RU2204668C1 - Prefabricated construction unit - Google Patents

Abstract

FIELD: construction industry, long- length construction units, predominantly, of wood or any other structural material used as beams, supports, guarding members, etc. SUBSTANCE: prefabricated construction unit comes in the form of hollow block comprising longitudinal members arranged in vertical rows at certain distance one from another with formation of space. Upper and/or lower faces of members have longitudinal grooves and protrusions. Longitudinal members in each row are fastened by height and adjacent rows of longitudinal members are interjoined by means of one coupling member, as minimum, which opposite faces oriented along longitudinal axis of unit carry grooves and protrusions engaging protrusions and grooves of longitudinal members of adjacent rows. Vertical through and/or blind holes and/or grooves for installation of locks with positioning of coupling members having length multiple of modulus are made in each row along length of block at distances equal to modulus. EFFECT: raised warmth- keeping characteristics of unit, reduced cost for its transportation, erection and finishing operations. 19 cl, 18 dwg

Description

 The invention relates to the field of construction, in particular to long-length building structures mainly made of wood or other structural material, which can be used as wall blocks, beams, racks, supports, fencing elements and the like building structures.

 Known building structure with imitation of elements of a log house made of solid wood, including a frame and an external simulation sheathing mounted on it, in which the installation slot is made, and at least one set of end simulation elements located in the corresponding installation slot and consisting of end imitation elements made of solid wood and installed one above the other (patent RU 2153046 C1, E 04 B 1/10, 11/03/1999).

 A disadvantage of the known technical solution is the lack of manufacturability of the structure due to the presence of a complex profile surface at the ends of the elements of the outer wall cladding.

 Known prefabricated building structure of solid wood structures containing longitudinal elements assembled into blocks (patent RU 2105104 C1, E 04 1/10, 07/03/1991).

 A disadvantage of the known technical solution is the low-tech interface between structural elements and, as a result, its lack of rigidity. In addition, dust and dirt accumulate in cracks at the joints of such elements, which impairs the aesthetic properties of such structures, and eliminating this defect significantly increases labor costs.

 Another disadvantage of the known solution is that additional measures associated with increasing the insulating properties of the block lead to an increase in the cost of buildings.

 Another drawback of such a technical solution is associated with the shape of the product itself, formed by standard and non-standard fasteners in an integral structure, which reduces modularity when used in construction.

 The technical task of the present invention is the creation of a prefabricated building structure, which has great transformability, high thermal characteristics and allows the use of a wide range of materials, which reduces the cost of the structure, and by reducing weight to assemble the structure without the use of heavy lifting equipment, which reduces labor costs when installing the structure.

 This task is achieved due to the fact that the prefabricated building structure made in the form of a hollow block, consisting of longitudinal elements located in vertical rows at a certain distance from each other with the formation of a cavity, on the upper and / or lower faces of each of which longitudinal grooves and protrusions are made moreover, the longitudinal elements in each row are fastened together in height, and the adjacent rows of longitudinal elements are interconnected by means of at least one connecting element having opposite edges oriented along the longitudinal axis of the block, the grooves and protrusions engaged with the protrusions and grooves of the longitudinal elements of adjacent rows, respectively, with vertical through and / or blind holes made in each row at a distance from each other along the length of the block equal to the module and / or grooves for installing clamps therein with placement of connecting elements between them having a length multiple of the module.

 In each row of the hollow block, at least two longitudinal elements can be fastened.

 The number of rows of longitudinal elements in the hollow block is at least two.

 The connecting elements are placed along the entire length of the hollow block or at a distance from each other that is a multiple of the module.

 The latch is made in the form of a plug and / or element having a cross-sectional shape similar to the cross-sectional shape of the connecting element.

The upper and lower faces of each longitudinal element are beveled from its outer lateral edge in the hollow block to the inner one at an angle to the horizontal plane not exceeding 0.8 ^o , mainly equal to 0.6 ^o , with the formation of a V-shaped gap in the horizontal junction of the hollow block and between blocks in their connection.

 Binding elements can be made of wood, and / or metal, and / or composite and / or polymeric materials.

 The longitudinal elements of the block can be made of a homogeneous material, such as wood, or metal, or composite or polymeric materials.

 The longitudinal elements of the block can be made of dissimilar materials, such as wood, and / or composite materials, and / or polymeric materials.

 The transverse dimensions of the longitudinal elements of at least one row of the hollow block may exceed the transverse dimensions of the longitudinal elements of the adjacent row.

 The transverse dimensions of the longitudinal elements of adjacent rows of the hollow block may be equal.

 In at least one row of the hollow block, the transverse dimensions of the longitudinal elements may exceed the transverse dimensions of the other longitudinal elements.

 At least one outer face of the hollow block may be made flat, or convex, or embossed.

 At least one longitudinal element of the row of the hollow block can be shifted relative to another longitudinal element of this row along the length of the hollow block by an amount multiple of the module.

 The length of at least one longitudinal element of a row of a hollow block may exceed the length of another longitudinal element of the same row of a hollow block by a multiple of the modulus.

 The hollow block can be made with holes, grooves, protrusions and bevels for bonding with the intersecting hollow block.

