An astragal for a fenestration system includes at least first and second slots running along opposite sides of the astragal, each slot is configured to receive a stile of a panel of the fenestration system. The slots may be in different planes or in a common plane, and may be different depths or the same depth. In some embodiments, additional slots are provided in the astragal, on one or both sides of the astragal, and the astragal may be used in various placements and configurations within multi-panel door or window systems. A snap clip may be included within one or more of the slots to engage a stile when received in the slot and secure the panel to the astragal. Covers may fill slots that are not utilized in a particular panel configuration.
E06B 3/36 - Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement with a single vertical axis of rotation at one side of the opening, or swinging through the opening
E05C 7/04 - Fastening devices specially adapted for two wings for wings which abut when closed
Insulated glazing units for fenestration units and methods of producing the same are disclosed. The insulated glazing unit includes a first pane, a second pane, and solid spacers joining the first pane to the second pane along perimeters thereof. An intermediate space is defined between the first pane, the second pane, and the solid spacers. A first of the solid spacers includes a gas port with a first opening within the intermediate space, a second opening external to the intermediate space, and a passage therebetween, wherein the passage is sealed. The intermediate space is hermetically sealed by the first pane, the second pane, the solid spacers, and the gas port to maintain a gaseous insulative environment therein comprising a fill gas having a lower thermal conductivity than air.
A fixed sash retainer system for a fenestration unit is disclosed. The retainer system includes a first and a second coupling member. The second coupling member is resiliently flexible between a first position and a second position. The second coupling member is configured to engage the first coupling member when in the first position and to disengage when in the second position. The second coupling member has a key feature configured to cooperate with the one of the sash and the frame to define a key slot. The key slot is configured to receive and engage a key that selectively retains the second coupling member in the second position.
E05C 3/16 - Fastening devices with bolts moving pivotally or rotatively with latching action with operating handle or equivalent member moving otherwise than rigidly with the latch
E05C 3/00 - Fastening devices with bolts moving pivotally or rotatively
A fixed sash retainer system for a fenestration unit is disclosed. The retainer system includes a first and a second coupling member. The second coupling member is resiliently flexible between a first position and a second position. The second coupling member is configured to engage the first coupling member when in the first position and to disengage when in the second position. The second coupling member has a key feature configured to cooperate with the one of the sash and the frame to define a key slot. The key slot is configured to receive and engage a key that selectively retains the second coupling member in the second position.
A multiple pane insulated glazing unit for a fenestration unit includes a first outer pane including a first thickness defined between a first outer surface and a first inner surface. A first spacer is coupled to the first inner surface. A second outer pane has a second thickness defined between a second outer surface and a second inner surface. A spacer is coupled to the second inner surface, and an intermediate pane is coupled to at least one of the first spacer and the spacer. The intermediate pane has a third thickness defined between a third inner surface and a fourth inner surface that is less than the first thickness and the second thickness. The third thickness is between about 0.2 millimeters (mm) to about 1.2 millimeters (mm), and the first outer pane, the second outer pane and the intermediate pane are composed of boron-free soda lime silicate glass.
E06B 3/66 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges
A multiple pane insulated glazing unit for a fenestration unit includes a first outer pane including a first thickness defined between a first outer surface and a first inner surface. A first spacer is coupled to the first inner surface. A second outer pane has a second thickness defined between a second outer surface and a second inner surface. A spacer is coupled to the second inner surface, and an intermediate pane is coupled to at least one of the first spacer and the spacer. The intermediate pane has a third thickness defined between a third inner surface and a fourth inner surface that is less than the first thickness and the second thickness. The third thickness is between about 0.2 millimeters (mm) to about 1.2 millimeters (mm), and the first outer pane, the second outer pane and the intermediate pane are composed of boron-free soda lime silicate glass.
