RU2100536C1 - Building component - Google Patents

Abstract

FIELD: low-storeyed house building. SUBSTANCE: in the known building component, using course and corner building blocks laid one on the other with bonding of the vertical joints and furnished with vertical aligned openings which accommodate inserts with intersection of joints between the block courses, it is offered to make pairs of grooves on the side of each conjugate face of the building blocks passing in parallel with the respective joint for placement of joints with overlapping of joints between all conjugate faces of the blocks. The length of each insert placed with intersection of joints between the block courses does not exceed the height of the building block. In the corner building blocks it is offered to make at least two pairs of grooves intersecting at a right angle on the side of each face. The surfaces of non-conjugate faces of the building blocks may have a decorative finish. The building blocks may be made of cuts of logs or cant. EFFECT: reduced labour content and enhanced adaptability to manufacture at a high leak-proofness. 5 cl, 9 dwg

Description

 The invention relates to construction and can be used in low-rise housing construction.

 Known building construction wall reflection (ed. St. USSR N 338611, class E 04 B 2/02, 1972), which includes laid in rows on top of each other and corner blocks with vertical coaxial holes in which the liners are placed.

 The closest analogues of the invention is the building structure of the wall fencing (ed. St. USSR N 1784723, class E 04 C 2/12, 1992).

 The design includes angled and ordinary blocks stacked in rows on top of each other with vertical coaxial holes in which the liners are placed. The ends of the blocks are made with samples, the blocks themselves are placed with dressing of the seams, and the inserts are placed with the intersection of the seams between the rows of blocks and the seam between the samples, while some of the inserts are made in the form of cords.

 The first drawback of the above structures is the complexity of the shape of the blocks, which increases the complexity of their manufacture, and also does not allow to combine the process of manufacturing blocks of wood with the stage of harvesting raw materials, and the second drawback is the low thermal insulation properties of the structure, which necessitate the use of traditional sealing systems - insulation of joints using moss and tow, which necessitates the stage of subsequent finishing and thereby reduces manufacturability and increases labor-intensive the manufacture of the structure as a whole.

 The invention is aimed at solving the problem of reducing the complexity of manufacturing a building structure and obtaining the possibility of combining the processes of manufacturing blocks of wood with the process of harvesting raw materials by simplifying the shape of its constituent blocks, as well as the task of increasing the tightness of joints and improving the thermal insulation properties of the building structure, which eliminates, if necessary , the stage of finishing the structure due to the finishing of the blocks themselves during their production.

 The essence of the invention lies in the fact that in a building structure containing ordinary and angular building blocks stacked on top of each other with dressing of seams, provided with vertical coaxial holes in which the inserts are placed with the intersection of the seams between the rows of blocks, it is proposed on the side of each of the mating faces of the building blocks make pairs of grooves running parallel to the corresponding seam to place flat insert elements with overlapping seams between all the mating faces of the blocks. At the same time, in the corner blocks, it is proposed that at least two pairs of grooves intersecting at right angles be made from the side of each face mating with the block of the adjacent row. The length of each of the inserts placed with the intersection of the seams between the rows may not exceed the height of the block.

 Building blocks can be made, for example, from segments of the corresponding length of logs or beams.

 Non-mating surfaces of building blocks can be made with decorative finishes.

 Simplification of the shape of the blocks and the execution on the side of each of the mating faces of the blocks of a pair of grooves running parallel to the corresponding seam to accommodate inserts with overlapping seams between all mating faces of the blocks ensures tightness and thermal insulation of the joints of the building structure and eliminates the use of seals such as tow and moss, which if necessary, eliminates the finishing step, thereby increasing manufacturability and reducing the complexity of manufacturing both the blocks themselves and the entire building For instructions.

 The implementation in the corner building blocks from the side of each face that mates with the block of the adjacent row, at least two pairs of grooves that intersect mainly at a right angle, makes it possible to pair the building blocks at an angle to each other, as well as crosswise.

 The implementation of each of the liners placed with the intersection of the joints between the rows, the length not exceeding the height of the building block, allows you to place the liner simultaneously in two vertically adjacent blocks, which ensures rigidity and at the same time simplifies its installation and dismantling.

