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WO2018191397A1 - Meneaux de fenêtre et mur-rideau, traverses et systèmes - Google Patents

Meneaux de fenêtre et mur-rideau, traverses et systèmes Download PDF

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Publication number
WO2018191397A1
WO2018191397A1 PCT/US2018/027139 US2018027139W WO2018191397A1 WO 2018191397 A1 WO2018191397 A1 WO 2018191397A1 US 2018027139 W US2018027139 W US 2018027139W WO 2018191397 A1 WO2018191397 A1 WO 2018191397A1
Authority
WO
WIPO (PCT)
Prior art keywords
component
transom
mullion
fastener
slot
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.)
Ceased
Application number
PCT/US2018/027139
Other languages
English (en)
Inventor
Todd Frederick
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fremarq Innovations Inc
Original Assignee
Fremarq Innovations Inc
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Priority claimed from US15/487,624 external-priority patent/US10450743B2/en
Application filed by Fremarq Innovations Inc filed Critical Fremarq Innovations Inc
Priority to EP18783885.9A priority Critical patent/EP3610089B1/fr
Priority to CA3059629A priority patent/CA3059629C/fr
Priority to ES18783885T priority patent/ES2963337T3/es
Publication of WO2018191397A1 publication Critical patent/WO2018191397A1/fr
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04BGENERAL BUILDING CONSTRUCTIONS; WALLS, e.g. PARTITIONS; ROOFS; FLOORS; CEILINGS; INSULATION OR OTHER PROTECTION OF BUILDINGS
    • E04B2/00Walls, e.g. partitions, for buildings; Wall construction with regard to insulation; Connections specially adapted to walls
    • E04B2/88Curtain walls
    • E04B2/96Curtain walls comprising panels attached to the structure through mullions or transoms
    • E04B2/967Details of the cross-section of the mullions or transoms
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/54Fixing of glass panes or like plates
    • E06B3/5427Fixing of glass panes or like plates the panes mounted flush with the surrounding frame or with the surrounding panes