E06B 3/67 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges characterised by additional arrangements or devices for heat or sound insulation
Construction material in the nature of non-metal composite trim boards; non-metal building products, namely, primed exterior finish trim and primed wood composite finish trim; non-metal building products, namely, wood composite finish trim
A configurable door system includes a first and second door panel, an astragal, and a frame. The frame defines a first axis and is configured to pivotally support the door panels in a first configuration of the door system and in a second configuration of the door system. The first door panel is disposed to one side of the second door panel along the first axis within the frame in both the first and second configurations. The door system, in the first configuration, includes the astragal fixed to the first door panel and releasably attaches the first door panel to the frame, and the second door panel is releasably secured to the astragal. The door system, in the second configuration, includes the astragal fixed to the second door panel and releasably attaches the second door panel to the frame, and the first door panel is releasably secured to the astragal.
E06B 3/36 - Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement with a single vertical axis of rotation at one side of the opening, or swinging through the opening
E06B 3/72 - Door leaves consisting of frame and panels
21.
FENESTRATION UNIT HAVING INTEGRATED POWER INTERFACE FOR PERIPHERAL DEVICES
A fenestration unit for a dwelling is disclosed. The fenestration unit, in the form of a window unit or a door unit includes a frame supporting a movable panel. A power supply module includes a battery pack disposed in one of the frame and the moveable panel. A power outlet module is also mounted in one of the frame and the movable panel. The power outlet module has a power outlet connector electrically coupled to the battery pack and is configured to resist water penetration therein. A homeowner device may be electrically coupled to the power outlet connector such that the power supply module powers the homeowner device.
The invention relates to a door assembly (1) comprising a door frame (4), a door leaf (6), and a locking system (21) having a door lock (22) and having a drive assembly (25) with an electrically driven drive unit (26) and with an electrical energy source (27). The door lock (22) has a lock case (23) and a locking and/or blocking mechanism (24). The electrically driven drive unit (26), as viewed in the direction of the door leaf thickness (16), is arranged laterally next to and either directly adjacent to the lock case (23) or in the region of a door leaf surface (14, 15) on the door leaf (6), and has a mechanical drive connection with the locking and/or blocking mechanism (24) of the door lock (22).
Fenestration units and method of operation thereof are provided that allow for use of the fenestration units as nodes of a distributed ledger network. The fenestration units include a communication device configured for communication with at least one remote electronic device, a non-transitory, non-volatile memory configured to store computer readable instructions, and a processor in operable communication with the communication device and the memory. The processor is configured to execute the computer readable instructions to function, through the communication device, as a node in a distributed ledger network by storing a local copy of a distributed ledger on the memory, updating the local copy of the distributed ledger, and distributing the local copy to the at least one remote electronic device in response to updating the local copy of the distributed ledger.
G06F 16/27 - Replication, distribution or synchronisation of data between databases or within a distributed database system; Distributed database system architectures therefor
Methods are provided for producing insulated glazing units. The insulated glazing unit includes a first pane including a first outer edge, a second pane that overlaps the first pane and that includes a second outer edge, an outer edge sealing spacer arrangement that seals and maintains an inter-pane space between the first pane and the second pane, the outer edge sealing spacer arrangement including: a seat that receives the first outer edge and the second outer edge and that extends along the first outer edge and the second outer edge, a shoe that receives the seat, and a coupling between the seat and the shoe configured to maintain the seat within the shoe.
E06B 3/66 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges
E06B 3/677 - Evacuating or filling the gap between the panes; Preventing condensation in the gap between the panes; Cleaning the gap between the panes
26.
MULLING SYSTEM FOR PLURAL FENESTRATION ASSEMBLIES WITH JOINING PLATES AND DEFLECTABLE SEAL MEMBER THEREBETWEEN
A mulling system for a plurality of fenestration units includes a first joining plate configured to attach to a first outer edge of a first fenestration unit. The first joining plate includes a first outer face. The mulling system also includes a second joining plate configured to attach to a second outer edge of a second fenestration unit. The second joining plate includes a second outer face. The second joining plate is configured to engage the first joining plate to join together the first fenestration unit and the second fenestration unit with the first outer face facing the second outer face. The mulling system additionally includes a deflectable seal member attached to the first joining plate and having a sealing surface that faces away from the first outer face. The sealing surface is configured to deflect and seal against the second outer face of the second joining plate.
