RU65525U1 - CONSTRUCTION ASSEMBLY - Google Patents

Abstract

A building construction unit containing a supporting rod on which the brace rod is supported, and butt plates, differs in that it contains an additional brace, while the brace rods are joined at an angle to each other, and the cross-section of the brace rods is provided with an I-beam profile, the wall of which is made of the plywood plate, and the shelves are made in the form of bars fixed along its longitudinal edges, while in the section of the supporting rod two plywood plates are used, placed with a gap equal to the thickness of the plate used in the design of the brace rods, moreover, the shelves of the supporting rod, are made in the form of bars fixed along the longitudinal edges of the plates on both sides, while the thickness of the bars fixed in the gap between the plates corresponds to the thickness of the plywood used for the manufacture of braces , the plywood plates of the bearing rod are fastened to each other by means of transverse stiffeners placed in the gap, in addition, the joint of the plywood plates of the brace rods is placed in the gap between the plates of the plywood of the bearing rod, and whether the corresponding sections of the shelves, while the ends of the remaining sections of the shelves of the braces are abutted against the surface of the shelves of the supporting rod, and, in the gap between the plates of the plywood of the supporting rod, in contact with the longitudinal edges of the walls of the braces are placed liners made from plywood equal to the thickness of such plates, in addition, over the joint section of the brace rods on the outer surface of the plates of the plywood of the supporting rod, there are butt pads made of plywood corresponding to the thickness of such plates n, wherein, the joint portion area fishplates and the entire thickness of the portion stitched with clamping elements, such as screws. In addition, the brace rods are placed symmetrically with respect to the perpendicular to the supporting rod. In addition, the unit is equipped with an additional butt plate made of material, the tensile strength of which is higher than that of the material

rods fixed on the outside of their joint, experiencing tensile loads. In addition, the butt pads and the corresponding plates at the junction are additionally bonded with glue. In addition, the joint is provided with a thrust, preferably vertical, for example made of metal. The use of the claimed device provides the ability to effectively use the structure when forming the frame (with high strength and high rigidity of the node connecting the rods). In addition, the most efficient use of the material of construction, i.e. a combination of minimizing its material consumption with increased bearing capacity. 4 s.p. f-ly, 3 ill.

Description

The utility model relates to construction and can be used in the manufacture of wooden arches, frames and trusses.

Known building construction site, including the upper and lower rods, connected at an angle on the frontal cutting. To increase the bearing capacity of the connection unit, pads are used that are installed on both sides of the unit and attached to both rods. Pads can be made of either steel or wood. The fastening of the linings can be done with coupling bolts, nails or spikes formed by the liner itself (see Atlas of wooden structures, K.G. Getz et al., M., S / I. 1985, p. 182).

The disadvantage of this device is the large number of pins in both rods, which reduces their bearing capacity, reducing the net cross-sectional area.

There is also a knot of a building structure containing a supporting rod on which the rod-brace is supported, and butt plates (see RU 2179613, marking Е04С 3/12, Е04В 1/58, 2002).

The disadvantage of the described prototype is the significant weight of the structure and the unsatisfactory use of the material of the rods from the standpoint of strength - a low ratio of the magnitude of the bearing load to the cross-sectional area of the rods and the inevitable decrease in the strength of the bearing rod into which the first rod is "cut", which reduces the bearing capacity of the node.

The technical problem to be solved is the provision of high load-bearing capacity of the rod structure assembly.

The technical result obtained by solving the problem is expressed in providing the possibility of efficient use of the structure during the formation of the frame (with high strength and high rigidity of the node connecting the rods). Also provided

the most efficient use of construction material, i.e. a combination of minimizing its material consumption with increased bearing capacity.

To solve this problem, the node of the building structure, containing the supporting rod on which the rod-brace is supported, and butt plates, differs in that it contains an additional brace, while the brace rods are joined at an angle to each other, and the cross-section of the brace rods is attached with an I-beam profile , the wall of which is made of, plywood plates, and the shelves are made in the form of bars fixed along its longitudinal edges, while two plywood plates placed with a gap equal to the thickness are used in the section of the supporting rod the plate plate used in the construction of the brace rods, moreover, the shelves of the supporting rod are made in the form of bars fixed along the longitudinal edges of the plates on both sides, while the thickness of the bars fixed in the gap between the plates corresponds to the thickness of the plywood used for the manufacture of rods braces, in addition, the plywood plates of the supporting rod are fastened to each other by means of transverse stiffeners placed in the gap, in addition, the joint of the plywood plates of the braces is placed in the gap between the plates the plywood of the bearing rod and is deprived of the corresponding sections of the shelves, while the ends of the remaining sections of the shelves of the braces are abutted against the surface of the shelves of the bearing rod facing them, moreover, in the gap between the plates of the plywood of the bearing rod, in contact with the longitudinal edges of the walls of the braces liners made of plywood equal to the thickness of such plates are placed, in addition, over the joint section of the rods-braces on the outer surface of the plates of the plywood of the supporting rod are placed butt pads made of plywood respectively etstvuyuschey thickness of such plates, wherein, the joint portion area fishplates and the entire thickness of the portion stitched with clamping elements, such as screws. In addition, the brace rods are placed symmetrically with respect to