Definitions

  • curtain wall systems or frameworks in which glazing or other panels are fitted.
  • Curtain walls typically comprise a grid-like framework usually made of aluminum profiled members arranged with transoms (i.e., structures that typically run horizontally) and mullions (i.e., structures that typically run vertically). Glazing or window panels and non-transparent panels may be secured against the transoms and mullions. The framing is attached to a building structure.
  • window wall systems in which glazing or other panels are fitted within or between concrete floor slabs, for instance.
  • the invention pertains to a window or curtain wall system and separate elements such as mullions or transoms that include a thermally insulating component.
  • the insulating component is a fiberglass component such as a fiberglass reinforced polymer that is bonded to a metal structure.
  • the metal structure may be made of steel or aluminum or other metal for instance.
  • the bonding is accomplished using adhesives and/or other bonding techniques and produces a mullion or transom having sufficient strength to support the panels or glazing of the curtain wall.
  • the thermally insulating fiberglass component enhances the insulating properties of the mullions, transoms and curtain wall system.
  • the insulating component in some instanced may also be fastened to the metal structure using fasteners (and/or may include both fasteners and adhesives or other bonding mechanism).
  • a steel mullion or transom includes a stem projecting from the mullion or transom where the stem is configured to project into a space between a first panel and a second panel of a curtain wall. Since the stem is made of thermally insulating material the structure provides enhanced overall insulating properties of a resultant curtain wall system.
  • a mullion or transom for use on a curtain wall system having at least one panel comprises a metal structural segment and a component made of thermally insulating material and bonded to the metal segment, the component including a seal receiver configured to receive a seal to be positioned between the metal segment and the panel
  • a curtain wall system includes a cell having a first mullion, a second mullion, a first transom and a second transom, the first transom including a metal structure having a fiberglass component bonded to the metal structure, a panel secured to the cell, the fiberglass component including a stem configured to support a weight of the panel.
  • the invention includes a method of making a component by pultruding a fiberglass to have a profile configured to cover an entirety of an outside of a mullion or transom of a curtain wall and to have a pair of receivers for receiving seals to abut against panels of the curtain wall. Further profiles are contemplated under the methods of making components by pultrusion.
  • a metal window wall or curtain wall mullion or transom has an outer side and a component connected to the outer side by a first fastener passing through the outer side and into the component.
  • the fastener is inserted from the inside-out, i.e., from the inside of the metal structure, through the outer side, and into the component.
  • an optional second fastener passes through a pressure plate and into the component at or from an outer side of the component.
  • a mullion or transom for use on a window wall includes a metal mullion or transom structure having an outer side and a component connected to the metal structure at the outer side by a fist fastener passing through the metal structure and into the component, the component covering substantially an entirety of the outer side, the first fastener oriented generally parallel to the outer side.
  • a thermally insulating component or components is bonded to a metal segment such that an entirety or substantially an entirety of an outer face of the metal segment is covered by the component and where the component projects into a space defined between panels of the system.
  • the component covers a stem of an existing structure which stem projects at least partially into the space.
  • the aspect may be used as a retrofit of existing systems.
  • the component in one aspect is a two piece component, with each piece bonded, by adhesive such as an adhesive tape or other adhesive, to the structure to cover the outer face.
  • Figure 1 is a front view of a cell of a curtain wall system according to some embodiments of the present invention.
  • Figure 2 is a sectional view of a mullion along line 2—2 of Figure 1 , according to some embodiments.
  • Figure 3A is a sectional view of a transom along line 3—3 of Figure 1 , according to some embodiments.
  • Figure 3 B is a sectional view of a transom along line 3— 3 of an alternative aspect of Figure 1 , according to some embodiments.
  • Figure 3C is a sectional view of a transom along line 3—3 of an alternative aspect of Figure 1 , according to some embodiments.
  • Figure 3 D is a sectional view of a transom positioned along a bottom wall of an alternative aspect of Figure 1 , according to some
  • Figure 4 is a sectional view of a mullion along line 2—2 of Figure 1 , according to some further embodiments involving use of aluminum.
  • Figure 5 is a sectional view of a transom along line 3—3 of Figure 1 , according to some further embodiments involving use of aluminum.
  • Figure 6 is a sectional view of a mullion along line 2—2 of Figure 1 , according to some further embodiments.
  • Figure 7 is a sectional view of a transom along line 3—3 of Figure 1 , according to some further embodiments.
  • Figure 8 is a sectional view of a mullion along line 2—2 of Figure 1 , according to some further embodiments.
  • Figure 9 is a sectional view of a mullion along line 2—2 of Figure 1 , according to some further embodiments.
  • Figure 1 0 is a sectional view of a mullion positioned along an end wall of Figure 1 , according to some further embodiments.
  • Figure 1 1 is a section view of a transom according to some further embodiments.
  • Figure 1 2 is a sectional view of a transom according to some further embodiments.
  • Figure 1 3 is a section view of a mullion according to some further embodiments.
  • Figure 1 4 is a section view of a mullion according to some further aspects.
  • Figure 1 5 is a section view of a mullion according to some further aspects.
  • Figure 1 6 is a section view of a mullion according to some further aspects.
  • Figure 1 7 is a section view of a transom according to some further aspects.
  • Figure 1 8 is a section view of a transom according to a further aspect of the invention.
  • Figure 1 9 is a section view of a transom structure according to a further aspect of the invention.
  • Figure 20 is a section view of a transom structure according to a further aspect of the invention.
  • Figure 21 is a section view of a mullion structure according to a further aspect of the invention.
  • Figure 22 is a section view of a transom structure according to a further aspect of the invention.
  • Figure 23 is a section view of a mullion structure according to a further aspect of the invention.
  • Figure 24 is a section view of a mullion structure according to a further aspect of the invention.
  • Figure 25 is a section view of a mullion structure according to a further aspect of the invention.
  • Figure 26 is a section view of a transom structure according to a further aspect of the invention.
  • Figure 27 is a section view of a mullion or transom structure according to a further aspect of the invention.
  • Figure 28 is a section view of a transom structure according to a further aspect of the invention.
  • Figure 29 is a section view of a transom structure according to a further aspect of the invention.
  • Figure 30 is a section view of a mullion structure according to a further aspect of the invention.
  • Figure 46 While the invention is amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not necessarily to limit the invention to the particular embodiments, aspects and features described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention and as defined by the appended claims.
  • Figure 1 is a front view of a cell 20 of a curtain wall system 22 according to some embodiments.
  • System 22 is shown in partial (and panels are not shown). It may be appreciated that multiple cells 20 may comprise system 22.
  • Figure 2 is a sectional view of a mullion 24 of cell 20.
  • Figure 3 is a sectional view of a transom 26 of cell 20.
  • a similar transom 26' is positioned generally parallel with transom 26.
  • a similar mullion 24' is positioned generally parallel with mullion 24.
  • mullions 24, 24' and transoms 26, 26' comprise a single cell 20 of curtain wall system 22.
  • mullions 24 and transoms 26 also comprise additional cells 20' or components of cells 20' of system 22.
  • panels such as windows, glass, or plates or other objects may be inserted within a cell 20 to cover or span the space, light or opening created by mullions 24 and transoms 26.
  • mullion 24 includes a first mullion segment 30.
  • mullion 24 includes a second mullion segment 32 and a third mullion segment 34.
  • Mullion segments 30, 32 and 34 form a mullion 24 and define a mullion cavity 29.
  • mullion 24 is made of steel.
  • segments 30, 32 and 34 may be made of steel.
  • segments 30, 32 and 34 may be formed by bending 1 2 gage steel sheets.
  • mullion 24 includes a polymer component 40 which is bonded to mullion 24. Polymer component 40 is formed of a thermally insulating material.
  • polymer component 40 is made of fiberglass reinforced polymer (FRP) or glass-fiber reinforced polymer (GFRP) which in one example is a fiber reinforced polymer including plastic.
  • FRP fiberglass reinforced polymer
  • GFRP glass-fiber reinforced polymer
  • a variety of glass, fiberglass and/or plastics may be used.
  • polymer component 40 is made of material including fiberglass and polyester, or fiberglass and vinyl ester, or fiberglass and polymers, and may include non-fire retardant materials or fire retardant materials.
  • Polymer component 40 may be made using a pultrusion process and may include reinforcing structures or mats to provide structural support. Rovings may be located in the component 40 which may also include an external coating or coatings. Polymer component 40 thus has favorable insulating features. In one aspect involving steel structural segments 30, 32 and 34, polymer component 40 fills a gap that would otherwise lead from outer side 25 to cavity 29.
  • polymer component 40 is bonded to mullion 24 with an adhesive.
  • a variety of bonding ingredients and techniques may be used to secure polymer component 40 to mullion 24.
  • polymer component 40 includes an interlock 42 which is configured to receive tail 31 of first mullion segment 30. Tail 31 may be both friction fit within interlock 42 and also bonded within interlock 42 with an adhesive and/or bonding treatments.
  • interlock 42 is a gap defined by polymer component 40.
  • Polymer component 40 may include a lip 43 which in part defines interlock 42 as shown.
  • Polymer component 40 also includes a first arm 44 having a tail-contact surface 45 which is bonded to the outside surface of tail 31 .
  • tail contact surface 45 covers the entire area of the outside surface of tail 31 . In this manner tail 31 is not exposed to the outside element which would otherwise tend to corrode or deteriorate tail 31 .
  • Polymer component 40 also includes a second arm 46 having a tail contact surface 47 which in one aspect may be bonded to the outside surface of tail 33 of third mullion segment 34. In one aspect tail contact surface 47 may cover the entirety of the outside surface of tail 33. It may be appreciated that contact surface 47 may also cover less than the entirety of the outside surface of tail 33.
  • Polymer component 40 may also include a further lip 48 configured to adhere to tail 33. In further aspects arm 46 may loosely fit against tail 33 (i.e., not be bonded) so that arm 46 may slide with respect to tail 33.
  • lip 48 may also be a loose fit against tail 33.
  • polymer component 40 may be used to assist in adhering polymer component 40 to mullion 24 (whether adhering to segment 30, 32 or 34).
  • Polymer component 40 is configured to adhere to mullion 24 while also having a stem portion 80 extending between or into a gap or pocket defined in part by panels 50, 50'.
  • a fastener 39 may insert through a pressure plate 36 and into the stem to secure panels 50, 50' in position.
  • Seals 60, 60 may be positioned between pressure plate 36 and panel frame 52.
  • a cover plate 38 may be positioned to cover pressure plate 36. It may be appreciated that panel 50 may be positioned within cell 20 while panel 50' may be positioned within an adjacent cell 20'.
  • polymer component 40 includes a seal receiver 49 configured to receive a seal 60.
  • seal receiver is defined by seal fingers 41 .
  • Seal 60 is configured to insert into seal receiver 49 and between first arm 44 and panel frame 52. Seal 60 may fiction fit to panel frame 52 and may also be bonded to panel frame 52. Seal 60 may be of a
  • Seal 60 may also include a wrap segment 62 to partially cover an edge of first arm 44.
