The present invention is directed to a wall assembly comprising a novel structural lattice frame comprising vertical studs and outwardly located horizontal furring spaced with thermal isolation pads therebetween at the framing intersections, foam insulation encapsulating the furring and at least a portion of the vertical studs, and an exterior air- and water-resistant barrier-protected sheathing fastened to the outward side of the horizontal furring.

A partition wall sound insulation structure includes: a floor material on which a floor surface is formed; a ceiling material on which a ceiling surface is formed, the ceiling surface being opposed to the floor surface in a vertical direction with a space in a building interposed therebetween; a partition wall that partitions the space in a horizontal direction and includes a pair of face materials that extends in the vertical direction and is disposed with a hollow portion interposed therebetween in the horizontal direction, and a stud that is disposed in the hollow portion and supports the pair of face materials; a positioning member for positioning the stud in the horizontal direction; and a sound insulation face material disposed on at least one of the floor surface and the ceiling surface in the hollow portion.

A partition wall sound insulation structure includes: a floor material on which a floor surface facing an indoor space side is formed; a ceiling material on which a ceiling surface is formed, the ceiling surface being opposed to the floor surface in a vertical direction with an indoor space interposed therebetween; a partition wall that extends in the vertical direction so as to partition the indoor space in a horizontal direction and that is disposed with a gap from at least one surface of the floor surface and the ceiling surface; and a sound insulation material made from an elastic material and including a portion disposed in the gap while being compressed in the vertical direction.

A bracket assembly comprising an elongated bracket member and an end wall support member. The elongated bracket member has a body wall having an inner end and an outer end. A first end wall extends from the inner end of the body wall and a second end wall extends from the outer end. The end wall support member is attached to each of the first end wall and the second end wall. The bracket member further comprises a plurality of fibers within a resin matrix. The plurality of fibers includes at least one fiber fabric extending from the first end wall to the second end wall.

A wall support structure and thermal transfer reduction system 10 comprises a first support element 12 aligned and positioned closest to a first face 14 of a wall 16; a second support element 18 aligned and positioned closest to an opposing face 20 of the wall 16; and a thermal transfer reduction spacer element 22 aligned and positioned between the support elements.

A sound isolation assembly comprising: one or more backing plates; one or more acoustic isolators; and a backing block. The acoustic isolators may be secured between the backing plates and the backing block when the backing plates are fastened to the backing block. When the backing plates are fastened to the backing block, the backing plates are substantially prevented by the acoustic isolators from being in direct contact with the backing block. The acoustic isolators may be fastened to the studs. The sound isolation assembly, when installed in a wall that is supporting a heavy load, raises the Sound Transmission Class rating of that wall.

A wall structure having an inner wall, a bracket member, a non-combustible board, and an outer cladding coupled together and retaining insulation between the inner wall and the outer cladding. The non-combustible board is positioned between the bracket member and the outer cladding.

A sound insulation structure for a building includes: a floor material; a ceiling material opposed to the floor material in a vertical direction with a space in a building interposed therebetween; a partition wall extending in the vertical direction and partitioning the space into a first space and a second space adjacent to each other in a horizontal direction; and at least one face material out of a floor-side sound insulation face material stuck to a portion of the floor material in a range of a thickness of the partition wall and having a coincidence frequency different from that of the floor material, and a ceiling-side sound insulation face material stuck to a portion of the ceiling material in the range of the thickness of the partition wall and having a coincidence frequency different from that of the ceiling material.

A partition wall has a structure with a wall end portion butted against another building structure and exposed to architectural spaces. An end post at the end portion of the wall is constituted from first and second end post elements, which are spaced apart from each other, so that a gap or an isolation zone interrupting a propagation of a solid vibration or insulating a path for propagating the solid vibration is formed between the first and second elements. An interior finishing panel for defining the architectural space on one side of the wall is fixed to the first element and the interior finishing panel for defining the architectural space on an opposite side of the wall is fixed to the second element.

The present invention is directed to a wall assembly comprising a novel structural lattice frame comprising vertical studs and outwardly located horizontal furring spaced with thermal isolation pads therebetween at the framing intersections, foam insulation encapsulating the furring and at least a portion of the vertical studs, and an exterior air- and water-resistant barrier-protected sheathing fastened to the outward side of the horizontal furring.