SU1795027A1 - Building block - Google Patents

Description

The invention relates to construction, in particular, to the construction of foundations, walls and floors of single-story buildings and structures in areas of high seismicity.

Known building block, made solid, in the center of each upper plane of which is placed a connecting protrusion. The two lateral planes of the connecting element are directed upward and inclined inward. These planes of the same width and length extend parallel to the front plane of the block and are used to align the wall and to accurately lay a solid block.

However, the building block is solid, in connection with this, its overall dimensions are objectively limited and it does not provide high stability of the wall under additional loads. After assembly, the wall turns into a solid monolith and loses its elastic properties. With an increase in overall dimensions, the technology of erection of a structure becomes more complicated.

The closest technical solution. selected as a prototype, is a prefabricated block design made integral in the form of a parallelepiped with two rectangular cavities placed inside the case and having a trough-like groove at one end. a

1795027 A1 from the opposite - a trough-shaped protrusion. Along the entire length of the faces of the upper and lower surfaces of the block housing, there are connecting seals on the faces of the upper surface in the form of protrusions, and on the lower 5 — recesses of the same configuration.

However, the known block design has drawbacks. Blocks during their use, in the construction of building structures are interconnected in a groove without mortar. This block design, due to the presence of grooves in the case of extra-calculated additional loads, makes it possible to move only in two directions in one plane 15, which does not ensure the reliability of buildings and structures. In addition, blocks of this design are interconnected structurally, t. e. due to the grooves, their further interconnection as a wall is made by sealing joints with mortar, which also cannot provide stability and elastic properties of structures.

The aim of the invention is to provide an increase in the stability of the block under seismic effects, a decrease in its material consumption, and an improvement in thermal insulation properties.

This goal is achieved by the fact that 30 the building block is made of a cube-shaped middle element and two extreme parallelepiped-shaped elements installed with a gap relative to each other, and the cavities are formed in the form of hemispheres in the center of each facet of the middle element and on the extreme edges facing it elements, while the cavities of the middle element are interconnected by means of 40 central vertical and horizontal channels formed in it, and the extreme elements are connected to their end faces in the middle the central horizontal channels, and the connecting connections of the elements of the block 45 are made of balls located in cavities on adjacent faces of the balls and placed with a gap relative to the walls of the cavities of the balls with a through and a central channel and an elastic flexible rod 50 passing through the horizontal channels of all elements of the balls and the ends of the extreme elements fixed to the end faces, while the lower edge of the middle element is made with opposite rectangular projection and groove, and the upper one with rectangular groove ohm and a protrusion located respectively above the protrusion and the groove of the lower face, and the protrusion of the upper face is further provided with a recess having a one-sided V-shaped bevel on the side face of the element.

Comparative analysis with the prototype allows us to conclude that the claimed building block is characterized in that the middle element of the block is made in the form of a cube with four-sided internal spherical cavities for spherical elements placed with a gap relative to the middle element and two extreme parallelepiped-shaped elements, provided with a center holes in the horizontal and vertical directions for the passage of an elastic flexible ligament connecting the middle element with spherical elements and two extreme elements, n recesses with a one-sided bevel for pouring binder material are placed on the upper and lower surfaces of the middle element, and the joint seals in the form of two rectangular protrusions and two rectangular recesses are located on opposite sides of the upper and lower surfaces along the diagonal of the middle element, which ensures stability and integrity structures when exposed to vibrations of any direction.

In FIG. 1 shows a general sectional view of a building block; in FIG. 2 is a sectional view of the middle element: in FIG. 3 - middle element in a perspective view.

The building block (Fig. 1) consists of a middle one in the form of a cube 1 and two extreme 4 shaped like a parallelepiped, two left halves of ball elements 2, two right halves of ball elements 3, elastic flexible material 6, elastic rings of the stopper. 8.

The middle element 1 has internal cavities 11 formed in the form of hemispheres, central vertical and horizontal channels 5. The lower edge of the middle element is made with an opposing rectangular protrusion 14 and a groove 15. The upper face of the middle element is made with a rectangular groove 16, the protrusion 13 are located respectively above the protrusion of the groove of the lower face, and the protrusion of the upper face is further provided with a recess 17 having a one-sided V-shaped bevel along the lateral face of the element.

In the block there are two extreme elements 4. having one cavity 11 formed in the form of a hemisphere in the center of one face and a horizontal central channel 5.

The assembly of the block is as follows.

An elastic flexible ligament 6 is inserted into hole 5. Two elastic rings are inserted onto it — stoppers 8 left and right, then the left half of ball 2, left elastic ring 8, right half of ball Z, then left, right elastic rings 8, middle element 1 , the left and right elastic rings 8, then the left half of the ball 2, the left elastic ring 8, the right half of the ball 3, the left elastic ring 8 and then the extreme element 4 and the second end of the elastic ligament 6 is fixed.

The implementation of the middle element of the block in the form of a cube, having cavities formed in the form of hemispheres, sub-spherical elements allows, depending on the required structure, layout and area of the building, as well as on the height and thickness of the walls, to assemble from standard block-structure elements of various dimensions and quantities, interconnected in a single block And thus, from a standard block design, you can simultaneously lay the foundation, erect walls and floor, without using other than binder - pouring aterialov. The main traditional building materials used in the construction of buildings / formwork, iron, as reinforcement, timber, etc. /.

The presence of an elastic flexible ligament passing through the hole in the center of the middle element in the horizontal and vertical directions allows you to form a block structure by connecting ball

Claims (1)

Claim A building block comprising elements interconnected by means of connections with internal cavities, characterized in that, in order to increase the stability of the block under seismic effects, reduce material consumption and improve thermal insulation properties, the block is made of a cube-shaped middle element installed with a gap relative to each other and two extreme parallelepiped-shaped elements, and the cavities are formed in the form of hemispheres in the center of each face of the middle element and on the edges facing it elements, the cavity of the middle element are interconnected via formed therein the central vertical and horizontal channels, and the end elements - are connected with their end of the hemisphere and the two extreme element that provides extreme conditions perception oscillations in all coordinate planes. Due to the spherical elements made of hemispheres and hollow inside, having a gap relative to the middle element and the extreme elements into which a weak casting solution is poured, the filling material is saved, the thermal insulation properties of the block are increased and its total weight is reduced. Extreme elements, as a rule, can be mounted in several options. Depending on the construction of the building, the required dimensions of the blocks and walls, on the construction conditions and during transportation, the blocks can include an unlimited number of middle elements 1, with spherical elements 2 and 3 with completion at the ends of the extreme elements 4. The manufacture of block elements can be carried out simultaneously at various places depending on the availability of building materials. For example, the middle and extreme elements of the block can be manufactured near a cement plant or where there are factories of reinforced concrete products, spherical elements - where there are silicate and other similar materials, and ligaments and elastic rings - where there is a production facility for the production of polymer and similar materials. by means of central horizontal channels, and the connecting connections of the block elements are made of balls located in cavities on adjacent faces and placed with a gap relative to the walls of the cavities of the balls with a through central channel and an elastic flexible rod passing through the horizontal channels of all elements and balls and fixed at the end the edges of the extreme elements, while the lower edge of the middle element is made with opposite rectangular protrusion and a groove, and the upper one with a rectangular a groove and a projection arranged respectively on the projection and the groove bottom face, the protrusion upper faces is further provided with a recess having a single sided V-shaped bevel on the side edges of the element. Fig 2 Fig.Z