  • polymer component 40 includes a further seal receiver 49 positioned at or defined by second arm 46.
  • seal receiver 49 may be configured to receive a seal 66 configured to interact with a shoulder 70 described below.
  • seal 66 is positioned between second mullion segment 32 and third mullion segment 34.
  • mullion 24 includes a shoulder 70
  • shoulder 70 includes an interlock 42'. Interlock 42' is configured to receive tail 35 of segment 32. Tail 35 may friction fit within interlock 42' and/or be bonded to shoulder 70 within interlock 42'.
  • Shoulder 70 is made from the same or similar material as is polymer component 40 described above. In one aspect shoulder 70 abuts polymer component 40. A sealant 64 may be applied where shoulder 70 meets polymer component 40.
  • shoulder 70 includes a seal receiver 49'. Receiver 49' is configured to receive a seal 60. In one aspect seal receiver 49' is defined by seal fingers 41 . Seal 60 is configured to insert into seal receiver 49' and between shoulder 70 and panel frame 52. Seal 60 may friction fit to panel frame 52.
  • Seal 60 may be of a conventional variety used in curtain wall systems. Panel frame 52 may also be secured to seal 60 with an adhesive. Seal 60 may also include a wrap segment 62 to partially cover an edge of shoulder 70. In a further aspect shoulder 70 may be configured without elbow 71 (i.e., elbow extends from shoulder 70 at line "e" as shown in Figure 2). Tail 35 may extend further toward tail 31 to lessen a gap there between. Shoulder 70 may friction fit or interlock and/or bond to tail 35.
  • polymer component 40 and shoulder 70 combine to cover the entirety of the outer side 25 of mullion 24.
  • polymer component 40 and shoulder 70 are configured such that no portion of mullion 24 is exposed to outer side 25, nor is any segment of mullion 24 in communication with the panels 50, 50' or the pocket 28 between panels 50, 50'. Maintaining the segments of mullion 24 in isolation from the outside atmosphere improves the insulating characteristics of system 22.
  • mullion 24 is a composite structure made of steel segments 30, 32 , 34 to which the fiberglass items, such as polymer component 40 and shoulder 70 are bonded or laminated.
  • Polymer component 40 and shoulder 70 are configured to remain connected to mullion 24.
  • polymer component 40 and shoulder 70 are continuous in that they span the length of mullion 24.
  • transom 26 (i.e., a horizontally oriented element of cell 20) includes polymer component 1 40 which is made of material that is the same or similar to the material used to make polymer component 40 referenced above.
  • Polymer component 1 40 includes a first arm 1 44 having a transom contact surface 1 45 and a second arm 1 46 having a transom contact surface 1 47.
  • component 1 40 is bonded to transom 26 at least at contact surfaces 1 45, 1 47.
  • first arm 1 44 and second arm 1 46 may be bonded with an adhesive and other bonding techniques to transom wall 1 30.
  • Wall 1 30 is formed of metal and in one aspect is formed of steel and in one aspect is bent into configuration.
  • wall 1 30 includes receiving arm 1 31 , 1 31 '.
  • arm 1 31 is integrally connected to wall 1 30 and is configured to receive contact surface 1 45.
  • Receiving arm 1 31 may be bent into position as shown for instance in Figure 3 and then welded to transom plate 58 at weld 56.
  • receiving arm 1 31 leads to receiving hand 1 32 and hand 1 32 is in turn welded to transom plate 58 with weld 56.
  • hand 1 32 ' may be oriented parallel or at least substantially parallel with hand 1 32.
  • hand 1 32 and hand 1 32 ' are opposing walls.
  • Polymer component 1 40 further includes fingers 1 41 a, 1 41 b configured to bond with wall 1 30.
  • finger 1 41 a is bonded to hand 1 32 and finger 1 41 b is bonded to hand 1 32'.
  • An adhesive may be applied between polymer component 1 40 and wall 1 30 to securely bond component 1 40 along an entirety of the exterior surface of arm 1 31 and continuing about the curve 1 33 and along hand 1 32.
  • an adhesive may be applied to securely bond component 1 40 along an entirety of the exterior surface of arm 1 31 ' and continuing about the curve and along hand 1 32'. It may be appreciated that the combination of adhesive and the structural matching arrangement of fingers 1 41 combine to provide a secure bond sufficient to allow component 1 40 to withstand the forces associated with bearing the weight of panels 50, 50' and other forces associated with or applied to the panels.
  • Fingers 1 41 a, 1 41 b also allow for efficient alignment of
  • Fingers 1 41 are positioned on component 1 40 to match the gap between hands 1 32, 1 32' and to also receive an adhesive between component 1 40 and wall 1 30.
  • Wall 1 30 is bent with corners 1 33 to match the contour of finger 1 41 a (and/or vice versa) and the same is presented with finger 1 41 b and at a distance to match the gap between hands 1 32, 1 32', to provide a secure bond.
  • a variety of steps for preparing the surfaces and/or curing or treating the adhesives, as needed, may be used to achieve a secure bond of component 1 40 to wall 1 30. It may be appreciated that fingers 1 41 may be positioned in different locations, and in some applications may be reconfigured into different shapes/dimension and/or removed altogether.
  • polymer component 1 40 covers the entirety of outer side 1 25 of transom 26. Such configuration assures that no portion of transom 26 is in communication with the exterior atmosphere or panels 50, 50' or the pocket 28 between panels 50, 50'. Maintaining such isolation improves the insulating characteristics of system 22.
  • polymer component 1 40 includes a seal receiver 1 49.
  • Receiver 1 49 is configured to receive a gasket or seal 60.
  • seal receiver is defined by seal fingers 41 .
  • Seal 60 is configured to insert into seal receiver 1 49 and between component 40, 1 40, and panel frame 52, i.e., between first arm 1 44 and panel frame 52. Seal 60 may be bonded to panel frame 52. Seal 60 may be of a conventional variety used in curtain wall systems.
  • a pressure plate 36 is fastened with a screw 39 to stem 80 of component 1 40 and applies pressure to seals 60 which in turn apply pressure to panels 50, 50' and against component 1 40. It may be appreciated that a setting block may be positioned between stem 80 and panel 50. It may be appreciated that component 1 40 together with pressure plate 36 secure panels 50, 50' to transom 26.
  • the stem 80 includes a groove 82 configured to receive a fastener 39 (see also Figure 3B).
  • Groove 82 may include a taper 84 to assist in receiving fastener 39.
  • Groove 82 may be a continuous groove which spans the length of component 40, 1 40. It may be appreciated that groove 82 operates as a pilot hole to receive and contain fastener 39.
  • groove 82 is configured to securely receive a fastener such as a screw, including a #1 4 stainless steel HWH SMS screw.
  • a plurality of screws 39 may be inserted along transom to secure a plurality of panels 50, 50' into position. In one instance screws 39 may be positioned at 9 inches on center. Other arrangements may be used as desired.
  • FIG. 3B shows a further aspect of transom 26 having a
  • setting block 37 positioned between component 1 40, particularly, between the stem 80 of component 40, and a panel 50.
  • setting block 37 is a silicone block of about 4 inches to 6 inches in length. Block 37 may also be a
  • Block 37 may include a block tip 37a which is a projection from block 37 configured to abut component 40 for appropriate spacing of block 37 beneath panel 50 within pocket 1 28. In one example a number of setting blocks 37 may be used and staggered at various locations along the system 22. Blocks 37 may be positioned at quarter points along panel 50, for example. Block 37 or blocks 37 allow for the weight of a panel 50 to be transferred to the stem 80 or polymer component 40. Use of blocks 37 may also be employed with reference to Figure 5 and Figure 7. In this manner the weight of panels 50 is supported by polymer component 40.
  • seal 60 may include, for instance, a 60 durometer silicone gasket.
  • the interior side seal 60 may include a lineal or molded corner configuration for instance.
  • Pressure plate 36 may also include a weep hole 51 which is an aperture defined by plate 36. Weep hole 51 allows for moisture to escape from pocket 1 28.
  • a gasket, such as gasket 53 may be positioned between pressure plate 36 and stem 80. Gasket 53 may include a silicone material, such as a 70 durometer silicone gasket separator. It may be appreciated that polymer component 40 extends into pocket 1 28 between panels 50, 50'.
  • Pressure plate 36 may extend a length of transom 26. Pressure plate 36 may include several weep holes 51 spaced at various positions along the length of plate 36. In one example weep hole 51 may be positioned on pressure plate 36 at a position above polymer component 40 as shown. This allows water or moisture to escape from below panel 50.
  • FIG. 3C shows a further aspect of transom 26 having a symmetrically disposed polymer component 1 40.
  • the transom 26 includes a glazing tape 54 between panel 50 and component 40.
  • glazing tape 54 is a two sided glazing tape.
  • Use of glazing tape 54 secures panel to polymer component 40 which is in turn secured to transom wall 1 30.
  • a silicone layer 68 such as structural silicone is also positioned between panel 50 and component 40. Together the glazing tape 54 and structural silicone 68 secure panel to transom 26 while also maintaining a seal relationship.
  • a silicone gasket 69 is positioned at an edge of component 40 and structural silicone 68 for additional insulation and/or for cosmetic purposes to conceal the structure.
  • Gasket 69 inserts into a gasket receiver 69' of component 40.
  • a similar arrangement may also be used to secure panel 50' to transom 26. It may be appreciated that use of glazing tape 54 and structural silicone 68, for instance, allows for securing panel 50 to transom 26 without the use of a fastener such as shown the Figure 3A or Figure 3B.
  • a sealant 64 may be applied between panels 50, 50', for instance, and/or applied to stem 80 of component 40.
  • a setting block 37 may also be used to receive panel 50.
  • Figure 3D shows a further aspect of transom 26 having a symmetrically disposed polymer component 40 and where the transom 26 is positioned adjacent a horizontal (such as at a bottom area of a curtain wall system).
  • a single (upper) panel 50 is used in this aspect.
  • a PVC spacer 67 is positioned between pressure plate 36 and component 40.
  • a sealant 64 and seal 60 may be positioned between the horizontal and cover plate 38 and at the joint of component 40 and transom wall 1 30.
  • a setting block 37 may be used to set transom 26.
  • mullion 224 is made of aluminum.
  • Mullion 224 is made of a first mullion segment 230 and a second mullion segment 232.
  • a polymer component 240 is bonded to mullion 224.
  • polymer component 240 is bonded, by an adhesive and other bonding techniques, to segment 230.
  • component 240 may include an interlock 242 to receive a mullion finger of segment 230.
  • Interlock 242 in one aspect is configured as part of first arm 244.
  • First arm 244 may include a lip 243 which inserts into a gap defined by segment 230.
  • Adhesive is applied to the surfaces to bond first arm 244 to segment 230. Bonding treatments and procedures are used to assure a rigid connection.
  • contact surface 245 is bonded to segment 230.
  • Polymer component 240 further includes seal receiver 249.
  • Receiver 249 is configured to receive a seal 60.
  • seal receiver is defined by seal fingers 241 .
  • Seal 60 is configured to insert into seal receiver 249 and between first arm 244 and panel frame 52. Seal 60 may be bonded to panel frame 52. Seal 60 may be of a conventional variety used in curtain wall systems.
  • transom 224 further includes shoulder 270 laminated or bonded to mullion 224. Particularly shoulder 270 is rigidly connected to segment 232. Shoulder 270 includes interlock 242 which may be the same or similar to interlock 242 defined by polymer component 240.
  • Segment 232 may also include tail 231 which may be friction fit and/or bonded within gap formed by lip 243. Shoulder 270 abuts polymer component 240 and may include seal 264. Shoulder 270 may further include seal receiver 249 to receive seal 60. Shoulder 270 and polymer component 240 are bonded to mullion 224 at outer side 225 and prevent mullion 224 from communication with panels 50, 50' or pocket 228.
  • transom 326 which includes transom wall 330.
  • Polymer component 340 is bonded to transom 326.
  • Polymer component 340 is made of the same or similar material as is the polymer component 40 noted above.
  • Polymer component 340 is configured to friction fit and/or bond with or to outer side 335 of transom 326.
  • polymer component 340 includes a lip 343 which inserts into a gap formed in part by tail 331 of transom wall 330.
  • Transom 326 may be made of aluminum and may be extruded, for instance. Lip 343 and tail 331 create an interlock 342.
  • Polymer component 340 further includes a first arm 344 which includes a seal receiver 349.
  • Receiver 349 is configured to receive a seal 60.
