A molding equipment and method to mold stackable inter-engaging bricks, blocks, stones and the like and bricks, blocks, stones and the like produced therewith are disclosed. The molding equipment comprises a main structure which contains individual cavities. Each cavity preferably has a middle structure to which a brick separating element can be attached. Without the brick separating element, each cavity can form two attached splittable bricks whereas with the brick separating element attached, each cavity can hold two individual smooth or embossed face bricks. The size and shape of the stackable inter-engaging bricks is such that once out of the mold but still in an uncured form, the brick can stand on its side without falling down, being damaged, buckling or being otherwise deformed during the manufacturing process.

A concrete block includes first, second, third, fourth, fifth, and sixth planar faces. The first and second faces are generally parallel, and the distance between the first and second faces define a thickness of the first block; the third and fourth faces are parallel to each other and perpendicular to the first and second faces; the fifth face is perpendicular to the first, second, third, and fourth faces; the sixth face: extends perpendicular to the third face; extends toward the fourth face and ends at a non-planar remainder section; is parallel to the fifth face; is contained in a plane that intersects a plane containing the third face; and a distance from the intersection to the remainder section is at least as long as the thickness of the first block; and the remainder section extends between the sixth face and the fourth face and has a shape such that when a second block of the same construction as the first block has its remainder section engaged against the remainder section of first block, the remainder sections of the first and second blocks mate.

A corner seismic isolator for the seismic protection of buildings, both new and already built, comprising at least one resistant element in the form of a frame with a brick partition inside, the isolator consisting of a single monobloc part formed from a material more flexible than the frame and than the bricks in the partition, comprising two arms arranged at a right angle, one to be situated between the frame and the partition in a vertical direction and the other to be situated between the frame and the partition in a horizontal direction, the thickness of which in the direction perpendicular to the plane of the partition is between 0.5 and 1.5 times the thickness of the bricks in the partition, with the width of the arms being equal to or greater than one third of the height of a single brick in the partition and the length thereof being equal to or greater than three times the width of the arm itself, with the length thereof, in turn, being a portion of the corresponding dimension of the partition, with the vertical arm having a length of between 0.1 and 0.5 times the height of the partition and the horizontal arm a length of between 0.1 and 0.5 times the length of the partition.

A wall block, wall block system, method of constructing a wall or other structure and a method of manufacturing a block wherein the wall block has a front, a rear, and two side surfaces, as least one of the surfaces consisting of multiple vertically planar surfaces of differing shapes and sizes and multiple faceted surfaces of differing shapes, sizes and contours.

A concrete block includes first, second, third, fourth, fifth, and sixth planar faces. The first and second faces are generally parallel, and the distance between the first and second faces define a thickness of the first block; the third and fourth faces are parallel to each other and perpendicular to the first and second faces; the fifth face is perpendicular to the first, second, third, and fourth faces; the sixth face: extends perpendicular to the third face; extends toward the fourth face and ends at a non-planar remainder section; is parallel to the fifth face; is contained in a plane that intersects a plane containing the third face; and a distance from the intersection to the remainder section is at least as long as the thickness of the first block; and the remainder section extends between the sixth face and the fourth face and has a shape such that when a second block of the same construction as the first block has its remainder section engaged against the remainder section of first block, the remainder sections of the first and second blocks mate.

A modular system for dry building of structures includes a plurality of modular elements having a generally planar upper or lower wall and a plurality of side faces substantially perpendicular thereto, and further having a first end edge at the upper or lower wall and a second edge opposed thereto. Anchoring members couple the modular elements so that the planar walls cooperate to define a first plane generally parallel to or coinciding with the main development plane of the structure to be built, with each of the side faces interacting with each other. The second edges of the side faces cooperate to define a second plane generally parallel and opposed to the first plane. The anchoring members include first anchoring members that act in correspondence with the second plane to effectively counteract the tensile stresses developing in the structure due to a load acting on the first plane.

A modular system for dry building of structures includes a plurality of modular elements having a generally planar upper or lower wall and a plurality of side faces substantially perpendicular thereto, and further having a first end edge at the upper or lower wall and a second edge opposed thereto. Anchoring members couple the modular elements so that the planar walls cooperate to define a first plane generally parallel to or coinciding with the main development plane of the structure to be built, with each of the side faces interacting with each other. The second edges of the side faces cooperate to define a second plane generally parallel and opposed to the first plane. The anchoring members include first anchoring members that act in correspondence with the second plane to effectively counteract the tensile stresses developing in the structure due to a load acting on the first plane.

A concrete block includes first, second, third, fourth, fifth, and sixth planar faces. The first and second faces are generally parallel, and the distance between the first and second faces define a thickness of the first block; the third and fourth faces are parallel to each other and perpendicular to the first and second faces; the fifth face is perpendicular to the first, second, third, and fourth faces; the sixth face: extends perpendicular to the third face; extends toward the fourth face and ends at a non-planar remainder section; is parallel to the fifth face; is contained in a plane that intersects a plane containing the third face; and a distance from the intersection to the remainder section is at least as long as the thickness of the first block; and the remainder section extends between the sixth face and the fourth face and has a shape such that when a second block of the same construction as the first block has its remainder section engaged against the remainder section of first block, the remainder sections of the first and second blocks mate.

A set of interlocking blocks consists a plurality of first blocks and a plurality of second blocks capable of forming kinematic interlock. Each of the first blocks and second blocks comprise at least one male joint and female joint for mating with its counterpart. The motion of the first blocks and second blocks are constrained by joints. Subsequent first blocks and/or second blocks reinforce and immobilize prior first blocks and/or second blocks. Assembly of an interlock structure consisting the set of interlocking blocks may be performed via translation motions.

A system may include at least one multipurpose container with a bottle portion and a cap portion, and the bottle portion may include a bottle wall about the interior and forming an outer surface. The outer surface may have primary faces configured to permit vertical stacking of the container on another container in a stack of containers, and secondary faces. Alignment features may facilitate alignment of the bottle portions in a stack of containers, and at least a pair of the alignment features may be located on the primary faces. The alignment features may include at least one aligning lug located on and protruding from the first primary face and at least one aligning recess located on and depressed into the second primary face to removably receive the at least one aligning lug of a said container in the stack of containers.