Interlocking Passive Brick

The "Interlocking Passive Brick" is a groundbreaking architectural solution aimed at enhancing thermal regulation, humidity control, and structural integrity in construction. It maximizes thermal resistance, heat absorption, and thermal transmittance.

Strategically placed air gaps within the brick assembly boost convective heat transfer, while fillet curves at corner junctions enhance structural cohesion and decrease cement consumption. Additionally, concave semicircular indentations function as interlocking elements and facilitate thermal transfer. This innovation marks a transformative approach to construction, promoting sustainability and efficiency in architectural design.

This invention signifies a breakthrough in construction materials, providing a solution to longstanding challenges and establishing new standards for environmentally conscious architectural design. The following sections delve into the structural and functional features that characterize the Interlocking Thermal Brick and the substantial benefits it offers to the construction industry and sustainable architecture.

The current innovation pertains to building materials and construction products, with a particular focus on bricks designed to deliver a range of functional attributes. Specifically, this innovation relates to the configuration and design of an Interlocking Passive Brick, which seamlessly combines structural strength with passive environmental control mechanisms, including humidity and thermal management.

With a thermal resistance of 1.46 K/W, double the Thai Energy Ministry standard for energy-saving building component No. 5, and remarkable heat absorption capabilities, this brick set effectively manages heat flow, as demonstrated by its low U-value of 0.087 W/m²K* (subject to variation based on materials and thickness).