  • seal receiver is defined by seal fingers 341 .
  • Seal 60 is configured to insert into seal receiver 349 and between first arm 344 and panel frame 52.
  • Seal 60 may be bonded to panel frame 52.
  • Seal 60 may be of a conventional variety used in curtain wall systems.
  • Polymer component 340 in this aspect completely covers outer side 325 of transom 326.
  • an alternative mullion 24 which is similar to the mullion 24 of figure 2 further includes a fastener 72 such as a screw.
  • Fastener 72 includes additional support to further inhibit separation of polymer component 40 from mullion 24.
  • fastener 72 is
  • FIG. 7 shows transom 26 where fastener 72 is inserted through polymer component 1 40 where polymer component 1 40 is also bonded to transom 26. This arrangement has similar separation inhibiting aspect as noted with Figure 6.
  • Figure 8 shows a polymer component 40 bonded to mullion 24.
  • mullion includes first mullion segment 30 having a tail 31 a leading to arm 31 b and hand 31 c. Arm 31 b extends from tail 31 a in a
  • Mullion 24 also includes second mullion segment 32 which includes shoulder polymer component 70.
  • Component 70 is made of the same or similar material as component 40.
  • Component 70 is bonded to segment 32 at tail 35. It may be appreciated that the exterior surface of tail 35 is covered from the atmosphere or from communication with panel 50' or pocket 1 28. It may also be appreciated that the exterior surface of segment 30, such as at tail 31 a, arm 31 b and hand 31 c, is also covered from the atmosphere or from communication with panel 50 or pocket 1 28.
  • Component 70 may wrap at least in part at a tip of tail 35.
  • Component 40 and component 70 include seal receiver 49, 49' to receive respective seals 60.
  • Figure 9 shows a polymer component 40 and a polymer component 70 bonded to mullion 24. The bonding is achieved by use of an adhesive applied.
  • component 40 is devoid of a stem and does not include an element which projects into pocket 1 28.
  • Panels 50, 50' are secured to component 40 and component 70, respectively, with glazing tape 54 and structural silicone 68.
  • a sealant 64 and seal 60 are applied between panels 50, 50'.
  • Figure 1 0 shows a polymer component 40 bonded to mullion 24.
  • mullion 24 is formed of bent sheet steel.
  • mullion 24 is positioned adjacent or against a vertical wall and connects with a transom 26 having wall 1 30.
  • Transom 26 also includes an end plate 1 35 welded at an end of transom 26. End plate 1 35 receives fasteners which pass through mullion 24.
  • a single segment mullion 24 is configured with opposing walls 1 32, 1 32' to accommodate adherence of fingers 1 41 a, 1 41 b. Segment 40 is bonded to mullion 24 as noted above with respect to the further aspects.
  • Segment 40 includes seal receivers 49, 49' to receive a seal 60 and/or a PVC spacer 67. It may be appreciated that an entirety of an outside surface of mullion 24 is isolated from the atmosphere or from communication with panel 50' and/or pocket 1 28. It may be appreciated that panel 50' may also be fastened to mullion 24 by use of glazing tape and silicone gasket as desired (and as an alternative to use of a fastener and/or stem 80). [Para 72] While there are some curtain wall systems made of metal, most are made of aluminum. Some curtain wall installers may not appreciate the difficulties in working with steel systems due to the need to assure non- exposure of parts to the atmosphere or water which would otherwise result in deterioration, or for other reasons (or if they do, the exactness of the
  • a tradesman accustom to installing aluminum systems might be more apt to make a mistake in dealing with steel, or if a mistake is made, the resulting damage is, or can be, much more significant as compared to a mistake in installing an aluminum system.
  • Mullion 24 may be of varying lengths depending on the desired application. In one example, mullion 24, and thus segment 30 may have a length of up to 24 feet, or at least 24 feet. A press that is 24 feet long, or at least 24 feet long may be used to form mullion 24 at such length. Mullion 24 may also be of smaller length as desired and smaller presses and tooling may also be used. Mullion 24 may be formed at a variety of widths. In one example mullion 24 may vary in width from 1 3 ⁇ 4 inches (45 mm), for instance, to 4 inches (1 00mm) or more, and may vary in depth from 4 inches (1 00 mm), for instance, up to 1 6 inches (405mm) or more. Different lengths, widths and depths and other dimensions may also be used as desired.
  • mullion and transoms and individual segments can be manufactured using the same tooling and break press machine in a bending process.
  • mullion and transom may be manufactured using a roll forming technique.
  • different tooling would be used to manufacture mullions or transoms having different dimensions.
  • a variety of dimensions with custom or various profiles may be formed at lower cost.
  • Steel cannot be extruded, or is extremely difficult or impossible to extrude with present or typical machinery or methods. Bending of steel is used to provide the profile as shown in the Figures, for example.
  • a method aspect of the invention includes bending sheets of steel to make a variety of curtain wall mullion or transom segments and bonding a fiber reinforced polymer element to the structure such that the bonded element extends into a gap defined by two adjacent panels supported by the system.
  • the method includes using a press brake and a set of tooling elements configured for use in conjunction with the press brake to bend a sheet of steel to form a first mullion segment.
  • the bonded segment has a polymer
  • the method further includes using the press brake and at least some of the same tooling elements (or all of the same tooling elements) to bend a second sheet of steel to form a second mullion segment.
  • the bonding process may include use of adhesives and curing agents and application of temperature or other bonding techniques to assure a rigid formation of the polymer component to the mullion or transom structure.
  • a further aspect of the invention includes a method of making a thermally insulating component configured to be bonded to a metal structure where the method comprises pultruding the component with a thermally insulating material through a pultrusion die having a profile perpendicular to the direction of pultrusion including a stem 80 extending in a first direction from a base 81 , first arm 1 44 and second arm 1 46 extending from opposite sided of base 81 and each extending perpendicular to the stem 80 and each defining a seal receiver 1 49 having an opening toward the first direction.
  • the stem 80 includes a groove 82 configured to receive a fastener 39.
  • Groove 82 may include a taper 84 to assist in receiving fastener 39.
  • Groove 82 may be a continuous groove which spans the length of component 40, 1 40. It may be appreciated that groove 82 operates as a pilot hole to receive and contain fastener 39.
  • groove 82 is configured to securely receive a fastener such as a screw, including a #1 4 stainless steel HWH SMS screw.
  • the component profile includes a first finger 1 41 a and a second finger 1 41 b each extending from base 81 opposite stem 80. Fingers 1 41 are configured to align with a curve of metal structure 26, and particularly configured to conform to opposing hands 1 32, 1 32'.
  • fingers 1 41 are symmetrically separated by a distance greater than the width "w" of stem 80.
  • the thermally insulating component 40 may be pultruded from fiberglass material, and may also include reinforcing mats and an exterior surface may include a heat set resin coating.
  • the invention includes the method of pultruding the various thermally insulating components 40, 1 40 (and
  • a further aspect of the invention includes a method of bonding a thermally insulating component to a metal structure.
  • the metal may include steel, aluminum, alloys or other metals.
  • the method includes providing an adhesive between a pultruded fiberglass material and an outer side 1 25 of metal structure 26.
  • the fiberglass material is a polymer component 40 having fingers 1 40 that fit with respective hands 1 32 of the metal structure 26.
  • the method includes bonding the component 40 to the cover the entirety of the outer side 1 25 of metal structure 26.
  • Transom 426 is a metal structure and includes a metal first segment 430 and a metal second segment 432 connected thereto. Segments 430, 432 may be made of extruded metal such as aluminum. Segment 432 may snap-fit into connected position. Transom 426 has an outer side 433 which is oriented toward or facing panels 50 or an outside of the building to which transom 426 is connected. Segment 430 includes an access port 434 such that when segment 432 is not connected to segment 430, access is made available to inside 435 of transom 426. Particularly, access may be made through port 434 such that a fastener 39 may be inserted into and through segment 430.
  • Fastener 39 may be inserted such that a head 39a of fastener 39 abuts inner surface 436 of transom 426. In one aspect fastener 39 is inserted through segment 430 to outer side 433 of transom 426.
  • Transom 426 includes a component 440 connected to transom 426 at outer side 433.
  • Component 440 may be made of materials noted above regarding components 40, 1 40.
  • component 440 includes a head 442 which inserts into a pocket 438 of segment 430.
  • Head 442 may include ear or ears 444 which in one aspect insert into interlocking slots 445 defined at least in part by pocket rib 446.
  • Component 440 also includes shoulder 448 or opposing shoulders 448 which abut transom 426 at outer side 433.
  • shoulder 448 abuts and covers outer side face 433' of segment 430.
  • component 440 abuts and covers the entirety or substantially the entirety of outer side 433 of segment 430. Covering the entirety of outer side 433 isolates the metal transom 426 from the outside and insulates transom 426.
  • Component 440 also defines a bore such as head bore 450 which is configured to receive fastener 39. Head bore 450 opens toward head 442 such that fastener 39 penetrates through segment 430 and into bore 450. Bore 450 is a closed bore in that bore 450 is closed opposite head 442 (i.e., the bore does not run through the component).
  • component 440 may be fastened to transom 426 without exposing any part of transom or outer side 433 to the elements. There are no perforations made through component 440 which would otherwise tend to cause moisture or cold or outside air to contact transom 426. Bore 450 also allows for efficient insertion or securing of fastener 39 to component 440. Given the nature of the materials used to make component 440, such as in one instance component 440 is made of reinforced fiberglass, bore 450 allows the fastener 39 to penetrate or connect to component 440 without undue trauma to component 440. The absence of bore 450 might otherwise cause component 440 to splinter or crack or otherwise become weak when fastener 39 is inserted.
  • fastener 39 includes self-threading threads which impart corresponding thread grooves in component 440 at bore 450. Opposite from bore 450 is stem bore 452 defined by stem 480. Bore 452 receives a fastener 39. Fastener 39 may secure pressure plate to transom 426. Bore 452 opens outward and has a closed end or bottom oriented toward segment 430. Shoulder 448 may include a seal receiver 49 to receive a seal 60. Seal 60 abuts panel 50.
  • a spacer or setting block 37 is positioned on component 440 at stem 480. Upon block 37 rests panel 50. It may be appreciated that panel 50 will have a weight and the weight is supported by component 440.
  • Component 440 extends between or into a gap between panels 50, 50. In this manner component 440 is a structural support of panel 50. It may be appreciated that component 440 may extend the entire length or substantially the entire length of the face or outer side 433 of segment 430.
  • component 440 is positioned within pocket 438 of segment 430 by longitudinally inserting head 442 into pocket 438 and sliding component 440 longitudinally within pocket 438.
  • Component 440 and segment 430 may be placed end-to-end for sliding action.
  • a fastener 39 or series of fasteners may be secured to transom 426.
  • a fastener 39 is positioned to inside 435 and placed against inner surface 436.
  • a drill or screw driver is activated to drive fastener 39 through segment layer 430 and into bore 450 of head 442 of component 440.
  • a series of fasteners 39 may be inserted along the longitudinal aspect of component 440.
  • Fasteners 39 may be inserted via angled drill/drive devices. Fasteners 39 may be inserted robotically. After insertion of fasteners 39, second metal segment 432 is connected to first metal segment 430 to form transom structure 426. In a further aspect, component 440 may also be bonded to metal segment 430. In one instance shoulder 448 may be bonded to outer side face 433' with an adhesive. A heat treatment may also be applied to assist with the bonding. An adhesive layer may also be inserted into or used to fasten shoulder 448 to segment 430. Adhesive may also be used to secure head 442 within pocket 438. Various designs and configurations of head 438 may be used.
