The present invention relates to a bar system for securing a snow fence to a membrane pad assembly connected to a structure. The bar system comprises a base bracket with an arm attachment portion having one or more openings and an arm bracket comprising one or more openings for operably connecting to the arm attachment portion using fasteners. At least one of the openings in the base bracket is configured to operably connect to the membrane pad assembly. At least one of the one or more openings in the arm bracket comprising an arcuate opening so as to allow movement along X,Y and rotational axis, e.g. horizontally, vertically and/or to allow the arm bracket to move between an open position and a closed position relative to the arm attachment portion so as to allow entry of a bar extrusion. The bar extrusion being secured by the fasteners in the one or more openings between the arm attachment portion of the base bracket and the arm bracket so as to hold snow, ice and other objects.

The invention relates to construction and can be used in the installation of roof coverings for industrial and public buildings and structures. A roofing tile comprises a lower protective layer made of polyethylene terephthalate and having a metallized base, a technical layer made of high-density polyethylene, a layer of cardboard, a heat and sound insulating layer made of polyurethane foam, and an upper protective layer made of polyethylene terephthalate. The metallized base is made of aluminum. The upper protective layer is painted throughout its entire thickness with modified UV stabilizers and fire retardant agents. The claimed invention provides enhanced heat insulating and sound insulating properties.

A tile, a tile assembly and a method of fabricating a tile are provided. The tile includes: an arc-shaped tile body including a first end and a second end in its length direction; and an arc-shaped jacket including a fixing section and a mounting section sequentially disposed in its length direction, a convex side surface of the fixing section is attached and fixed to a concave side surface of the first end of the tile body, the mounting section protrudes from an end surface of the first end of the tile body, and a convex side surface of the mounting section can be attached to a concave side surface of the second end of the tile body of another tile, the convex side surface of the jacket is provided with a drainage groove between the fixing section and the mounting section and extending along a width direction of the jacket.

A tile, a tile assembly and a method of fabricating a tile are provided. The tile includes: an arc-shaped tile body including a first end and a second end in its length direction; and an arc-shaped jacket including a fixing section and a mounting section sequentially disposed in its length direction, a convex side surface of the fixing section is attached and fixed to a concave side surface of the first end of the tile body, the mounting section protrudes from an end surface of the first end of the tile body, and a convex side surface of the mounting section can be attached to a concave side surface of the second end of the tile body of another tile, the convex side surface of the jacket is provided with a drainage groove between the fixing section and the mounting section and extending along a width direction of the jacket.

The apparatus and process disclosed relates to the application of a pattern on a material such as roof covering or siding where the surface is coated with media to create a three dimensional pattern. The 3-D pattern is created in multiple detailed steps so that the width of the pattern can be of an adjustable size in order to make the pattern more diverse and variable. The apparatus and method disclosed herein utilizes a series of applicator units which apply media in a pattern or without a specific pattern onto the material. The first applicator unit is designed to be the master applicator unit. Each applicator unit can include a separate drive or motor. The apparatus and process disclosed incorporates one or more slave applicator units. These slave pattern applicator units with slave pattern applicator rolls are synchronized to the master pattern applicator roll located in the master applicator unit.

A roof tile having a mesh covered foam core with a cement-based protective coating, a roof covering formed from such tiles and methods for making same.

A roof tile having a mesh covered foam core with a cement-based protective coating, a roof covering formed from such tiles and methods for making same.

A roof tile having a mesh covered foam core with a cement-based protective coating, a roof covering formed from such tiles and methods for making same.

A roof tile having a mesh covered foam core with a cement-based protective coating, a roof covering formed from such tiles and methods for making same.

The apparatus and process disclosed relates to the application of a pattern on a material such as roof covering or siding where the surface is coated with media to create a three dimensional pattern. The 3-D pattern is created in multiple detailed steps so that the width of the pattern can be of an adjustable size in order to make the pattern more diverse and variable. The apparatus and method disclosed herein utilizes a series of applicator units which apply media in a pattern or without a specific pattern onto the material. The first applicator unit is designed to be the master applicator unit. Each applicator unit can include a separate drive or motor. The apparatus and process disclosed incorporates one or more slave applicator units. These slave pattern applicator units with slave pattern applicator rolls are synchronized to the master pattern applicator roll located in the master applicator unit.