A sound damping door system having a door frame, a compression seal, a door slab, a bottom seal, and a concealed hinge assembly. The door frame includes male and female components adapted to engage each other in a rough door opening between first and second wall faces; and at least one isolation gasket adapted to be disposed between the male and female components. The compression seal is mounted to the door frame. The door slab includes an outer skin; an arched constrainment sheet inside the outer skin; a damping fill material inside the outer skin; and an acoustic insert inside the outer skin. The bottom seal is mounted to a bottom surface of the door slab such that the bottom seal is permitted to move relative to the door slab.

A sound damping door system having a door frame, a compression seal, a door slab, a bottom seal, and a concealed hinge assembly. The door frame includes male and female components adapted to engage each other in a rough door opening between first and second wall faces; and at least one isolation gasket adapted to be disposed between the male and female components. The compression seal is mounted to the door frame. The door slab includes an outer skin; an arched constrainment sheet inside the outer skin; a damping fill material inside the outer skin; and an acoustic insert inside the outer skin. The bottom seal is mounted to a bottom surface of the door slab such that the bottom seal is permitted to move relative to the door slab.

A sliding door or window system includes a track. The track includes an outer housing; an inner housing within the outer housing; a guide body provided with the inner housing and configured to guide a sliding movement of a door or a window; and at least one adjustable body that is provided on the outer housing, at least partially within the inner housing, and fixed with respect to the inner housing in a vertical direction, the at least one adjustable body configured to change a height of the inner housing with respect to the outer housing by rotating, such as to change a height of the guide body.

The present invention consists of a frame for turn & tilt or projecting doors or windows, which achieves a minimalist exterior appearance with a central profile of 18 mm, wherein the offset of the alignment of the external glass with the internal glass is now used, creating a common central outer profile of 18 mm, and wherein the thermal and acoustic performance and the resistance to water, air and wind permeability are further improved. The frame, object of the present invention, is preferably made of aluminum with thermal break for the manufacture of doors and/or windows, it is applied in a door or window opening of a building and it consists essentially of at least one fixed rim (3) and at least one movable leaf (1) and at least one fixed leaf (4), wherein at least one movable leaf is glued to the glass (2) in all its perimeter.

A splicing pipe for installing a door or window includes a first frame profile, a second frame profile, a heat insulation strip and at least two fasteners. A first clamping groove is formed on each of two sides of the first frame profile, and a second clamping groove is formed on each of two sides of the second frame profile. The first clamping groove and the second clamping groove are both configured to be connected to the door or window having glass. At least one of the first frame profile and the second frame profile on the same side is provided with an installation groove, and the fastener is inserted into the installation groove. The splicing pipe provided has the advantages of simple splicing operation and easy implementation, which can not only improve the splicing speed, but also guarantee the performance of the doors or windows after being spliced.

A hinge mounting structure is provided in which a door can open at a wide angle. In a hinge mounting structure including a hinge (1) having a first piece (3) and a second piece (4) that are coupled together via a shaft (2) in such a manner as to be rotatable relative to each other, the first piece (3) being mounted on a side jamb (6), the second piece (4) being mounted on an end face of a door (5), the side jamb (6) is provided with a protruding portion (8) protruding forward of a wall surface, and at least a part of the door (5) is backward of a front surface line (X), in an open position of the door (5).

A fenestration hinge assembly includes a first leaf rotatably coupled with a second leaf. The first and second leaves each include one or more leaf knuckles. The first and second leaf knuckles are at least partially received within a hinge cavity of a recessed escutcheon, the recessed escutcheon configured for recessed installation within a panel or frame of a fenestration assembly. The fenestration hinge assembly includes a lateral adjustment plate movably coupled with a remainder of the second leaf. The lateral adjustment plate is configured to position at least a portion of the second leaf laterally relative to one of the frame or the panel. The fenestration hinge assembly includes an adjustable hinge configured for elevation adjustment. The adjustable hinge includes an elevation adjustment pin interconnecting the first and second leaf knuckles. The elevation adjustment pin is configured to position the second leaf vertically relative to the first leaf.

A frameless window installation assembly is adapted to be mounted on a building wall, and includes a window sheet unit, and inner and outer bar holders. The window sheet unit has opposite inside and outside surfaces. The inner bar holder is made of metal, is disposed around a periphery of the inside surface, and is adapted to be secured to the building wall. The outer bar holder is made of metal, is disposed around a periphery of the outer side surface, is spaced apart from the inner bar holder, and is adapted to be secured to the building wall. The inner bar holder and the outer bar holder are not directly interconnected by a metal structure. The window sheet unit is secured between the outer and inner bar holders.

A secure sliding closure having a modular frame and one or more sliding door is described. The modular frame defines at least one secure cavity and a portal and comprises a main frame and at least one door frame. The main frame comprises at least one frame upright spaced apart from at least one portal upright and a respective at least one top plate extending between the at least one frame upright and the at least one portal upright. The at least one door frame comprising a locking side upright spaced apart from a secure cavity upright and a door frame top plate. The modular frame defines at least one secure cavity and defines a portal. The one or more sliding door comprises a sliding leaf and a sliding leaf covering, the covering comprising one or more sliding door security panel.

A sliding door or window system includes a track. The track includes an outer housing; an inner housing within the outer housing; a guide body provided with the inner housing and configured to guide a sliding movement of a door or a window; and at least one adjustable body that is provided on the outer housing, at least partially within the inner housing, and fixed with respect to the inner housing in a vertical direction, the at least one adjustable body configured to change a height of the inner housing with respect to the outer housing by rotating, such as to change a height of the guide body.