  • an aspect of the invention includes the component 440 itself.
  • Component 440 is a thermally insulating fiberglass reinforced polymer component 440.
  • Component 440 is for use with a curtain wall mullion 426 or transom of a curtain wall system.
  • component 440 includes a head 442 configured to insert into a pocket 438 defined at an outer side 433 of a metal mullion or transom 426 of the system.
  • Opposing shoulders 448 define seal receivers 49 configured to receive a seal oriented to abut a panel 50 of the system.
  • Each of the shoulders 448 are configured to about the outer side 433 of the metal structure 426 such that component 440 covers substantially an entirety of the outer side 433.
  • component 440 covers the entirety of the outer side 433 at outer side face 433'.
  • a stem 480 is configured to project into a space between a first panel 50 and a second panel 50 of the system. Stem 480 provides structural support of the panel 50.
  • Component 440 comprises a unitary thermally insulating fiberglass reinforced polymer.
  • component 440 comprises pultruded fiberglass reinforced polymer.
  • the head 442 defines a head bore 450 configured to receive a fastener 39 inserted through the metal structure 426 and into the component 480.
  • stem 480 defines a stem bore 452 configured to receive a fastener 39.
  • the fastener 39 received in stem bore 452 may be of a different, or the same, variety as the fastener received at head bore 450.
  • Stem bore 452 in one aspect is oriented opposite head bore 450.
  • FIG. 84 Figure 1 2 is a section view of a further aspect of the invention.
  • Transom 426' is a steel transom having a steel first segment 430' and a metal second segment 432' which may also be made of steel. Segment 432' may slide into connected position and friction fit into secure placement.
  • Access port 434' is used to insert fastener 39 through segment 430' and into component 440.
  • Shoulder 448' is connected to outer side face 433.
  • An adhesive and heat and pressure techniques may be used to secure or bond shoulder 448' to outer side face 433'.
  • An adhesive layer may be inserted between shoulder 448' and face 433'.
  • Fastener 39 is inserted from within segment 430.
  • fasteners 39 may be inserted though segment 430 to secure component 440 along the longitudinal length of segment 430'. It may be appreciated that with the design of pocket 438' (which lacks ribs 446), head 442 of component 440 may be inserted by translating component 440 into the pocket 438' and without requiring a longitudinal sliding action.
  • FIG. 1 3 is a section view of a further aspect of the invention
  • Mullion 526 is an aluminum mullion having first segment 530 and a second segment 532 connected thereto.
  • Fastener 39 may be positioned at inside 535 of mullion 526 and driven through wall of segment 530 into component 540.
  • Component 540 includes a head which inserts into pocket 538.
  • Pocket ribs 546 may be used as interlock elements to assist in locking component 540 or aligning component 540 within pocket 538.
  • An additional component 541 may also be connected to segment 532 such that together component 540 and component 541 cover an entirety or substantially the entirety of outer side 533 of mullion.
  • Component 541 may be made of the same or similar material used to make component 540, and in one aspect is a fiberglass reinforced polymer and in further aspect is an insulating pultruded fiberglass reinforce polymer.
  • FIG. 4 is a section view of a further aspect of the invention.
  • Mullion 526' is a steel mullion having a first segment 530' and a second segment 532' connected thereto. Second segment 532' may also be made of steel.
  • Component 540' is secured to segment 530' with a fastener 39.
  • An optional washer may be placed between fastener 39 and the inner surface 536 of segment 530'.
  • An optional washer may also be used with the other aspects described herein.
  • a second component 541 ' may be connected to segment 532 '.
  • Component 541 ' may be bonded to segment 532'.
  • Second component 541 ' may also be connected to segment 532 ' with a fastener which runs from inside 535 ' of mullion 526 through a wall of transom segment, either 530 or 532 , and into component 541 .
  • FIG. 5 is a section view of a further aspect of the invention.
  • Mullion 626 includes a metal segment 630 and a second metal segment 632 which slide together for an adjustable connection. For instance, segments 630, 632 may slide relative to each other in the direction of arrow A to form a mullion 626.
  • a fastener 39 inserts from inside 635 of segment 630 through a wall of segment 630 and into component 640.
  • Component 640 may be made of a polymer material as noted herein.
  • Component 640 is connected to segment 630 by fastener 39.
  • Interlock rib 646 may be used to form an interlock to secure component 640 within a pocket 638.
  • Component 640 is slid longitudinally into pocket 638 to be secured to segment 630 and/or secured via fastener 39 and/or both.
  • An adhesive may also be used to secure
  • An adhesive bonding may be used together with a fastener and also together with an interlock as desired.
  • a rib or ribs and pocket similar to rib 646 and pocket 638 may also be provided by segment 632 to secure component 641 .
  • An interlock and/or fastener 39 and/or both and or adhesive and/or all of such connections may be used to connect component 641 to segment 632.
  • An adhesive may also be used, including an adhesive layer together with heat and pressure treatments used to bond or secure component 640, 641 to mullion 626.
  • Component 640, 641 includes stem 680 which extends between panels 50.
  • a leg 690 wraps laterally and over (and covers) a portion of panel 50 as shown.
  • a portion of panel 50 is also covered by shoulder 648.
  • Shoulder 648 and leg 690 each define a seal receiver 49.
  • Component 640 may be secured to segment 630 using several fasteners 39. Thereafter panel 50 may be secured using component 640 and with seal placed in seal receivers 49 and adhered to panel 50.
  • component 641 may be fastened to segment 632 with several fasteners 39 and then panel 50 connected to component 641 by use of seals and adhesive. Segment 630 and segment 632 may then be slid or adjustably connected together.
  • the segments 630, 632 may also be conveniently disconnected by relative sliding along direction of arrow A. When segments 630, 632 have been connected together, mullion 626 may be connected to the building structure. It may be appreciated that an entirety or substantially the entirety of outer side 633 of combined segment 630, 632 (or of individual segments 630, 632) is covered by components 640, 641 with portions of components 640, 641 contacting segments 630, 632. Further, it may be appreciated that no pressure plate or exterior fastener is required to secure panel 50 to segments 630, 632. In one aspect, components 640, 641 comprise pultruded fiberglass polymer and are configured to wrap about the edge of panel 50. Components 630, 632 define bore 450 to receive fasteners 39.
  • FIG. 6 is a section view of a further aspect of the invention.
  • Transom 726 includes metal segment 730 and metal segment 732 connected thereto.
  • a wing 727 projects from segment 730 to a gap between panels 50, 50.
  • Fastener 39 is secured through wing and into component 740.
  • Component 740 may include a bore to receive fastener 39.
  • wing 727 projects perpendicularly or generally perpendicularly from outer side face 733'.
  • fastener 39 is oriented perpendicular or generally perpendicular to wing 727.
  • Component 740 may be a polymer component as described herein.
  • a second component 741 is connected to segment 732.
  • Component 741 may be connected via adhesive or bonding.
  • a fastener may also be secured from and through inside of segment 732 and into component 741 .
  • component 741 may include a bore to receive a fastener.
  • Component 740 wraps around to both sides of panel 50 as shown. An entirety of outer side 733 of combined segment 730, 732 is covered by components 740, 741 , 742. Such components 740, 741 , 742 also contact outer side 733 of segments 730, 732.
  • Component 741 may include an interlock which inserts into a corresponding interlock of segment 732.
  • Component 741 may also include a seal receiver which receives a seal to abut against panel 50.
  • An additional component 742 may be used to cover wing 727 as shown and to provide further insulating protection of segments 730, 732.
  • Component 742 may be connected to wing 727 by adhesive and/or a fastener.
  • a further component 743 includes a seal receiver and receives a seal to abut against panel 50.
  • Component 743 may comprise a metal or in other aspects may also comprise a fiberglass
  • An end of component 743 opposite seal receiver includes a rib or ribs which insert into corresponding rib or ribs of component 740 for secure positioning of component 743.
  • an adhesive may be used to rigidly bond component 740 to outer side face 733'. Such bonding may be made by use of an adhesive and other forms of bonding may also be used.
  • a rib 746 may also be used to secure or assist in rigidly securing component 740 to face 733'.
  • a spacer may be inserted into cavity 792 of transom 726 so that panel 50 may rest against the spacer so that the weight of panel 50 may be supported by component 740.
  • Component 740 may also include a weep hole or weep holes to allow moisture to escape from cavity 792.
  • Transom 826 includes metal segment 830 which may be aluminum for instance. Segment 830 mates with segment 832 which may also be made of metal such as aluminum.
  • Component 840 is connected to outer side 833 of transom 826. In one aspect component 840 connects to wing 827 and is configured to cover the entire outer side of segment 830. Component 840 may include a bore configured to receive fastener 39 inserted through wing 827. An adhesive may also be used to secure component 40 to segment 830. A strip or sheet of double back adhesive may be used. Heating, pressure and additional bonding techniques may be used to connect a component to the metal herein. Various interlocks, ribs and grooves may also be used to secure component
  • Segment 830 may include a rib 846 or ribs which mate with component 840 for interlocking arrangement.
  • Component 840 may include leg 890 which extends to an outer side of panel 50 and transom 826 and may include a seal receiver to receive a seal to abut against panel 50.
  • Component 840 may also include a weep hole 891 or a series of weep holes to allow moisture to escape from cavity 892.
  • Component 840 includes a further seal receiver to receive a seal to abut panel 50 on an inner side of panel 50. It may be appreciated that component 840 wraps around to both sides of panel 50.
  • a spacer may also be positioned in cavity 892 so that panel 50 may rest upon the spacer which in turn rests upon component 840.
  • Component 840 supports the weight of panel 50.
  • a component 841 is connected to segment 832 at jaw 829. The entirety of the outer side of jaw 829 is covered by component 841 .
  • Component 841 wraps around a tip of jaw 829.
  • Component 841 includes a seal receiver for receiving a seal to abut against an inside of segment 830.
  • An optional air baffle 843 is placed within segment 839.
  • baffle 843 may be about 4 inches in length and is positioned where the vertical mullion terminates or at the top of the vertical mullion to prevent air leaks.
  • baffle 843 fits snugly into a channel defined in part by various walls of segment 830 as shown. A tip of jaw 829 inserts into the channel and the component 841 abuts baffle 843 which also seals outer face of segment 830 from exposure.
  • Segment 842 is also connected to segment 830 and covers wing 827 and isolates wing 827 and walls of segment 830 from the atmosphere or exposure. It may be appreciated that components 841 , 842 may be secured to segments 830, 832 by adhesive, including a double backed strip adhesive and under pressure and temperature for bonding. In alternative aspects components 841 , 842 may also be fastened with a fastener. Components 841 , 842 may also define respective bores for receiving fasteners. Components 840, 841 , 842 may be secured by use of adhesive and/or fasteners and/or interlock/friction fit or all of the same.
  • An end cap 893 connects securely to component 840 via friction fit or snap-n fingers and includes a seal receiver and seal to abut panel 50 which is held in place at panel 832.
  • An adhesive block or connector 895 is used to secure panel 50 to segment 832.
  • segment 830 and 832 come together to form transom 826 and the individual segments 830, 832 are connected to respective structure elements of the building to secure transom 826 and panels 50 into position. While the unitized design shown in Figure 1 7 depicts a transom made of metal such as aluminum, it may be appreciated that such transom structure may also be made with steel, of course with some structural modifications to accommodate for the bending of the steel segments comprising the transom.
