A shower curtain liner assembly for facile installation on, and removal from, a shower curtain rod includes a panel that has an upper section and a lower section. The upper section is arcuate and defines a channel that is shaped substantially complementarily to a shower curtain rod. The upper section is substantially rigid, while the lower section is flexible and substantially impermeable to water. A plurality of cutouts extends through the upper section from an edge of the upper section to the lower section to define a plurality of hooks. The hooks are configured to couple to the shower curtain rod so that the lower section is selectively positionable in an extended configuration, wherein the lower section is configured to cover an opening of a shower, and a compacted configuration wherein the lower section is configured for a user to enter and exit the shower.

An opacifying article has a (i) fabric having a face side and a back side and an (ii) opacifying element having a substrate that has first and second opposing surfaces; and a dry opacifying layer that has an inner surface and an outer surface. The dry opacifying layer is disposed with its inner surface in contact with the first opposing surface of the substrate. The dry opacifying layer has (a) 40-90 weight % of porous particles, each having a continuous polymeric phase and discrete pores dispersed within the continuous polymeric phase. The porous particles have a mode particle size of 2-50 m and a porosity of 20-70 volume %. The dry opacifying layer also contains (b) 10-60 weight % of a binder material. The (ii) opacifying element is laminated to the back side of the fabric to provide the opacifying article.

An opacifying article has a (i) fabric having a face side and a back side and an (ii) opacifying element having a substrate that has first and second opposing surfaces; and a dry opacifying layer that has an inner surface and an outer surface. The dry opacifying layer is disposed with its inner surface in contact with the first opposing surface of the substrate. The dry opacifying layer has (a) 40-90 weight % of porous particles, each having a continuous polymeric phase and discrete pores dispersed within the continuous polymeric phase. The porous particles have a mode particle size of 2-50 m and a porosity of 20-70 volume %. The dry opacifying layer also contains (b) 10-60 weight % of a binder material. The (ii) opacifying element is laminated to the back side of the fabric to provide the opacifying article.

An opacifying article can be made using a (i) fabric having a face side and a back side and an (ii) opacifying element having a substrate that has first and second opposing surfaces; and a dry opacifying layer that has an inner surface and an outer surface. The dry opacifying layer is disposed with its inner surface in contact with the first opposing surface of the substrate. The dry opacifying layer has (a) 40-90 weight % of porous particles, each having a continuous polymeric phase and discrete pores dispersed within the continuous polymeric phase. The porous particles have a mode particle size of 2-50 m and a porosity of 20-70 volume %. The dry opacifying layer also contains (b) 10-60 weight % of a binder material. The (ii) opacifying element is laminated to the back side of the fabric to provide the opacifying article.

An opacifying article can be made using a (i) fabric having a face side and a back side and an (ii) opacifying element having a substrate that has first and second opposing surfaces; and a dry opacifying layer that has an inner surface and an outer surface. The dry opacifying layer is disposed with its inner surface in contact with the first opposing surface of the substrate. The dry opacifying layer has (a) 40-90 weight % of porous particles, each having a continuous polymeric phase and discrete pores dispersed within the continuous polymeric phase. The porous particles have a mode particle size of 2-50 m and a porosity of 20-70 volume %. The dry opacifying layer also contains (b) 10-60 weight % of a binder material. The (ii) opacifying element is laminated to the back side of the fabric to provide the opacifying article.

Disclosed are compositions that can he used in forming products with increased near infrared (IR) reflective capability. A composition can include IR reflective and/or IR transmissive non-white pigments and can be formed with suitable viscosity so as to successfully coat substrates, e.g., yarns, suitable for use in forming coverings for architectural openings, e.g., window coverings. Also disclosed are textile substrates coated with the compositions, including textile substrates coated with compositions that in dude abrasive, inorganic IR reflective dark pigments.

Disclosed are compositions that can he used in forming products with increased near infrared (IR) reflective capability. A composition can include IR reflective and/or IR transmissive non-white pigments and can be formed with suitable viscosity so as to successfully coat substrates, e.g., yarns, suitable for use in forming coverings for architectural openings, e.g., window coverings. Also disclosed are textile substrates coated with the compositions, including textile substrates coated with compositions that in dude abrasive, inorganic IR reflective dark pigments.

A curtain assembly includes a curtain lamina made of a multifunctional multilayer composite sheet material, a top retaining member disposed on top of the curtain lamina and configured to receive the curtain lamina and to suspend the curtain lamina onto a curtain rail, and a counterweight portion disposed at a bottom of the curtain lamina and configured to receive the curtain lamina and stabilize the curtain lamina. The top retaining member includes a first holding piece, a second holding piece, a top fastener, and a top fixing device. The counterweight portion includes a first vertical weight piece, a second vertical weight piece, a bottom fastener, and a bottom fixing device.

A curtain assembly includes a curtain lamina made of a multifunctional multilayer composite sheet material, a top retaining member disposed on top of the curtain lamina and configured to receive the curtain lamina and to suspend the curtain lamina onto a curtain rail, and a counterweight portion disposed at a bottom of the curtain lamina and configured to receive the curtain lamina and stabilize the curtain lamina. The top retaining member includes a first holding piece, a second holding piece, a top fastener, and a top fixing device. The counterweight portion includes a first vertical weight piece, a second vertical weight piece, a bottom fastener, and a bottom fixing device.

A shade structure includes a shading member (1) having a first section (13), a second section (14) and a plurality of successive sections (15), a first figure face (2) mounted on the first section, a second figure face (3) mounted on the second section and presenting a determined figure related to that of the first figure face, a plurality of successive figure faces (4) mounted on the successive sections and presenting a determined figure related to that of the first figure face and the second figure face, and a plurality of connecting units (5) arranged between the first section, the successive sections and the second section and connected mutually to overlap and fold the shading member which has different folded states.