 The possibility of manufacturing building blocks from log segments allows you to reduce the cost of the manufacturing process of building blocks, firstly, due to the possibility of using curved tree trunks, and secondly, due to the cheaper process of harvesting them.

 The implementation of the mating faces of the blocks with decorative finishes contributes to the exclusion of the finishing stage of the building structure.

 In FIG. 1 shows a building structure; in FIG. 2 and 3 show embodiments of ordinary blocks; in FIG. 4 and 5 embodiments of corner blocks; in FIG. 6 shows embodiments of inserts; in FIG. 7 and 8 are perspective views of the row and corner blocks used in the corner joint, respectively; in FIG. 9 shows the angular connection of ordinary and corner blocks.

 The building structure (Fig. 1) includes ordinary blocks 1 and 2 and corner blocks 3, which interact with ordinary blocks 1 of the front and adjacent walls. Blocks 1 3 are laid with ligation of vertical joints, i.e. the vertical joints of the joints of two adjacent blocks of the same row are overlapped above and below by two blocks of adjacent rows.

 Each of the building blocks 1 to 3 interacts with the blocks of adjacent rows using inserts 4, and with neighboring vertical and horizontal blocks also through inserts 5.

 In FIG. 2 shows one of the possible options for the implementation of an ordinary block using the example of block 1, the length L of which is two times its width l. In block 1, two through vertical holes 6 are made, designed to accommodate the liners 4. The centers of the holes 6 pass through the intersection points of the diagonals of squares built on the faces of the block lying in horizontal planes. The diameter of the holes 6 corresponds to the diameter of the liners 4.

 On the side of each of the mating faces of block 1, passing in horizontal planes, a pair of longitudinal grooves 7 is made, and on the side of each of the mating faces of block 1, passing in vertical planes, a pair of vertical grooves 8. The grooves 7 are small (within 0 , 1 0.2 from l) the distance from the edge of the face. The depth of the grooves 7 is (0.1 0.2 of the block height), and the width is twice the thickness k of the insert 5. The grooves 8 extend at the same distance from the edge of the face as the grooves 7. The width of the grooves is k, and the depth can be equal to the depth of the grooves 7.

 In FIG. 3 shows another embodiment of a row block using the example of row block 2. The length of block 2 is equal to its width l. In block 2, there is one through vertical hole 6, the center of which passes through the intersection of the diagonals of a square built on the faces of the block lying in the horizontal plane. In block 2, the same grooves 7 and 8 are made as in block 1. Block 2 can be used, for example, if it is necessary to form a window or doorway in the building structure.

 In FIG. 4 depicts one of the possible variants of the implementation of the corner block on the example of the corner block 3, the length L of which is two times its width l. In block 3, through holes 6 are made the same as in block 1, and the grooves 7 of the corresponding grooves of block 1 are two times and further from the edge by the thickness k of the insert, since in these grooves there is one insert 5. In block 3 on the side of the faces mating with the blocks of the upper and lower rows and lying in horizontal planes, two pairs of grooves 9 are made, intersecting with the grooves 7 at right angles. In addition, in block 9, the second pair of grooves 8 is located, in contrast to block 1, on the side of the front face lying in a vertical plane. The grooves 9 are located at the same distance from the center of one of the holes 6, equal to the distance from the center of this hole to the grooves 7, which provides the necessary coordination when docking with an adjacent block of the row. The width and depth of the grooves 9 are similar to the width and depth of the grooves 7. Block 3 is used to form an angular connection of the walls in a building structure.

 In FIG. 5 shows another embodiment of the corner block using the example of corner block 10, the length m of which is three times its width l. In block 10 there are three through holes 6, similar to the same through holes 6 in blocks 1 and 3, and the same grooves 7 and 9, as in the corner block 3. The grooves 8 are made in all four vertical planes of the block 10. The grooves 9 are located on both sides of the center of the middle hole 6, similarly to the corresponding grooves of block 3. Block 10 can be used if necessary to form a cross connection of the walls of the building structure, or to form partitions, i.e. for docking walls.