  • Transom 426 is a metal structure and includes a metal first segment 430 and a metal second segment 432 connected thereto.
  • the transom 426 is similar to the transom 426 depicted in Figure 1 1 .
  • Transom 426 may be used in conjunction with the curtain wall systems referenced herein and/or with window well systems.
  • Segments 430, 432 may be made of extruded metal such as aluminum. In one aspect segment 432 snap-fits into connected position.
  • Transom 426 has an outer side 433 which is oriented toward or facing panels 50 or an outside of the building to which transom 426 is connected.
  • Segment 430 includes an access port 434 such that when segment 432 is not connected to segment 430, access is made available to inside 435 of transom 426.
  • fastener 39 is inserted into and through segment 430.
  • Fastener 39 is inserted such that a head 39a of fastener 39 abuts inner surface 436 of transom 426.
  • fastener 39 is inserted through segment 430 toward outer side 433 of transom 426, yet fastener 39 is not exposed to the atmosphere.
  • Transom 426 includes a component 440 connected to transom 426 at outer side 433.
  • Component 440 may be made of materials noted above regarding components 40, 1 40.
  • component 440 includes a head 442 which inserts into a pocket 438 of segment 430.
  • Head 442 includes ear or ears 444 which in one aspect insert into interlocking slots 445 defined at least in part by pocket rib 446.
  • Component 440 also includes shoulder 448 or opposing shoulders 448 which abut transom 426 at outer side 433.
  • shoulder 448 abuts and covers outer side face 433' of segment 430.
  • Outer side face 433' is an outward facing surface. It may be appreciated that component 440 abuts and covers the entirety or substantially the entirety of outer side 433 (or all of the outward facing surfaces) of segment 430.
  • Component 440 also defines a bore of slot such as head bore or slot 450 which is configured to receive fastener 39.
  • Head slot 450 opens toward head 442 such that fastener 39 penetrates through segment 430 and into slot 450.
  • Slot 450 is a closed slot in that slot 450 is closed opposite head 442 (i.e., the slot does not run through the component from inside to outside). Slot 450 does span the entirety or substantially the entirety of the length of component 440. Because slot 450 does not run through the component 440, component 440 is fastened to transom 426 without exposing any part of the transom or outer side 433 to the elements.
  • slot 450 also allows for efficient insertion or securing of fastener 39 to component 440.
  • a user may insert fastener 39 into slot 450 at various positions along the length of component 440.
  • slot 450 allows the fastener 39 to penetrate or connect to component 440 without undue trauma to component 440. The absence of slot 450 might otherwise cause component 440 to splinter or crack or otherwise become weak when fastener 39 is inserted.
  • fastener 39 includes self-threading threads which impart corresponding thread grooves in component 440 at slot 450.
  • Shoulder 448 includes a seal receiver 49 to receive a seal 60. Seal 60 abuts panel 50.
  • a spacer or setting block 37 is positioned on component 440 at stem 480. Upon block 37 rests panel 50. It may be appreciated that panel 50 will have a weight and the weight is supported by component 440.
  • Component 440 extends between or into a gap between panels 50, 50. In this manner component 440 is a structural support of panel 50. It may be appreciated that component 440 may extend the entire length or substantially the entire length of the face or outer side 433 of segment 430.
  • component 440 is positioned within pocket 438 of segment 430 by longitudinally inserting head 442 into pocket 438 and sliding component 440 longitudinally within pocket 438.
  • Component 440 and segment 430 may be placed end-to-end for sliding action.
  • a fastener 39 or series of fasteners may be secured to transom 426.
  • a fastener 39 is positioned to inside 435 and placed against inner surface 436.
  • a drill or screw driver is activated to drive fastener 39 through segment layer 430 and into bore 450 of head 442 of component 440.
  • a series of fasteners 39 may be inserted along the longitudinal aspect of component 440.
  • Fasteners 39 may be inserted via angled drill/drive devices. Fasteners 39 may be inserted robotically. After insertion of fasteners 39, second metal segment 432 is connected to first metal segment 430 to form transom structure 426. In a further aspect, component 440 may also be bonded to metal segment 430. In one instance shoulder 448 may be bonded to outer side face 433' with an adhesive. A heat treatment may also be applied to assist with the bonding. An adhesive layer and/or adhesive tape is inserted into or used to fasten shoulder 448 to segment 430 in one aspect. Adhesive may also be used to secure head 442 within pocket 438.
  • head 438 may be used.
  • Stem 480 extends outward between panels 50.
  • a riser 37 is positioned on stem 480 to support panel 50.
  • a weather seal 441 is applied to the gap at the exterior of the system.
  • a seal cord 443 or cords in one aspect are positioned in the gap and between stem 480 and panels 50, 50.
  • a structural silicone 447 is positioned between component 440 and panel 50.
  • a structural silicone 447 in one aspect is applied both above and below stem 480.
  • a seal 60 such as a silicone gasket with molded corners 60 is positioned between component 440 and panel 50 and further assists in holding the panel to the component while providing a seal or barrier. The structural silicone 447 assist in maintaining panels 50 in contact with component 440.
  • FIG. 9 shows a sill of a window wall which as depicted in Figure 20 is a corresponding header of a lower window wall system.
  • the same panel 50 may be secured in the structure 960 at a footer or sill area and within the structure 962 at a corresponding header of the panel 50.
  • structure 960 includes a frame 961 which receives or is received by anchor 950 which is fastened to the window sill (the sill operates as the header for the structure in Figure 20).
  • Frame 961 includes opposing hands 909 to receive anchor 950 and extends to a wing 902' which receives a fastener 39.
  • Fastener 39 inserts into component 970 which is made of the material as noted herein.
  • component 970 is a thermally insulating fiberglass reinforced polymer component.
  • Component 970 includes a generally vertical exterior portion 971 , a generally horizontal frame cover portion 972 and a generally vertical interior portion 973. Exterior portion 971 is configured to receive a bottom panel holder 974 which is connected to a top panel holder 975. Bottom holder 974 in one aspects abuts against a shelf defined by exterior portion 971 .
  • Bottom holder 974 in one aspect is connected to top holder 975 with a fastner, and together the comobined bottom panel 974 and top panel 975 span from the exterior portion 971 to the interior portion 973.
  • Top panel holder 975 in one aspect abuts against a shelf defined by interior portion 973.
  • Component 970 is a continuous fiberglass isolator and is installed in the shop.
  • additional component 980 is received in a pocket of top panel holder 975 and a gasket 51 6 and structural silicone 447 are positioned between component 980 and panel 50.
  • Component 980 is fastened with fastener 39 positoned thourgh top panel holder 975.
  • a riser 507 is placed atop bottom panel holder 974 to support panel 50 as shown.
  • Components 970, 980 operate to isolate frame 961 and other structures from the external environment. Structure 960 in one aspect is manufactured and assembled in the shop and then later applied to the window wall in the field.
  • Figure 20 depicts structure 962 as applied to a header of a window wall in accordance with the invention.
  • a frame 963 is configured to connect to anchor 950.
  • Component 990 covers frame 963 and extends to an exterior portion 991 and includes a cover portion 992.
  • a fastener is positioned through frame 962 and into component 990. Exterior portion 991 with gasket abuts panel 50 at an exterior surface of panel 50.
  • An additional component 990' and a further component 990" are provided as shown.
  • Component 990' secures to component 990 via fastener 39.
  • a connecting panel 965 spans from component 990' toward the exterior and receives component 990" in a cavity defied by panel 965.
  • Component 909" is secured by fastener 39.
  • a structural silicone 447 is applied between component 990" and panel 50 to securely hold panel 50 into positon.
  • Components 990, 990', 990" are made of the
  • Components 990 effectively isolate frame 963 and other structures to provide an enhanced solution.
  • Figure 21 is a section view of a vertical structure for use with structures 960 and 962.
  • Figure 21 shows a mullion 626" which is an
  • Mullion 626 may also be a unitized vertical structure and does not wrap around the panels as does mullion 626.
  • Mullion 626" includes components 640", 641 " covering outward facing surfaces of metal segments 630, 632.
  • Components 640", 641 " are made of materials like the other insulating components noted herein.
  • Various seals are positioned within or between components 640", 641 " and metal segments 630, 632 and each other.
  • Panels 50, 50 are secured to components 640", 641 " with layers of structural silicone 68, for instance.
  • Use of structural silicone 68 and/or glazing tape is sufficient to hold panels 50 without use of fasteners or wrap around structures.
  • Silicone gaskets with molded corners 51 6 are also used to affix panels 50 to components 640", 641 " and to achieve a desired seal.
  • a silicone weather seal gasket 61 9 is positioned within a gap defined by the panels 50, 50 and secures to one of the components. Gasket 61 9 in one aspect is installed in the shop.
  • one side of the system such as the segment 632 to which is connected the panel 50 and component 641 " (component 641 " fastened with an inside-out fastener 39), is mated with the other side of the system such as the segment 630 to which is connected the panel 50 and component 640". In this manner several segments having associated panels may be assembled into position by simple inserting
  • the invention includes a panel 50 connected to a first segment 630 on one side of the panel and to a second segment 632 on an opposite side of the panel. Such panel 50 with connected segments is then connected to an adjacent or adjacent panels 50 of like variety. Successive connecting of such panels allows for efficient assembly of the system.
  • Component 640", 641 " in one aspect are slanted to correspond with slanted inner walls 631 , 632.
  • the slanted inner wall 631 accommodate ease of insertion of fasteners 39 (i.e., the slant allows for a more convenient angle to approach the fasteners for tightening), among other benefits.
  • Preset slot are provided in components 640", 641 " to accommodate for desired insertion of fasteners 39.
  • Figure 22 and Figure 23 are section views showing further aspect of the present invention.
  • Figure 22 shows a structure 500 having a stem 501 .
  • Structure 500 is part of a horizontal or transom structure 51 1 for use in a system of the present invention and in one aspect as a retrofit solution of the present invention.
  • Structure 500 is typically made of aluminum and is commonly used in curtain wall or window wall systems.
  • a spacer is placed on stem 501 which in turn supports a panel 50.
  • a pressure plate is fastened by passing a fastener through the plate and into the stem 501 .
  • transom 51 1 includes the structure 500 retrofitted with a component 502 such as a thermally insulating polymer component as described herein.
  • component 502 is configured to cover, at least in part, at least one outward facing surface of structure 500.
  • component 502 covers the outer side 51 2 of frame 500 at an outward facing surface 51 3.
  • Component 502 also covers the outward facing surfaces of stem 501 , and the outward facing surfaces of seal receiver.
  • component 502 may also extend to cover additional outward facing surfaces of structure 500.
  • an additional component 503 is configured to cover, at least in part, at least another outward facing surface of structure 500. Together components 502, 503 cover or substantially cover the entirety of the outward facing surfaces of structure 500.
  • Component 503, for instance, covers the outer side 51 2 of frame 500 at outward facing surface 51 4 and at the outward facing surfaces of seal receiver.
  • component 502 includes a component stem 504 which projects from and over stem 501 .
  • Component 502 is bonded to structure 500.
  • component 502 is bonded to structure 500 by an adhesive. Other bonding mechanisms or techniques for bonding as described herein may be used.
  • the component 502 may be bonded to stem and structure 500 in the field. For instance, in a retrofit method, an existing frame 500 may receive a fiberglass component 502 by use of adhering component 502 in the field.
  • Component 503 may also be bonded to the frame or structure 500 in the field.
  • Component 502 includes a stem plug 505 which inserts into the stem opening of existing stem 501 .