 At least one block may be used as an element of a wall and / or beam and / or support.

 The cavity of the hollow block can be filled with slab, or loose, or pouring insulation.

 Communication wiring is placed in the cavity of the hollow block.

 The longitudinal elements of adjacent rows of the hollow block can be made equally high or uneven.

The invention is explained below with reference to the drawings, which depict:
in FIG. 1 is a cross-sectional view of a prefabricated building structure of a hollow block, in each row of which at least two longitudinal elements can be fastened, the number of rows of longitudinal elements in the hollow block is at least two,
in FIG. 2 is a cross section of a hollow block with two flat outer faces,
on figa, b is a cross section of a longitudinal element with a curved and flat outer face,
in FIG. 4 is a fragment of a cross-section of a hollow block with a gap of a V-shaped or triangular transverse profile with the base facing the cavity,
in FIG. 5 - connecting elements are placed along the entire length of the hollow block or at a distance from each other that is a multiple of the module.

 6 is a hollow block with two shifted longitudinal elements of each row relative to two other elements by a length multiple of the module.

7, 8 - clamps,
Fig.9, 10 - a hollow block with different lengths of longitudinal elements that are multiples of the module,
in FIG. 11, 12 - the transverse dimensions of the longitudinal elements of at least one row of the hollow block may exceed the transverse dimensions of the longitudinal elements of the adjacent row,
in Fig.13, 14 - a hollow block with an offset of one pair of longitudinal elements relative to another by a length multiple of the module,
in FIG. 15, 16 - holes, protrusions, grooves of the hollow block at the intersection with another block,
on Fig - cavity of the block with communication wiring,
in Fig.18 - the longitudinal elements of adjacent rows of the hollow block are made equally high or uneven.

 Prefabricated building structure includes at least two rows of longitudinal elements 1 and 2 (Fig.1, 2).

 Each row consists of longitudinal elements 3 and 4, 5 and 6 fastened in a vertical row (Figs. 1, 2). The longitudinal elements are interconnected in height by their upper and lower faces by any of the known methods, depending on the material from which they are made, for example, by gluing, welding, bolting, etc.

 On the upper and lower faces of each longitudinal element, at least on one side of it, for example, on the side adjacent to the inner side face of the hollow block, a longitudinal groove 7, 8 (FIG. 1) and a protrusion 9, 10 (FIG. 1 ) Two rows 1 and 2 (figure 1, 2) of the longitudinal elements are interconnected into a hollow block 11 (figure 2) using at least one connecting element 12 (figure 2) having a cross-section in the shape of a rectangle or close to him.

 On the opposite faces 13 and 14 (Fig. 2) of the connecting element 12 (Fig. 2) there are grooves 15 and protrusions 16 (Fig. 2) oriented along the block axis, which engage with the protrusions 9, 10 and the grooves 7, 8 ( figure 1) opposite longitudinal elements.

 Depending on the location of the connecting element in the hollow block, the latter can be made with one or more cavities 17 (FIG. 2), limited by the lateral faces of the longitudinal elements and one or two horizontal surfaces of the connecting element.

 Depending on the location and number of connecting elements in the hollow block, the latter may take the form of a cross section - U-shaped, H-shaped or rectangular (Fig. 1, 2).

 When combining the rows into a hollow block, the lateral longitudinal faces of the connecting element overlap the horizontal joint between the longitudinal elements in the row and in adjacent rows along their entire length, which creates strength and increases the thermal characteristics of the structure.

 In each pair of longitudinal elements, at a distance that is a multiple of the module, vertical through and / or blind holes 18 (Fig. 5) and / or grooves 19 (Fig. 14) are provided for mounting the clips therein.

 The latches can be made in the form of dowels 20 (Fig. 7) installed in the vertical holes 18 (Fig. 5) of the hollow block (in the manufacture of the block from wood) and / or in the form of vertical elements 21 (Fig. 8) having a cross section the connecting element 12 (figure 2). In the latter case, the protrusions of the elements 21 (Fig. 8) enter the vertical grooves 19 (Fig. 14).

 The connecting elements 12 (figure 5) have a length that is a multiple of the module, and are located between the vertical holes 18 (figure 5) along the entire length of the block or discretely on part of its length, mainly on the upper and / or lower faces of the block (Fig. 5 , 6). In the latter case, when two hollow blocks are conjugated in height, the area between the openings of the lower hollow block that is not filled with binding elements is filled with the connecting element of the upper block.

The upper and lower faces of the longitudinal elements are beveled from the outer side of each row of the hollow block to its inner side, i.e. to the cavity at an angle to the horizontal plane, not exceeding 0.8 ^o , mainly equal to 0.6 ^o (figa, b). Thus formed, the gap of the V-shaped or triangular transverse profile with the base facing the side of the cavity (figure 4), increases the tightness of the outer parts of the upper and lower faces and the thermal characteristics of the structure.

 The transverse dimensions of the longitudinal element 3, 5 (11, 12) of the row may exceed the transverse dimensions of the other longitudinal element of the row 4, 6 (11, 12). Such blocks can be installed in the bottom row of the structure and carry additional loads.