 In FIG. 6 shows embodiments of inserts for the example of insert 5 (Fig. 6, a), designed to overlap vertical and horizontal seams when connecting blocks 1, insert 5 (Fig. 6, b), designed to overlap horizontal seams when connecting blocks 1 to blocks 10. The height of the inserts 5 lies in the range from 1.5 to 2.0 of the depth of the grooves, which is constant for all blocks, and their length should ensure the tightness of the corresponding seam and depends on the size of the mating blocks and the type of wall connection. The thickness k of the inserts 5 is a constant value and is determined, for example, by the thickness used for their manufacture of plywood or other material.

 The inserts 5 shown in FIG. 6b, are made with slots 11 so that when these inserts are located in the grooves 7, the slots 11 coincide with the grooves 9.

 In FIG. 9 shows a variant of connecting the walls of a building structure using the example of connecting ordinary blocks 1 and corner blocks 3, the appearance of which is shown in FIG. 7 and 8, respectively. This option is used to assemble the corner joint of the walls of a building structure. From FIG. Figure 9 shows that the idea of angularly connecting the walls consists in sequentially alternating blocks 1 and 3. If block 1 is in the bottom row, then block 3 is on top and vice versa. Similarly, using corner blocks 10, you can get a cross connection of the walls or the joining of one wall to another (not shown, but obvious).

 Installation of building structures is as follows.

 Row blocks 1 and corner blocks 3 are stacked in horizontal rows with ligation of vertical joints. The liners 4 are installed in the vertical holes of the blocks 6 so that the liners 4 are located half in the upper, half in the lower block, which ensures rigidity. Sealing inserts 5 are located in the grooves of the blocks 1 and 3, while in the vertically arranged grooves 8, one insert 5 is placed, in the horizontally located grooves 7 and 9, two and one insert 5, respectively, as shown in FIG. 9. This arrangement of the inserts allows you to seal the seams between the mating blocks and provides the necessary thermal insulation of the structure due to the formation of an air gap between the inserts and the mating surfaces of the blocks, and also improves the rigidity of the structure. In the area of the window and door openings, which are formed using blocks 1 and 2, structural rigidity is achieved by inserts 4 protruding from above and below, on which door jambs and window blocks sit during assembly. The tightness of the joints of walls and jambs, walls and window units is ensured by inserts 5 located around the perimeter of the door or window opening. Installation of jambs and window blocks is carried out during the assembly of walls.

 From the above it can be seen that the installation of the proposed building structure is simple, technologically advanced, time-consuming and does not require special qualifications of assemblers.

 Due to the small size of the blocks, for example 15x15x45 cm, it is possible to use even sections of tree trunks, for example, 50 cm long, that are processed on machines of low power, which allows you to place these machines in small rooms, and if necessary create mobile workshops, for example on the car chassis and use them in the right places.

 In addition, the small sizes of the blocks allow them to be decorative (final) processing, which, together with the use of sealing inserts, allows to completely or partially eliminate the stage of finishing the building structure after its installation.

 The procurement of raw materials for this building construction compares favorably with the procurement of raw materials for other structures in that it is possible to use cheap wood without compromising the quality of the building structure due to the possibility of drying the blocks in small microwave or UHF ovens, due to their small size. In addition, the procurement of raw materials can be done without the use of specials. machinery such as loaders, skidders, etc.

Claims (5)

 1. A building structure comprising ordinary and angular building blocks stacked on top of each other with dressing of vertical seams, provided with vertical coaxial holes in which the inserts are placed with the intersection of the seams between the rows of blocks, characterized in that on the side of each of the mating faces of the building blocks are made grooves running parallel to the corresponding seam, for placing flat insert elements with overlapping seams between all the mating faces of the blocks.  2. The construction according to claim 1, characterized in that the length of each of the liners placed with the intersection of the seams between the rows of blocks does not exceed the height of the building block.  3. The construction according to claim 1 or 2, characterized in that at least two pairs of grooves intersecting at right angles are made in the corner building blocks from the side of each face mating with the block of the adjacent row.  4. Design according to any one of claims 1 to 3, characterized in that the surfaces of the mating faces of the building blocks are made with decorative finishes.  5. The construction according to any one of claims 1 to 4, characterized in that the building blocks are made of pieces of logs or timber.

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