perpendicular to the supporting rod. In addition, the unit is equipped with an additional butt plate made of material, the tensile strength of which is higher than that of the material of the rods, fixed on the outside of their joint, experiencing tensile loads. In addition, the butt pads and the corresponding plates at the junction are additionally bonded with glue. In addition, the joint is provided with a thrust, preferably vertical, for example made of metal.

A comparative analysis of the features of the claimed solution with the signs of the prototype and analogues indicates the conformity of the claimed solution to the criterion of "novelty."

The features of the utility model formula solve the claimed technical problem and provide high load-bearing capacity of the building structure unit.

Figure 1 schematically shows a longitudinal section of a node; figure 2 schematically shows a bottom view (additional butt pad is not shown); figure 3 schematically shows a side view.

The drawings show the bearing rod 1, the brace rods 2 (structurally, both brace rods are identical and joined at an angle to each other, preferably symmetrically, relative to the perpendicular to the bearing rod) The cross-section of the rods 1 and 2 is given a profile of an I-beam, the wall of which is made of , plates 3 plywood, and the shelves are made in the form of bars 4 and 5 (the latter are fixed in the gap between the plates 3, and their thickness corresponds to the thickness of the plywood used for the manufacture of plates). Elements 4 and 5 are fixed along the longitudinal edges of the plates 3, in this case, in the section of the supporting rod 1, the number of plywood plates 3 is one more than the number of plywood plates 3 used in the construction of the brace rods 2, and these plates are placed with a gap 6 of equal thickness the plates used in the construction of the brace rods 2, in addition, if the structure of the rods is at least two plywood plates, they are fastened to each other by means of transverse ribs

stiffness 7, placed in the gaps 6, in addition, the joint 8 of the plywood plates 3 of the brace rods 2 is passed through the gap 6 between the plywood plates of the carrier rod 1 and is deprived of the corresponding sections of the shelves, while the ends 9 of the remaining sections of the shelves of the braces of the braces 2 are abutted in the surface 10 of the shelf of the supporting rod 1 facing them, the joint area, by the area of the junction of the brace rods 2 passed through the gap between the plates of plywood 3 of the supporting rod 1 and the entire thickness of this section, is sewn with tie elements 11, for example, screws. If it is necessary to increase the rigidity of the node, then over the joint area of the brace rods 2 on the outer surface of the plywood plates of the supporting rod 1 can be placed butt pads 12 and liners 13 made of plywood corresponding to the thickness of such plates, while the joint area reinforced by the coupling elements 11 is determined the area of the butt plates 12. The node is equipped with an additional butt plate 14 made of material whose tensile strength is higher than that of the material of the rods fixed on the outside of their joint, experiencing tensile loads. The liners 13, the butt pads 12 and the corresponding plates 3 in the joint section are additionally bonded with glue (not shown in the drawings). A through hole is made in the junction plane (not shown in the drawings), with the possibility of placing and fixing the rod 15, for example, made of metal.

The rods are made by gluing in the factory on stands of known design, providing a given fixation of its elements and their corresponding compression during the curing of the glue. For the manufacture of longitudinal bars 4 and 5 and transverse stiffeners 7, wood of at least grade 2 softwood (except for larch) is used according to GOST 8486-86 with dimensions according to GOST 24454-80, with the corresponding design characteristics according to SNiP P-25- 80. The quantitative parameters of defects in the shape and processing of parts (warping, deviation from parallelism of the plates and edges, and a fling) should not exceed the allowable

for lumber of the 2nd grade. Through cracks extending to the end face are not allowed. Rotted, rotten and tobacco knots, as well as non-grown knots located on the edges, are not allowed.

