A canvas hanger profile for making a stretched ceiling in a room to be conditioned, the hanger profile comprising at least two wings connected together by a connecting lining, one of the wings being arranged to allow the fastening of the hanger profile on a wall of the room to be conditioned, a second wing, which constitutes a canvas hanger wing, being provided with a blocking end of a canvas hook, wherein the connecting lining and the hanger wing are arranged to define together an unclosed air passage slot through the profile and are delimited by the blocking end of the hanger wing hook, the profile having at least one through opening arranged to allow air to pass through said profile from or towards the slot.

The modular structures and methods for making and using the same are disclosed herein. The modular device can include one or more support panels, one or more connecting members (also referred to as bones) and one or more fasteners. Support panels can be connected together in groups of two or more using the fastener, to provide a frame for the connection to connecting members. The connecting members connect between the support panels, such that groups of support panels can be connected together and extended upon one another. The connecting members connect at receiving ports in the support panels, which receive and affix at least a portion of the connecting member. The support panels generally form the frame of the modular structures, while connecting members connect between the support panels. The interlocking and alternating elements allow for the variety of structures and flexibility described herein.

The modular structures and methods for making and using the same are disclosed herein. The modular device can include one or more support panels, one or more connecting members (also referred to as bones) and one or more fasteners. Support panels can be connected together in groups of two or more using the fastener, to provide a frame for the connection to connecting members. The connecting members connect between the support panels, such that groups of support panels can be connected together and extended upon one another. The connecting members connect at receiving ports in the support panels, which receive and affix at least a portion of the connecting member. The support panels generally form the frame of the modular structures, while connecting members connect between the support panels. The interlocking and alternating elements allow for the variety of structures and flexibility described herein.

Modular building methods and systems using lightweight modular panels, and specially configured transition panels for transitioning from wall to floor, or from wall to roof. Identically configured standard panels are used for constructing the walls, floor, and roof, with transitions from one structure to the next (e.g., wall to floor, or wall to roof). Each of the variously configured panel types includes channels (e.g., 2 pair of channels) formed through the length of the foam body, where the channels are configured to receive splines (e.g., flanges of an I-beam) therein. In the standard panel, the channels may include pairs of top and bottom channels, with the channels offset towards the respective panel major faces. In the transition panels, the channels may be similarly configured, but positioned differently to make the appropriate transition. The splines are connected to a frame, which acts as a template and transfers loads to a foundation.

Modular building methods and systems using lightweight modular panels, and specially configured transition panels for transitioning from wall to floor, or from wall to roof. Identically configured standard panels are used for constructing the walls, floor, and roof, with transitions from one structure to the next (e.g., wall to floor, or wall to roof). Each of the variously configured panel types includes channels (e.g., 2 pair of channels) formed through the length of the foam body, where the channels are configured to receive splines (e.g., flanges of an I-beam) therein. In the standard panel, the channels may include pairs of top and bottom channels, with the channels offset towards the respective panel major faces. In the transition panels, the channels may be similarly configured, but positioned differently to make the appropriate transition. The splines are connected to a frame, which acts as a template and transfers loads to a foundation.

The modular structures and methods for making and using the same are disclosed herein. The modular device can include one or more support panels, one or more connecting members (also referred to as bones) and one or more fasteners. Support panels can be connected together in groups of two or more using the fastener, to provide a frame for the connection to connecting members. The connecting members connect between the support panels, such that groups of support panels can be connected together and extended upon one another. The connecting members connect at receiving ports in the support panels, which receive and affix at least a portion of the connecting member. The support panels generally form the frame of the modular structures, while connecting members connect between the support panels. The interlocking and alternating elements allow for the variety of structures and flexibility described herein.

The modular panel 20 interlocking and reinforcing mechanism for building enclosures pertains to assembling boxes 21 with six of the same or similar modular panels 20 without extra components or connectors. My mechanism joins modular panels 20 by interlocking both grooves 22 attached by living hinges 24 on the panel edges, thus creating the box 21. The embodiment of my mechanism joins modular panels 20 by interlocking both grooves 22 attached by living hinges 24 on the panel edges, thus creating the box 21. The living hinges 24 allow all the grooves 22 to turn forty five degrees at the corners. Upon interlocking both grooves 22 to each other at a forty five degree angle, it completes the ninety degree dihedral angle transition from one panel 20 to another for corners. Another embodiment of my mechanism is to assemble a box 21 in expanded sizes by using the same or similar modular panels 20 without extra accessories. Modular panels are connected side by side to expand the flat surface or transitioning to a ninety degree angle at the box corners. An additional embodiment of my mechanism includes similar sized reinforcing rods 30 embedded in the interlocked grooves 26, which allows them tightly interlock together and strengthen the box 21. One type of the interlocking groove 22 mentioned above is round with a narrower outer opening than the inner width.

A building block includes a plurality of panel elements that are each rotatable relative to each other one of the plurality of panel elements; a connecting pin that passes through and rotatably connects the plurality of panel elements to each other; and a plurality of connectors, each connector rotatably attached to a respective panel element, where each one of the panel elements includes at least on locking feature configured to create a releasably fixed connection between adjacent panel elements.

The present invention discloses a structure for connecting a composite insulation exterior wall panel and a steel structural beam-column, including a steel structural beam and a steel structural column making up a a steel structural body. A filling insulation layer is provided at a gap of the steel structural body. A composite insulation panel connecting assembly is wrapped at a junction between the steel structural beam and the steel structural column. The composite insulation panel connecting assembly is connected to a horizontal composite insulation panel assembly, via a staggered seam, in a horizontal direction, and the composite insulation panel connecting assembly is connected to a vertical composite insulation panel assembly, via a staggered seam, in a vertical direction.

Disclosed is a modular building system including, in some embodiments, one or more wall panels, one or more floor panels, and one or more roof panels. The modular building components of the modular building system including the one or more wall panels, the one or more floor panels, and the one or more roof panels can faun housing or storage structures with electrical wiring, plumbing, or both wiring and plumbing. The housing or storage structures can be erected by one or more persons without a need for a plumber, an electrician, or power tools. Also disclosed is a method for erecting one or more housing or storage structure in accordance with the modular building system.