  • a continuous seal 506 is applied to the space between component 502 and component 503. Having separate components 502, 503 accommodates ease of retrofit application and also provides flexibility to the combined components as needed due to contraction or expansion forces that may influence the structural positioning.
  • a riser 507 is applied between stem component 504 and panel 50 to assist in having component 504 and stem 501 bear the load of panel 50.
  • a pressure plate 508, which may be the preexisting pressure plate of the earlier framed structure, may be used by fastening with a fastener 509 through plate 508 and into a slot 51 0 defined by stem component 504. Slot 51 0 in one aspect runs the length of component 502.
  • a spacer gasket 51 5 is positioned between pressure plate 508 and stem component 504.
  • a gasket 51 6 is positioned between panel 50 and component 503.
  • Gasket 51 6 may be an EPDM rubber type (such as ethylene propylene diene monomer rubber, or other suitable gasket), and in one aspect has molded corners.
  • EPDM rubber type such as ethylene propylene diene monomer rubber, or other suitable gasket
  • the existing pressure plate, seals and panels are removed from an existing frame 500.
  • the components 502, 503 are bonded to the outward facing surfaces of frame 500.
  • a riser 507 is provided which allows panel 50 to rest upon riser 507 and to allow stem component 504 to bear the load of panel 50.
  • a gasket spacer 51 5 is positioned between a new or the prior pressure plate 508 which is secured by fastener 509 being inserted into slot 51 0 of component 502.
  • Pressure plate 508 may include a weep hole to allow for vapor or fluid to escape from the gap or spaces between panels 50.
  • An existing glass panel such as a 1 inch overall width panel having a 1 ⁇ 4 inch clear exterior, a 1 ⁇ 2 inch air space with an aluminum spacer and a 1 ⁇ 4 inch clear interior lite/pane is removed and replaced in the retrofit system and transom 51 1 with a new glass having a 1 ⁇ 4 inch clear exterior with low-E coating (i.e., low emittance) on the inner surface (#2) with 3 ⁇ 4 inch argon interior space with a stainless steel spacer and a 1 ⁇ 4 inch clear interior pane, having an overall width of 1 1 ⁇ 4 inches, which provides a higher
  • component 502, 503 insulates the frame structure 500 from the exterior environment to provide enhanced insulation and improved performance.
  • a component 502 having a stem component 504 which extends the reach of the previous stem 501 allows for use of a wider and more efficient panels 50.
  • Use of the insulating components 502, 503 has substantial performance benefits in preventing exterior elements from reaching or penetrating to the frame 500 which would otherwise transfer heat/cold to the interior of the building. The combination of using the improved glass panel with the components covering or insulating the outward facing surfaces provides even further benefits over prior systems.
  • FIG. 23 is a cross section view of a mullion 51 7 in accordance with the present invention.
  • Mullion 51 7 is similar to transom 51 1 .
  • Mullion 51 7 includes structure components 500a, 500b connected together.
  • a stem 501 extends between panels 50, 50.
  • component 502 is bonded to structure 500a in the field with an adhesive such as with an adhesive tape and/or with other bonding products or techniques as described herein.
  • Component 503 is bonded in the field to structure 500b in similar manner.
  • the remaining aspects of mullion 51 7 are similar or identical to those of transom 51 1 .
  • a cover plate 51 8 is connected as desired.
  • the mullion 51 7 is a vertical oriented structure.
  • the transom 51 1 in other aspects is positioned adjacent an existing head or an existing sill of a window wall system (with the absence of one of the panels 50 to accommodate positioning adjacent the head or sill, respectively) and placing the frame 500 and a riser (in the case of a sill configuration) with a seal and a primary seal against the sill.
  • the existing primary seal and interior framing remain while the components 502 , 503 and new perimeter spacer (in place of panel), new panel 50, new gasket 51 6, new gasket spacer 51 5 and exterior seals are used.
  • FIGS 24-26 are section views depicting further aspects of the present invention.
  • Figure 24 depicts a unitized vertical structure 626 and is identical or nearly identical to the structure 626 shown in Figure 1 5.
  • the portions of the components 640, 641 which are positioned in the head portions 638 are slightly different in the mullion of Figure 24 as compared to the mullion of Figure 1 5.
  • Figure 25 shows mullion 626' which is an alternative aspect of the mullion 626.
  • Mullion 626' is also a unitized vertical structure and does not wrap around the panels as does mullion 626.
  • Mullion 626' includes components 640', 641 ' covering outward facing surfaces of metal segments 630, 632.
  • Components 640', 641 ' are made of materials like the other insulating components noted herein.
  • Various seals are positioned within or between components 640', 641 ' and metal segments 630, 632 and each other.
  • Panels 50, 50 are secured to components 640', 641 ' with layers of structural silicone 68, for instance.
  • Use of structural silicone 68 and/or glazing tape is sufficient to hold panels 50 without use of fasteners or wrap around structures.
  • Silicone gaskets with molded corners 51 6 are also used to affix panels 50 to components 640', 641 ' and to achieve a desired seal.
  • a silicone weather seal gasket 61 9 is positioned within a gap defined by the panels 50, 50 and secures to one of the components. Gasket 61 9 in one aspect is installed in the shop.
  • one side of the system such as the segment 632 to which is connected the panel 50 and component 641 ' (component 641 ' fastened with an inside-out fastener 39), is mated with the other side of the system such as the segment 630 to which is connected the panel 50 and component 640'. In this manner several segments having associated panels may be assembled into position by simple inserting connections.
  • the invention in a further aspect includes a panel 50 connected to a first segment 630 on one side of the panel and to a second segment 632 on an opposite side of the panel.
  • Such panel 50 with connected segments is then connected to an adjacent or adjacent panels 50 of like variety. Successive connecting of such panels allows for efficient assembly of the system.
  • FIG. 26 is a cross section view of a unitized horizontal transom structure 826'.
  • Transom 826' is similar in configuration with the transom 826 of Figure 1 7.
  • Transom 826' does not include the wrap around component 840.
  • Transom 826' includes component 840' which is fastened to first metal segment 830 at wing 827.
  • Component 840' covers the outward facing surface of segment 830.
  • a component 842 is bonded (for instance by adhesive or other manner) to wing 827.
  • Component 841 is hooked on and bonded to jaw 829. The outward facing surface of jaw 829 is covered by component 841 .
  • a block connector 895 or structural silicon is used to connect panel 50 to segment 832 at an outward facing surface.
  • a continuous silicone weather seal gasket 61 9 is connected to panel 50 and segment 840'. Structural silicone is also used, in conjunction with a gasket to secure the upper panel 50 to component 840'.
  • a spacer or riser is positioned between component 840' and panel 50, and a silicone weather seal, for instance, is used to seal the space between component 840' and panel 50 at the gap between panels 50, 50.
  • Wing 827 is configured to support the weight of panel 50.
  • a PVC splice pin is positioned in component 841 and abuts an inner wall portion of segment 830. Use of transom 826' allows for a unitized transom without having to present a wrap-around holding feature upon the panels 50.
  • Figure 27 is a cross section view of a vertical mullion and/or horizontal transom structure for use on a window wall system in accordance with a further aspect of the invention.
  • Figure 27 shown a structure 900 which may be used in conjunction with an anchor affixed to a sill of a window (as in Figure 29) or, in a flipped orientation, in conjunction with an anchor affixed to a header of a window (as in Figure 28).
  • structure 900 may be characterized as both a mullion structure and/or a transom structure.
  • Mullion or transom structure 900 has a component 940 connected to a frame 901 of structure 900 at an outer side 433 of the structure 900.
  • the metal frame 901 of structure 900 includes an outward extending wing 902 and receives a first fastener 39 passing through the wing 902 and into component 940.
  • Component 940 covers an entirety or substantially an entirety of the outer side 433 of frame 901 .
  • Fastener 39 is oriented generally parallel to the outer side of frame 901 .
  • fastener 39 has an elongated shank, the shank oriented generally parallel to at least one outward facing surface 91 3 of the frame 901 .
  • component 940 covers all of the outward facing surfaces of frame 901 , including outward facing surfaces 91 4, 91 4' and 91 3'.
  • Component 940 is configured to cover all or other outward facing surfaces to provide a desired insulating function.
  • Component 940 comprises material as described of other components herein, and in one aspect includes a thermally insulating fiberglass reinforced polymer.
  • Component 940 in one aspect is a structural support of panel 50.
  • Component 940 includes a stem 903 which projects outward from the outer side of frame 901 to a position to support panel 50.
  • component 940 defines a first slot 91 0 which receives the fastener 39.
  • Slot 91 0 extends the length or nearly an entirety of the length of component 940.
  • Slot 91 0 has parallel wall to securely receive fastener 39.
  • Component 940 includes a second slot 91 1 configured to receive a second fastener 39.
  • the second slot 91 1 is oriented perpendicular or generally perpendicular to first slot 91 0.
  • Fastener 39 passes through a pressure plate 908 and into slot 91 1 .
  • Pressure plate 908 is configured to secure a panel 50 to structure 900 and the system.
  • Stem 903 of component 940 is configured to hold a riser 907 which in turn receives and supports panel 50.
  • component 940 includes a finger 904 positioned in a locking portion 905 of a pocket 906 defined in the frame 901 .
  • Component 940 is slid into position by allowing finger 904 to enter pocket 906 and sliding component 940 along the length of frame 901 .
  • a further finger 904 and pocket 906 and locking portion 905 is configured adjacent wing 902.
  • Fastener 39 which is positioned through wing 902 is oriented in a spaced relationship from the outwardly facing surface 1 4, for instance.
  • frame 901 includes a pair of opposed hands 909, 909 defining a channel configured to receive an anchor connected to a wall to which the system may be connected (See Figure 29, 28).
  • slots 91 0 and 91 1 are pre-set slots so as to minimize or avoid cracking or splitting of component 940 when a fastener 39 is inserted into the slot.
  • a sacer gasket 91 5 is positioned between pressure plate 908 and stem 903.
  • Component 940 in one aspect defines a void 91 2 which is in part defined by component wall 941 , 942, Component wall 942 provides further structure and together with wall 941 cover outward facing surface 91 4'.
  • Component 940 is devoid of penetrations passing through component 940 to frame 901 , and effectively insulates frame 901 from the exterior environment.
  • Figure 29 shows use of a variation of structure 900 in a window wall application where structure 900 is oriented adjacent a sill.
  • An anchor 950 is fastened to the sill or concrete wall via a bolt or other fastener embedded into the concrete.
  • Anchor 950 inserts into the channel formed by opposing hands 909.
  • a seal or seals are positioned between component 940 and the concrete sill and together with component 940 effectively insulates frame 901 from the external environment.
  • Figure 28 shows a cross section of a
  • a horizontal structure such as that shown in Figure 1 1 , is used in conjunction with the header and sill structures (i.e. as a horizontal in a non-sill or non-header position), especially in a situation of a fixed punched window configuration.
  • Figure 30 is a cross section view showing a variation of structure 900 used in a vertical orientation.
  • the structure 900 of Figure 30 is used in conjunction with the horizontal structures of Figures 28, 29.
  • the height and thicknesses of structure 900 may be varied as desired to accommodate different window sizes and structural requirement.
  • FIG. 108 Further aspects of the invention include a method of installing the systems as presented herein which include the step of preparing the frames with the components and panels as presented and then having the panels received at a job location for installation with a step including securing the panels to a window or curtain wall system.
  • a further method aspect includes retrofitting a prior system with the systems described herein.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Load-Bearing And Curtain Walls (AREA)