E06B 1/60 - Fastening frames to the border of openings by mechanical means, e.g. anchoring means
27.
Mulling system for plural fenestration assemblies with matching thermally broken joining plates that have rotated and engaged arrangement across mulling axis
A mulling system includes a first joining plate with a first plate member, a second plate member, and a first thermal breaker that extend longitudinally along a mulling axis with the first thermal breaker attaching the first and second plate members. The mulling system includes a second joining plate that includes a third plate member, a fourth plate member, and a second thermal breaker that extend longitudinally along the mulling axis with the second thermal breaker attaching the third and fourth plate members. The second joining plate attaches to the first joining plate to join together first and second fenestration units with the mulling axis extending between the first and second joining plates. The first joining plate matches the second joining plate to define a corresponding rotated and engaged arrangement of the first joining plate and the second joining plate across the mulling axis.
Methods and vacuum pump heads are provided. The vacuum pump head includes a body having sidewalls and a rear wall, wherein interior surfaces of the sidewalls and the rear wall define a chamber therebetween and distal ends of the sidewalls define an opening to the chamber, a sealing member located at the distal ends of the sidewalls and surrounding the opening defined thereby, the sealing member configured to contact and form a vacuum-tight seal against a surface upon generation of a low-pressure environment within the chamber, a vacuum hose port configured to couple to a vacuum hose of a vacuum pump and to provide a fluidic outlet from the chamber to remove gas from the chamber and thereby generate the low-pressure environment, and an aperture in the body configured to allow a laser beam to be directed therethrough toward the surface while the low-pressure environment is maintained.
Methods and vacuum insulated glazing units are provided. The methods include providing a first pane, applying a primary sealant to the first pane adjacent to and along a perimeter of the first pane, positioning support pillars on the first pane, positioning an evacuation tube on the first pane, positioning a second pane on the support pillars, heating the primary sealant with a laser beam sufficient to sinter the primary sealant to form a primary seal joining the first and second pane, evacuating an intermediate space defined between the first and second pane, and the primary seal to produce a low-pressure environment in the intermediate space by drawing gas from the intermediate space through the evacuation tube, and sealing the evacuation tube and thereby hermetically sealing the intermediate space within the first and second pane, the primary seal, and the evacuation tube to maintain the low-pressure environment therein.
E06B 3/66 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges
Sealants, vacuum insulated glazing (VIG) units having seals formed from the sealants, and methods for producing the VIG units using the sealants are provided. The sealants include a mixture of glass materials in powder form, a foaming agent in powder form, and a carrier medium. The foaming agent includes carbon black, carbide(s), or a combination thereof. The glass materials have compositions including: 50 to 70 wt. % SiO2; 1 to 7 wt. % CaO; 0 to 7 wt. % MgO; 0 to 6 wt. % Al2O3; 1 to 6 wt. % Fe2O3 or FeO; 0 to 7 wt. % TiO2; 0 to 16 wt. % R2O, wherein R is chosen from the group consisting of Li, Na, K, or a combination thereof; 0 to 1 wt. % SO3; 0 to 2 wt. % MnO; and 0 to 6 wt. % SrO+BaO.
C03C 8/24 - Fusion seal compositions being frit compositions having non-frit additions, i.e. for use as seals between dissimilar materials, e.g. glass and metal; Glass solders
C03C 27/06 - Joining glass to glass by processes other than fusing
37.
