.29.1 arranged on the glazing edge face 9.11 and covering the circumferential gap 9.26.1 of the glazing 9.1 partly, an inside portion 9.29.2 extending on the inner surface 9.2.1 and an outside portion 9.29.3 extending on the outside surface 9.3.1. The inside and outside portions 9.29.2 and 9.29.3 are substantially normal to the covering portion 9.29.1 of the bracket 9.29 and they are parallel to the inner and outer surfaces 9.2.1 and 9.3.1.

The bracket 9.29 comprises fixing through holes 9.29.4 or fixing bores which are defined by means of corresponding hollow sockets 9.29.5. The sockets 9.29.5 and the fixing through holes 9.29.4 are provided normal to the covering portion 9.29.1. The bracket 9.29 may comprise three fixing through holes 9.29.4 or fixing bores which are defined by means of corresponding three hollow sockets 9.29.5 or sleeves. The bracket 9.29 can be formed integrally and could be made of composite materials, polymeric or plastic materials and/or preferably metallic materials, for instance, aluminum or stainless steel.

The fixed reinforcing member 9.6.3 could be coupled to an additional flat member 9.6.40 which may be screwed on the equalizing strip 9.6.2 or may be mounted in upright manner on the equalizing strip 9.6.2. As shown in Fig. 8, the reinforcing member 9.6.3 touches the inner wall 9.51 and the outer wall 9.52 within the body recess 9.9 of the profiled body 8. The at least one fixed reinforcing member 9.6.3 in the upright locking position allow that the gasket 9.4 is able to withstand substantially increased static and dynamic loads and forces on the window assembly 9.10 or window.

The fixed reinforcing member 9.6.3 may occupy a part of the cross section area of the body recess 9.9 which is the cross section area between the inside and outside parallel walls 9.51, 9.52 of the profiled edge of the body 8. The reinforcing member 9.6.3 can occupy less than ca. 50% of the cross section area of the body recess 9.9. In Fig. 8, the reinforcing member 9.6.3 occupies ca. 40% of the cross section area of the body recess 9.9.

The window assembly 9.10 provides several structural elements or inserts 9.6.1 in the form of rotational symmetrical pins or screws for reinforcing the gasket 9.4, wherein the inserts

9.6.1 extend substantially in the gasket 9.4. The insert 9.6.1 comprises a flanged head 9.62 and a cylindrical portion 9.63 extending from the flanged head 9.62 into the corresponding socket 9.29.5 of the bracket 9.29 in order to fix the insert

9.6.1 or screw in the socket 9.29.5. The at least one insert

9.6.1 is made of composite materials, polymeric or plastic materials and/or preferably metallic materials, for instance, aluminum or stainless steel.

The window assembly 9.10 of Fig. 8 comprises the circumferential frame like structural gasket 9.4 provided between the glazing 9.1 and the opening edge face 9.5 of the body 8. The gasket 9.4 couples or connects the glazing 9.1 to the body 9.8 and it holds the glazing 9.1 within the window opening 9.7 on the body 9.8 by holding the opening edge face 9.5 or edge of the body 8 and the glazing edge face 9.11 or edge of the glazing 9.1.

The circumferential frame like structural gasket 9.4 of the window assembly 9.10 comprises a circumferential recess 9.14 for accommodating and holding the corresponding glazing edge face 9.11 or edge of the glazing 9.1. The recess 9.14 of the gasket 9.4 provides a circumferential bottom 9.15 that is opposed to the circumferential glazing edge face 9.11 of the glazing 9.1. The covering portion 9.29.1 of the bracket 9.29 extends between the bottom 9.15 of the recess 9.14 of the gasket 9.4 and the glazing edge face 9.11.

Further, the peripheral gasket 9.4 of Fig. 8 comprises a circumferential gasket inner wall portion 9.24 or inner web, a circumferential gasket outer wall portion 9.23 or outer web, and a circumferential gasket intermediate portion 9.25. The gasket inner wall portion 9.24 extends from the inner surface 9.2.1 of the glazing 9.1 to the inner surface 9.53 of the body 9.8 and it presses against these surfaces 9.2.1 and 9.53. The gasket outer wall portion 9.23 of the gasket 9.4 extends from the outer surface 9.3.1 of the insulating glazing 9.1 to the outer body surface 9.54 of the body 9.8 and it presses against these surfaces 9.3.1 and 9.54. The gasket intermediate portion 9.25 extends between the covering portion 9.29.1 of the bracket 9.29 and the equalizing strip 9.6.2 of the reinforcing device 9.6.

The gasket 9.4 has at least one through hole 9.20 or bore corresponding to the least one insert 9.6.1 or pin. The hollow socket 9.29.5 of the bracket 9.29 extends within the through hole 9.20 of the gasket intermediate portion 9.25.

Fig. 9 shows a schematic and explaining view of a window assembly 10 or 9.10 of Fig. 1 or Fig. 8 seen from outside which is installed in the body 8 or 9.8 of, for instance, a vehicle like a train. A number of reinforcing devices 6 and/or 9.6 or structural elements may be inserted with constant distance or step between each two neighboured reinforcing devices 6 and/or 9.6 as explained and shown in Fig. 9 on left and right sides of a perimeter or circumference of the window assembly 10 or 9.10. Further, reinforcing devices 6 and/or 9.6 may also be arranged with variable distance or step as explained and shown in Fig. 9 on, for instance, a lower side of the window assembly 10 or 9.10. As shown and explained in Fig. 9, additional reinforcing devices 6 and/or 9.6 may be grouped in a specific zone of the perimeter of the window assembly or glazing on, for instance, an upper side of the window assembly 10 or 9.10.