 In order to ensure the ligation of the vertical joints of the hollow blocks in the structure, the longitudinal elements 4, 6 (Fig.6) are shifted relative to other longitudinal elements 3, 5 (Fig.6) of the hollow block by a multiple of the module.

 The ligation of the vertical joints is also provided due to the fact that the length of the longitudinal elements 4, 6 (Fig. 9) exceeds the length of the other longitudinal elements 3, 5 (Fig. 9) by a multiple of the modulus.

 The hollow block is made with grooves (Fig. 16), protrusions (Fig. 16) and bevels for bonding with the intersecting block.

 The block can be used as a beam, or a wall element, or as a support.

 The cavity of the block can be filled with slab, or loose, or pouring insulation.

 Communication wiring can be placed in the cavity of the block (Fig. 17).

 The longitudinal elements of adjacent rows of the hollow block are made equally high or uneven (Fig. 18).

Claims (20)

 1. A prefabricated building structure made in the form of a hollow block, consisting of longitudinal elements located in vertical rows at a certain distance from each other with the formation of a cavity, longitudinal grooves and protrusions are made on the upper and / or lower faces of each of which, the longitudinal elements in each row fastened in height, and adjacent rows of longitudinal elements are interconnected by at least one connecting element having, on opposite faces, oriented along the longitudinal In the case of the block, the grooves and protrusions engaging respectively with the protrusions and grooves of the longitudinal elements of adjacent rows, and in each row at the distance from each other along the length of the block equal to the module, vertical through and / or blind holes and / or grooves for installation in fixators with the placement between them of connecting elements having a length multiple of the modulus.  2. The prefabricated structure according to claim 1, characterized in that at least two longitudinal elements are fastened in each row of the hollow block.  3. The prefabricated structure according to claim 1 or 2, characterized in that the number of rows of longitudinal elements in the hollow block is at least two.  4. The prefabricated structure according to any one of paragraphs. 1-3, characterized in that the connecting elements are placed along the entire length of the hollow block or at a distance from each other, multiple of the module.  5. The prefabricated structure according to any one of paragraphs. 1-4, characterized in that the latch is made in the form of a plug and / or element having a cross-sectional shape similar to the cross-sectional shape of the connecting element. 6. The prefabricated structure according to any one of paragraphs. 1-5, characterized in that the upper and lower faces of each longitudinal element are beveled from its outer lateral side in the hollow block to the internal at an angle to the horizontal plane, not exceeding 0.8 ^o , mainly equal to 0.6 ^o , with the formation of V- shaped gap in the horizontal junction of the hollow block and between the blocks in their connection.  7. The prefabricated structure according to any one of paragraphs. 1-6, characterized in that the connecting elements of the hollow block can be made of wood and / or metal, and / or composite, and / or polymeric materials.  8. The prefabricated structure according to any one of paragraphs. 1-6, characterized in that the longitudinal elements of the hollow block can be made of a homogeneous material, such as wood or metal, or composite, or polymeric materials.  9. The prefabricated structure according to any one of paragraphs. 1-6, characterized in that the longitudinal elements of the hollow block can be made of dissimilar materials, such as wood and / or metal, and / or composite materials, and / or polymeric materials.  10. The prefabricated structure according to any one of paragraphs. 1-9, characterized in that the transverse dimensions of the longitudinal elements of at least one row of the hollow block exceed the transverse dimensions of the longitudinal elements of the adjacent row.  11. The prefabricated structure according to any one of paragraphs. 1-9, characterized in that the transverse dimensions of the longitudinal elements of adjacent rows of the hollow block are equal.  12. The prefabricated structure according to any one of paragraphs. 1-11, characterized in that, at least in one row of the hollow block, the transverse dimensions of the longitudinal elements exceed the transverse dimensions of the other longitudinal elements.  13. The prefabricated structure according to any one of paragraphs. 1-9, characterized in that at least one outer face of the hollow block is made flat, or convex, or embossed.  14. The prefabricated structure according to any one of paragraphs. 1-13, characterized in that at least one longitudinal element of the row of the hollow block is shifted relative to another longitudinal element of this row along the length of the hollow block by an amount multiple of the module.  15. The prefabricated structure according to any one of paragraphs. 1-14, characterized in that the length of at least one longitudinal element of a row of a hollow block exceeds the length of another longitudinal element of the same row of a hollow block by an amount multiple of the module.  16. The prefabricated structure according to any one of paragraphs. 1-15, characterized in that the hollow block is made with holes, grooves, protrusions and bevels for bonding with the intersecting hollow block.  17. The prefabricated structure according to any one of paragraphs. 1-16, characterized in that at least one block can be used as an element of a wall and / or beam, and / or support.  18. The prefabricated structure according to any one of paragraphs. 1-17, characterized in that the cavity of the block is filled with slab or bulk, or filling insulation.  19. The prefabricated structure according to any one of paragraphs. 1-18, characterized in that the communication wiring is located in the cavity of the block.  20. The prefabricated structure according to any one of paragraphs. 1-19, characterized in that the longitudinal elements of adjacent rows of the hollow block are made equally high or uneven.

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