SEALANTS, VACUUM INSULATED GLAZING UNITS, AND METHODS FOR PRODUCING THE SAME
Sealants, vacuum insulated glazing (VIG) units having seals formed from the sealants, and methods for producing the VIG units using the sealants are provided. The sealants include a mixture of glass materials in powder form and a carrier medium. The glass materials have compositions including: 0 to 55 wt. % Bi2O3; 10 to 65 wt. % SiO2; 1 to 10 wt. % Al2O3; 10 to 30 wt. % R2O, wherein R is chosen from the group consisting of Li, Na, K, or a combination thereof; 0.01 to 20 wt. % of RO, wherein R is chosen from the group consisting of Ca, Mg, or a combination thereof; 2 to 15 wt. % of BaO; 0 to 5 wt. % TeO2; 0.01 to 20 wt. % of Fe2O3 or FeO; 2 to 30 wt. % of B2O3; 0.1 to 2 wt. % of P2O5; 0.1 to 2 wt. % of ZnO; and 0.1 to 2 wt. % of CuO or Cu2O.
E06B 3/66 - Units comprising two or more parallel glass or like panes in spaced relationship, the panes being permanently secured together, e.g. along the edges
A fenestration unit includes a fenestration frame with a first frame member, and a sash including a sash frame to support a glazing unit. The fenestration unit includes a channel defined in one of the first frame member and the sash frame that extends along a first axis. The fenestration unit includes a retainer base associated with the other of the first frame member and the sash frame that extends along the first axis. The fenestration unit includes a retainer removably coupled to the first frame member and the sash frame to removably retain the sash frame on the fenestration frame. The retainer has a first retainer arm, a second retainer arm and a third retainer arm. The third retainer arm is movably coupled to the channel and the first retainer arm is movably coupled to the retainer base.
A fenestration unit includes a sash configured to receive a glazing unit, and a frame. The frame includes a plurality of walls configured to support the sash. A first wall of the plurality of walls includes a cover coupling portion having a first cantilevered coupling wall spaced apart from a second cantilevered coupling wall. The frame includes an access cover defining at least one tab configured to releasably engage with at least one of the first cantilevered coupling wall and the second cantilevered coupling wall.
E06B 3/36 - Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement with a single vertical axis of rotation at one side of the opening, or swinging through the opening
A door includes a first skin, a second skin, and a core. The core is disposed between the first skin and the second skin in a thickness direction of the door and spans between the first and second skins. The core includes a corrugated medium that is fluted with fluting running back and forth in the thickness direction between the first skin and the second skin as the corrugated medium spans between the first and second skins. The door also includes a compressed section where at least one of the first skin and the second skin is compressed into the core toward the other of the first skin and the second skin in the thickness direction.
A frame for a fenestration unit includes a corner member at a corner joint of first and second elongate frame members. The second elongate frame member includes a profile member and an elongate reinforcement beam disposed therein. The elongate reinforcement beam has a terminal end. The second elongate frame member further includes a corner reinforcement plug with an insert end that is received in the terminal end of the elongate reinforcement beam. The corner reinforcement plug also includes a corner end that is engaged with the corner member and an intermediate portion that is disposed between the insert end and the corner end. The corner reinforcement plug has a shoulder at a transition between the intermediate portion and the insert end, and the shoulder abuts against the terminal end. The intermediate portion is disposed within the interior of the profile member.
E06B 3/96 - Corner joints or edge joints for windows, doors, or the like frames or wings
E06B 3/968 - Corner joints or edge joints for windows, doors, or the like frames or wings using separate connecting pieces, e.g. T-connecting pieces characterised by the way the connecting pieces are fixed in or on the frame members
A wet glazing shield gasket includes a support portion and a sweep that extends from the support portion and that terminates at a barrier lip. The sweep is supported for resilient flexure between a neutral position and a flexed position relative to the support portion. Furthermore, the barrier lip is configured to engage a glazing unit for collapsing the sweep onto the support portion as the sweep flexes away from the neutral position and toward the flexed position. The sweep is configured to extend between the frame and the glazing unit and to be a barrier for the seal member as the sweep flexes away from the neutral position and toward the flexed position. The sweep and the support portion are configured to layer over each other and cooperatively occupy a gap between the glazing unit and the frame when in the flexed position.
