A small mobile space includes a top plate, a bottom plate, and wall modules between the top plate and the bottom plate and is connected in sequence. The top plate, the bottom plate and the wall modules jointly define an accommodating space. A door assembly is arranged on at least one of the wall modules. A joint between every two adjacent wall modules, a joint between each wall module and the top plate, as well as a joint between the bottom plate and each of wall modules are clamped respectively by using a concave-convex structure. An air inlet module is arranged in the top plate and includes an air inlet channel, and a sound absorption component in the air inlet channel. An air inlet of the air inlet channel is communicated to the outside. An air outlet of the air inlet channel is communicated with the accommodating space.

The present invention relates to a processing module for a building panel and a method for processing a building panel. The processing module for a building panel comprises an input station and a manoeuvring station. The input station comprises a reception for a building panel and the building panel bundles several individual building elements. The manoeuvring station comprises a swiveling device for transporting and swiveling the building panel.

The present invention relates to a processing module for a building panel and a method for processing a building panel. The processing module for a building panel comprises an input station and a manoeuvring station. The input station comprises a reception for a building panel and the building panel bundles several individual building elements. The manoeuvring station comprises a swiveling device for transporting and swiveling the building panel.

The invention relates to a method for the automated decoration of a building board, comprising at least one smoothing compound layer and preferably at least one colour coat. The method comprises the steps of smoothing and decorating the building board, wherein the smoothing includes the steps of (i) calibrating the building board to a nominal thickness, so that a surface of the building board has a height difference of at most 1 mm, (ii) applying a layer of a smoothing compound, (iii) pressing the smoothing compound into the surface structures of the building board, and (iv) recalibrating to the nominal thickness. Preferably, a plurality of smoothing compound layers are pressed into a calibrated surface of the building board and partially ground away again. The method is particularly well suited for the production of fire-resisting building boards.

There is described a shower enclosure and kit of walls therefor. The kit of decorative wall panels comprise a first wall panel including a front face, the front face of the first wall panel defining a first decorative pattern and including a relief element, a second wall panel including a front face, the front face of the second wall panel defining a second decorative pattern, and a connecting assembly for connecting the first wall panel adjacent to the second wall panel. The first decorative pattern of the first wall panel and the second decorative pattern of the second wall panel are configured to counteract a visual distortion caused by the relief element of the first wall panel when the first wall panel is adjacent to the second wall panel.

Described herein is a building panel comprising a substrate and an odor and VOC reducing coating applied to the substrate, the coating comprising a blend of a first component comprising ethylene urea; a second component comprising silica; and a rheology modifier.

Described herein is a building panel comprising a substrate and an odor and VOC reducing coating applied to the substrate, the coating comprising a blend of a first component comprising ethylene urea; a second component comprising silica; and a rheology modifier.

The present disclosure relates to a method of producing a laminated wood product, comprising providing a plank presenting a pair of parallel major surfaces, a pair of minor surfaces, a pair of end surfaces and a longitudinal direction parallel with said major and minor surfaces and perpendicular to the end surfaces, said plank having a water content of more than 25% by weight, preferably more than 30% by weight, initializing at least one longitudinal crack in the plank, drying said crack initialized plank to a moisture content of less than 20% by weight, and laminating said crack initialized plank by gluing at least one of its major surfaces to a surface of a second member, thus forming the laminated wood product. The disclosure also relates to a laminated wood product, which may be formed according to the method.

A system and method for a security glass system. The system includes a pane of glass and a security film adhered to the glass. A bracket has a glass coupler portion, a gap definer, and a support coupler. The glass coupler is adhered to the security film via an adhesive. The support coupler is adhered to the support via an adhesive. The result is a securement system which can withstand more blows than traditional glass.

A method for creating a vacuum insulated panel including preforming a continuous insulation member having male and female engaging surfaces and providing a barrier film envelope having an opening. The insulation member is disposed within the barrier film envelope and a tooling fixture is pressed against the barrier film envelope to press the barrier film envelope against the male and female engaging surfaces to remove gas from between the barrier film envelope and the male and female engaging surfaces. Substantially all gas is removed from within the barrier film envelope so that the barrier film envelope substantially conforms to an exterior surface of the insulation member. The opening of the barrier film envelope is then hermetically sealed, wherein the barrier film envelope forms a continuous layer over the core insulation member to form a vacuum insulated panel.