The invention relates to a light guide block made up of a plurality of light guide rods (9) that are molded in a curable filler material, wherein for manufacturing the light guide block (1, 2), the curable filler material is fillable into an at least half-open trough (3), the light guide rods (9), as plastic injection-molded parts or plastic molded parts, being molded onto surfaces (4-8) of the trough (3) that is made, at least partially or in sections, of light-conducting plastic.

A high-strength translucent structures that can be used in industrial and civil construction serving as facade or window structures, as well as for filling gaps in ceilings or raised floors with translucent elements, in the structures of separate sections of both walls and zenith skylights of buildings in required spatial altitude. The translucent enclosing structure includes glass units wherein the sheets of glass are hermetically connected to each other and fixed relative to each other by an internal rigid strengthening profile and a spacer frame, and the glass units are additionally provided with an external strengthening profile of Π-shaped cross-section in the form of a pultruded profile made of glass-plastic. There has been created a sufficiently strong and, therefore, reliable, durable, and cheap translucent enclosing structure designed for use in industrial and civil buildings.

A facade element includes a coloring transparent or semi-transparent first pane and a mechanically supporting transparent second pane firmly connected to one another by an intermediate layer. The first pane has a front surface arranged on the light incidence side and an opposite back surface, at least one surface of the front and back surfaces has at least one structured region, and at least one optical interference layer is arranged on the at least one surface for reflecting light within a predetermined wavelength range. The structured region has the following features: perpendicular to the plane of the first pane, a height profile comprising peaks and valleys, wherein an average height difference between the peaks and valleys is at least 2 μm, at least 50% of the structured region is composed of segments which are inclined with respect to the plane of the first pane (2).

A modular floor platform includes a floor made of a plurality of individual composite floor panels interconnected by tongue and groove joints. The individual composite floor panels have a foam core and a rigid cover over the foam core. A frame attaches the floor panels together along a perimeter of the floor. Legs beneath the frame and upwardly support the floor.

A glass beam element, for constructing a loadbearing structure, comprises at least one elongate structural reinforcement section extending along a longitudinal direction, and at least one glass segment bonded to said at least one elongate structural reinforcement section. The at least one elongate structural reinforcement section comprises a weldable material, and the at least one glass segment has a length along the longitudinal direction that is shorter than the elongate structural reinforcement section such as to allow welding of an end region of the at least one elongate structural reinforcement section without thereby damaging the at least one glass segment.

Glazings comprising first and second channel-section glazing elements are described. The first and second channel-section glazing elements are arranged to define a cavity in which is located an inner glazing element comprising a glass glazing element, in particular a soda-lime-silica glass sheet, channel-section glazing element or sheet of rolled glass having at least one fire polished edge. The inner glazing element divides the cavity into at least two spaces to improve the thermal and/or noise performance of the glazing. By using low emissivity coatings on one or more major surfaces of one or more of the glazing elements, the thermal performance may be further improved. Mechanical performance may be modified by the particular type of inner glazing element used. It is possible to retrofit existing glazings to improve the thermal and/or noise performance thereof.

Glazings comprising first and second channel-section glazing elements are described. The first and second channel-section glazing elements are arranged to define a cavity in which is located an inner glazing element comprising a glass glazing element, in particular a soda-lime-silica glass sheet, channel-section glazing element or sheet of rolled glass having at least one fire polished edge. The inner glazing element divides the cavity into at least two spaces to improve the thermal and/or noise performance of the glazing. By using low emissivity coatings on one or more major surfaces of one or more of the glazing elements, the thermal performance may be further improved. Mechanical performance may be modified by the particular type of inner glazing element used. It is possible to retrofit existing glazings to improve the thermal and/or noise performance thereof.

A green or sustainable building infrastructure comprising conjoining modular building segments. The purpose of the invention is to increase the precision, quality, and timing of building projects by allowing modular building segments to be constructed in an off-site controlled environment, transported, and quickly assembled on site. The conjoining modular building segments are prismatic box-like structures conjoined in a variety of configurations, each having at least three walls. The prismatic box-like structures are arranged and attached horizontally to create ceilings and floors, and they are arranged and attached vertically to create walls for the infrastructure. Some of the walls may be removed and the space inside each prismatic box-like structure is available for storage. The prismatic box-like structures may have certain dimensions, comprise specific materials, or be constructed or conjoined in specific ways.

A green or sustainable building infrastructure comprising conjoining modular building segments. The purpose of the invention is to increase the precision, quality, and timing of building projects by allowing modular building segments to be constructed in an off-site controlled environment, transported, and quickly assembled on site. The conjoining modular building segments are prismatic box-like structures conjoined in a variety of configurations, each having at least three walls. The prismatic box-like structures are arranged and attached horizontally to create ceilings and floors, and they are arranged and attached vertically to create walls for the infrastructure. Some of the walls may be removed and the space inside each prismatic box-like structure is available for storage. The prismatic box-like structures may have certain dimensions, comprise specific materials, or be constructed or conjoined in specific ways.

The present invention relates to shaker doors with solid cores and methods for making the same. The shaker doors contain different core materials at the recessed panel than the raise peripheral region to provide dimensional stability and reduced distortion when the doors are exposed to high humidity. The devices and methods also provide for easy assembly of solid core shaker doors, including fire rated doors.