A wet glazing shield gasket includes a support portion and a sweep that extends from the support portion and that terminates at a barrier lip. The sweep is supported for resilient flexure between a neutral position and a flexed position relative to the support portion. Furthermore, the barrier lip is configured to engage a glazing unit for collapsing the sweep onto the support portion as the sweep flexes away from the neutral position and toward the flexed position. The sweep is configured to extend between the frame and the glazing unit and to be a barrier for the seal member as the sweep flexes away from the neutral position and toward the flexed position. The sweep and the support portion are configured to layer over each other and cooperatively occupy a gap between the glazing unit and the frame when in the flexed position.
A crank handle assembly for actuating a panel of a fenestration unit relative to a frame includes an arm. The arm is elongate and is configured to be supported at one end by the frame for rotation to actuate the moveable panel relative to the frame. The crank handle assembly also includes a knob that is moveably attached to an opposite end of the arm and that extends therefrom. The knob is supported for movement between an aligned position and a misaligned position relative to the arm. The arm and the knob cooperatively define a crank handle longitudinal axis. The knob, in the aligned position, is aligned with the arm and the crank handle longitudinal axis is straight. The knob, in the misaligned position, is misaligned with the arm, and the crank handle longitudinal axis is nonlinear.
A crank handle assembly for actuating a panel of a fenestration unit relative to a frame includes an arm. The arm is elongate and is configured to be supported at one end by the frame for rotation to actuate the moveable panel relative to the frame. The crank handle assembly also includes a knob that is moveably attached to an opposite end of the arm and that extends therefrom. The knob is supported for movement between an aligned position and a misaligned position relative to the arm. The arm and the knob cooperatively define a crank handle longitudinal axis. The knob, in the aligned position, is aligned with the arm and the crank handle longitudinal axis is straight. The knob, in the misaligned position, is misaligned with the arm, and the crank handle longitudinal axis is nonlinear.
A fenestration unit includes a frame corner key that includes a corner key fluid outlet and a cladding having an aperture for the corner key fluid outlet. The fenestration unit also includes a weep drainage system with a fluid path defined from the frame corner key, through the corner key fluid outlet, and through the aperture to drain from the fenestration unit.
E06B 7/14 - Measures for draining-off condensed water or water leaking-in
E06B 3/968 - Corner joints or edge joints for windows, doors, or the like frames or wings using separate connecting pieces, e.g. T-connecting pieces characterised by the way the connecting pieces are fixed in or on the frame members
E06B 3/964 - Corner joints or edge joints for windows, doors, or the like frames or wings using separate connecting pieces, e.g. T-connecting pieces
E06B 3/96 - Corner joints or edge joints for windows, doors, or the like frames or wings
Window glass as an integral component of non-metal windows, non-metal doors, and non-metal patio doors; non-metal windows; non-metal doors; non-metal patio doors
(1) Kits sold to end-customers comprising doors made of wood or medium density fiber (MDF) engineered wood, door handles, and other hardware for the doors, namely, door hinges, door brackets, and screws
63.
WEATHERSTRIP CARRIER THAT REMOVABLY ATTACHES TO FENESTRATION UNIT
A weatherstrip carrier of a replaceable weatherstrip system for a fenestration unit includes a weatherstrip support configured to hold a weatherstrip. The weatherstrip carrier also includes a coupling member that is attached to the weatherstrip support. The coupling member is configured to removably attach to the fenestration unit. The coupling member includes a spine, a first projection, and a second projection. The first and second projections project from the spine in a common direction. The coupling member is resiliently flexible for movement between a neutral position and a flexed position. The first and second projections are biased toward each other when the weatherstrip carrier is in the flexed position. The second projection is configured to be removably received within the fenestration unit, with the weatherstrip carrier in the flexed position, and with the first and second projections cooperatively compressing against the fenestration unit to retain the weatherstrip carrier thereon.