Abstract

La présente invention concerne des structures de paroi de fenêtre et de meneau de mur-rideau ou de traverse comprenant un composant constitué d'un matériau thermiquement isolant recouvrant sensiblement une totalité d'un côté extérieur d'un segment structurel métallique où un premier élément de fixation traversant la structure métallique et dans le composant est orienté généralement parallèlement au côté extérieur ou parallèlement à au moins une surface tournée vers l'extérieur du segment métallique. Le composant isolant comprend une première fente et une seconde fente conçues pour recevoir des éléments de fixation où les fentes sont orientées généralement perpendiculairement. Le composant est dépourvu de pénétrations traversant le composant jusqu'à la structure.
PCT/US2018/027139 2017-04-14 2018-04-11 Meneaux de fenêtre et mur-rideau, traverses et systèmes Ceased WO2018191397A1 (fr)

Priority Applications (3)

Application Number Priority Date Filing Date Title
EP18783885.9A EP3610089B1 (fr) 2017-04-14 2018-04-11 Meneaux de fenêtre et mur-rideau, traverses et systèmes
CA3059629A CA3059629C (fr) 2017-04-14 2018-04-11 Meneaux, impostes et systèmes pour fenêtres et murs-rideaux
ES18783885T ES2963337T3 (es) 2017-04-14 2018-04-11 Montantes, travesaños y sistemas de ventanas y muros cortina

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
US15/487,624 US10450743B2 (en) 2014-02-24 2017-04-14 Window and curtain wall mullions, transoms and systems
US15/487,624 2017-04-14

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WO2018191397A1 true WO2018191397A1 (fr) 2018-10-18

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CA (1) CA3059629C (fr)
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WO2020188431A1 (fr) * 2019-03-15 2020-09-24 CLAEYS, Stephanie Catharina R. Mur-rideau
CN113574233A (zh) * 2019-03-15 2021-10-29 斯蒂芬妮·凯瑟琳娜·R·克拉埃斯 幕墙
WO2024057158A1 (fr) * 2022-09-12 2024-03-21 Reynaers Aluminium Nv Système de mur-rideau et procédé correspondant

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CN110258877B (zh) * 2019-07-14 2025-08-22 深圳市科源建设集团股份有限公司 双压块构件式幕墙的阴角转角结构

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WO2020188431A1 (fr) * 2019-03-15 2020-09-24 CLAEYS, Stephanie Catharina R. Mur-rideau
CN113574233A (zh) * 2019-03-15 2021-10-29 斯蒂芬妮·凯瑟琳娜·R·克拉埃斯 幕墙
CN113574233B (zh) * 2019-03-15 2023-09-08 斯蒂芬妮·凯瑟琳娜·R·克拉埃斯 幕墙
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WO2024057158A1 (fr) * 2022-09-12 2024-03-21 Reynaers Aluminium Nv Système de mur-rideau et procédé correspondant
BE1030870B1 (nl) * 2022-09-12 2024-04-08 Reynaers Aluminium Vliesgevelsysteem en een werkwijze daarbij toegepast

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EP3610089A1 (fr) 2020-02-19
ES2963337T3 (es) 2024-03-26
EP3610089C0 (fr) 2023-11-08
CA3059629A1 (fr) 2018-10-18
EP3610089A4 (fr) 2020-12-23
CA3059629C (fr) 2025-06-17
EP3610089B1 (fr) 2023-11-08

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