PL28975S2 - Anti-rupture building block - Google Patents

Description

Description of the Industrial Design: The subject of the industrial design is an anti-crack building block used in the construction of structures: walls, fences, small-scale architectural elements, and facades. The anti-crack building block, according to the current industrial design, differs from existing building blocks, is characterized by its novelty and individual character, and creates an overall impression on the informed user different from known building blocks used in the market by other manufacturers and users, due to its original appearance manifested in the innovative layout and construction of the internal and external walls, creating a unique, open-work pattern of both the block's bases: the upper and lower. The anti-crack building block, according to the current industrial design, is characterized by significant elements of a new form, including the following elements: - pass-through pouring chambers for pouring concrete, bounded on three sides by thin flexible walls; ► through-flow pouring chambers for pouring concrete, bounded on all four sides by thin flexible walls; ► one non-flooded chamber between two pouring chambers; ► flexible walls separated from the side walls by an absorbent gap. Although the thin flexible walls and absorbent gaps perform very important technical functions (they provide anti-crack protection), their arrangement, form, and shape are not solely due to these technical functions, but rather give the block a unique character that creates a different impression on the informed user than familiar blocks with the same technical functions. The blocks are symmetrical about the planes of symmetry AA and BB, perpendicular to their gable and face side walls, respectively, and dividing these walls into two equal parts. This innovative form of anti-crack construction block, based on the current industrial design, protects the block's side walls from cracking caused by stresses and linear changes in the concrete filling the pouring chambers of the blocks that make up the structures constructed using them. These stresses and linear changes occur during the operation of prefabricated structures constructed from blocks whose pouring channels were filled with inappropriate concrete with either too low or too high a water-to-cement mass ratio. This innovative form of anti-crack construction block, based on the current industrial design, has two pouring chambers bounded on three sides by thin, flexible walls that absorb the stresses of the poured concrete. These walls, when cracked, prevent cracking of the block's thick side walls, gables, and face walls, which form the vertical side walls of the structures. In turn, the absorbing gap provides space for changes in the geometry of the cracking flexible walls, preventing stress from being transferred to the block's side walls, protecting them from damage. The crack-resistant building block, according to the current industrial design and intended primarily for hybrid structures, has two pouring chambers, adjacent to the thick gable side walls on one side and bounded on the other three sides by thin flexible walls. Additionally, the block has two pouring chambers, bounded on all four sides by thin flexible walls, as well as a centrally located non-pouring chamber. Additional elements (e.g., transoms, doors, gates, gates, etc.) can be securely anchored through the gable side walls, directly into the hardened concrete mass filling the pouring channels of these blocks. The illustration in Fig. 1 shows an anti-crack building block, following the current industrial design. The left panel shows an axonometric spatial view of the block, while the right panel shows its top view, creating a unique openwork base pattern, and a cross-section through the lines marked with arrows. It is a construction anti-crack block in a variant for hybrid structures with a rectangular base, with four through-pouring chambers, two of which are adjacent on one side to thick gable side walls, and on the remaining three sides are limited by thin flexible walls, two of which are opposite are separated from thick face side walls by an absorbing gap, and one opposite to the gable side walls is common to the edge and inner pouring chambers, which inner pouring chambers are limited on four sides by thin flexible walls, two of which are opposite are separated from face side walls by an absorbing gap, but are connected to them by thin connectors with a height equal to the height of the block, located at the corners of these pouring chambers located near the central part of the block, where between the inner chambers There is a non-flooded space between the facing side walls and the flexible walls of the adjacent flood chambers, where the ratio of the facing side wall length to the gable side wall length of the block is approximately 9:2. Furthermore, the collective illustration shows a construction anti-crack block, according to the current industrial design, as shown in the axonometric view in Fig. 1. PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL PL