E06B 7/23 - Plastic, sponge rubber, or like strips or tubes
B29C 48/20 - Articles comprising two or more components, e.g. co-extruded layers the components being layers one of the layers being a strip, e.g. a partially embedded strip
B29C 48/12 - Articles with an irregular circumference when viewed in cross-section, e.g. window profiles
Kits sold to end-customers comprised primarily of doors made of wood, door handles, and other hardware for the doors, namely, door hinges, door brackets, and screws; Kits sold to end-customers comprised primarily of doors made of medium density fiber (MDF) engineered wood, door handles, and other hardware for the doors, namely, door hinges, door brackets, and screws
A breakaway sash lug assembly for a hung window includes a sash mount seat attachable to a window sash and a lug body rigidly attached to the sash mount seat via a releasable coupling that is configured to release at least one side of the lug body from the sash mount seat upon application a relatively small external force on the lug body. The releasable coupling may inhibit damage from inadvertent contact between the lug body and other portions of the hung window, for example during tilting of the sash for cleaning. The releasable coupling may include a hinge and a latch and/or a snap attachment.
E06B 3/00 - Window sashes, door leaves, or like elements for closing openings; Layout of fixed or moving closures, e.g. windows; Features of rigidly-mounted outer frames relating to the mounting of wing frames
(1) Door and window components, parts, and accessories made from scrap wood, wood waste, and wood dust, namely, interior and exterior stiles and rails, jambs, lock blocks, frames, sills, and lineals; fully extruded doors made from scrap wood, wood waste, and wood dust
An assembly for a door or window frame including an elongated sill and a corner key attached to each end of the sill. The corner key includes a water chamber for collecting water therein and a plurality of ports for diverting water from the water chamber outwardly through a drain port. The water chamber and plurality of ports are designed to temper a high-pressure gradient in the sill and effectively promote water egress away from the sill.
E06B 7/14 - Measures for draining-off condensed water or water leaking-in
E06B 3/96 - Corner joints or edge joints for windows, doors, or the like frames or wings
E06B 7/10 - Special arrangements or measures in connection with doors or windows for providing ventilation, e.g. through double windows; Arrangement of ventilation roses by special construction of the frame members
A door includes a first skin, a second skin, and a core. The core is disposed between the first skin and the second skin in a thickness direction of the door and spans between the first and second skins. The core includes a corrugated medium that is fluted with fluting running back and forth in the thickness direction between the first skin and the second skin as the corrugated medium spans between the first and second skins. The door also includes a compressed section where at least one of the first skin and the second skin is compressed into the core toward the other of the first skin and the second skin in the thickness direction.
Door and window components, parts, and accessories made from scrap wood, wood waste, and wood dust, namely, interior and exterior stiles and rails, jambs, lock blocks being blocks of non-metal material to which a door handle set or lock is fitted, frames, and sills; non-metal doors, in particular, fully extruded doors made from scrap wood, wood waste, and wood dust
The disclosure relates to a pivot bar for a tiltable sash window where the pivot bar is designed for mounting along an exterior surface of a sash frame. The pivot bar includes a first leg positioned within a channel formed on the stile of the sash frame and a second leg positioned within a channel formed on the bottom rail of the sash frame. In a coupled configuration, the pivot bar wraps around the exterior surface of the corner of the sash frame where the stiles and bottom rail meet.
E06B 3/50 - Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement
E05D 15/22 - Suspension arrangements for wings for wings sliding vertically more or less in their own plane allowing an additional movement
E05C 1/10 - Fastening devices with bolts moving rectilinearly with latching action with operating handle or equivalent member rigid with the latch
75.
PANEL FRAME JOINTS, SILLS, AND OTHER ELEMENTS OF FOLDING DOOR SYSTEMS WITH SHOOTBOLT SYSTEM
A fenestration unit configured to support a shootbolt locking system includes a panel including a panel frame with a stile member and a rail member that are attached by a corner joint. The stile and rail members are elongate and extend along a respective linear axis. The stile member is configured to receive and support at least part of the shootbolt locking system. The stile member includes a stile end with a first wall, and the rail member includes a rail end with a second wall. The corner joint includes a first bracket and a second bracket that are attached together. The first bracket is disposed within the stile end. The first wall is disposed between the first and second brackets. The second bracket projects away from the stile member, and the second bracket is received within the rail end and attached to the second wall.
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
20 - Furniture and decorative products
Goods & Services
(1) Kits sold to end-customers comprising doors made of wood or medium density fiber (MDF) engineered wood, door handles, and other hardware for the doors
77.
Drop roller press and method of making recessed panel doors
The disclosure relates to systems and methods for pressing a door assembly involving a scanning system operable to survey an outer surface of a door skin and identify a location of one or more recessed panel portions on the door skin, and a press operable to selectably actuate a group of actuators based on the identified location of the recessed panel portions, where the actuators drive press members onto the one or more recessed panel portions of the door skin during a pressing operation to facilitate crushing of portions of a core of the door assembly that underlie the recessed panel portion of the door skin.
B32B 37/10 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the pressing technique, e.g. using direct action of vacuum or fluid pressure
B32B 37/00 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
B32B 37/16 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the properties of the layers with all layers existing as coherent layers before laminating
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
(1) Window glass as an integral component of metal windows and metal doors; metal windows; metal doors
(2) Window glass as an integral component of non-metal windows, non-metal doors, and patio doors; non-metal windows; non-metal doors; patio doors
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
(1) Window glass as an integral component of metal windows and metal doors; metal windows; metal doors
(2) Window glass as an integral component of non-metal windows, non-metal doors, and patio doors; non-metal windows; non-metal doors; patio doors
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
(1) Window glass as an integral component of metal windows and metal doors; metal windows; metal door
(2) Window glass as an integral component of non-metal windows, non-metal doors, and patio doors; non-metal windows; non-metal doors; patio doors
06 - Common metals and ores; objects made of metal
19 - Non-metallic building materials
Goods & Services
(1) Window glass as an integral component of metal windows and metal doors; metal windows; metal doors
(2) Window glass as an integral component of non-metal windows, non-metal doors, and patio doors; non-metal windows; non-metal doors; patio doors
Kits sold to end-customers comprising doors made of wood or medium density fiber (MDF) engineered wood, door handles, and other hardware for the doors, namely, door hinges, door brackets, and screws
The disclosure relates to a sliding fenestration system assembly, such as a door or window system. The sliding fenestration system includes a sill having a first track channel and a second track channel formed thereon. A sill track including a first track segment, a second track segment, and a third track segment is coupled to the sill such that the first track segment is positioned within the first track channel, the third track segment is positioned within the second track channel, and the second track segment extends between the first and second track channels. The system further includes a sliding panel having one or more bottom guide assemblies, the assemblies engaging the sill track and operable to accommodate movement of the sliding panel along the sill track to reduce friction at a sealing interface between the sliding panel and the fenestration frame assembly.
E05D 15/06 - Suspension arrangements for wings for wings sliding horizontally more or less in their own plane
E05D 15/08 - Suspension arrangements for wings for wings sliding horizontally more or less in their own plane consisting of two or more independent parts movable each in its own guides
E05D 15/10 - Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane
E06B 3/42 - Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement - Details of frames with respect to guiding
The disclosure relates to a sliding fenestration system assembly, such as a door or window system. The sliding fenestration system includes a sill having a first track channel and a second track channel formed thereon. A sill track including a first track segment, a second track segment, and a third track segment is coupled to the sill such that the first track segment is positioned within the first track channel, the third track segment is positioned within the second track channel, and the second track segment extends between the first and second track channels. The system further includes a sliding panel having one or more bottom guide assemblies, the assemblies engaging the sill track and operable to accommodate movement of the sliding panel along the sill track to reduce friction at a sealing interface between the sliding panel and the fenestration frame assembly.