Bars 4 and 5 of the shelves of the rods are glued along the length using gear joints in accordance with GOST 19414-90. Indicators of ultimate flexural strength of gear joints should not be lower than:

- when loading the edge (about 33 MPa and not lower than 24 MPa);

- when loading the reservoir (about 37.5 MPa and not lower than 27 MPa).

For the manufacture of plates 3 and also, if necessary, transverse stiffeners 7 and bars 5, plywood of the FSF grade of a grade of at least V / BB according to GOST 3916.1-89 with a thickness of 8 and 10 mm is used.

The transverse stiffeners 7 are placed along the length of the beam at a distance from each other "in dangerous for destruction" sections of the beam, determined by calculation for specific conditions (which is most appropriate), taking into account the "compatibility" of the plates or set this distance for technological reasons based on minimum number of stiffeners providing "compatibility" of the plates.

Adhesive joints in structures should be performed on synthetic adhesives that meet the requirements of SNiP P-25-80. In this case, adhesive joints must satisfy the following requirements:

- the moisture content of the wood of the beam parts before processing with protective compounds should be (12 ± 3)%;

- beams for the quality of adhesive joints must meet the requirements of GOST 20850-84;

- the thickness and width of the glued layers in the girder belts should deviate from the nominal not more than ± 1 mm;

- the thickness of the adhesive layers in the structural elements should be no more than 0.5 mm. Areas with a thickness of up to 1 mm are allowed if their length does not exceed 100 mm, and the distance between them is not less than ten times the length of these layers;

- non-glued areas are not allowed.

Finished structures, if necessary, are subjected to protective and / or decorative processing, to protect them from moisture, biodeterioration, fire and chemical corrosion, as well as giving them the necessary aesthetic appearance. These works are performed at the manufacturer. Protection is possible both from one and from a complex of these effects, which is regulated by the operating conditions of structures. At the same time, beams for buildings of the V degree of fire resistance must be protected from biodegradation for a period of uninterrupted service of 50 years, for - parts of the VIII class of service conditions - according to GOST 20022.2-80; the wood of beams for buildings of the IV degree of fire resistance should be protected from biodegradation and fire by deep impregnation with diammonium phosphate (ammonium phosphate) with ammonium sulfate, borax with boric acid in a ratio of 1: 1 or other protective compounds with similar properties.

Finished products are packaged and sent to the consumer.

The formation of the node includes filing the ends of the brace rods 2 at a given angle, and removing sections of the bars 4 and 5 from the section of their joint introduced into the supporting rod 1, as well as the preparation of liners 13 and linings 12.

Next, the assembly of the assembly is carried out - the bars are laid to one side on a flat surface, joined together and the “plates” of their joint are “inserted” into the gap between the plates 3 of the supporting rod 1. At the end of this operation, the ends 9 of the remaining sections of the shelves of the braces 2 will be abutted facing towards them the surface 10 of the shelf of the supporting rod 1. If necessary, inserts 13 are inserted into the gaps 6 of the rod 1, and on the outer surfaces of the plates 3 are placed pads 12 (glue is applied on their respective surfaces and / or surfaces of the plates 3 (synthetic s corresponding SNP P-25-80). Further, the area within the pads 12 provide a compressive force perpendicular to their outer surface,

after which a “package” including plates 3 and linings 12 and inserts 13 is “stitched” to the entire thickness with tie elements, for example, screws, which are evenly distributed over the entire joint area. Next, the joint is strengthened by the placement and fixing with screws of an additional butt plate 14, on the outside of the joint of the rods experiencing tensile loads. Then, if it is provided by the project, thrust 15 is passed through the assembly in a known manner and fixed.

It is advisable to carry out the assembly operation of the unit in the factory. After completing the truss assembly, including the claimed node, it is used to form the roof frame of the building. Moreover, this process differs from conventional technologies, except for the need to use powerful lifting equipment due to the low weight of the frame.

In the process of perception by the node of structural loads, its elements ensure the operation of the frame as a whole.

In addition, by varying the number of plates and stiffeners in the structure, it is possible to vary the bearing capacity of the structure over a wide range (while maintaining the constant width of the plates - i.e., the height of the profile wall).

Claims (5)

1. The node of the building structure, containing the supporting rod, on which the rod-brace is supported, and butt plates, characterized in that it contains an additional brace, while the brace rods are joined at an angle to each other, and the cross-section of the brace rods is given a I-beam profile, the wall of which is made of a plywood plate, and the shelves are made in the form of bars fixed along its longitudinal edges, while in the section of the bearing rod two plywood plates are used, placed with a gap equal to the thickness of the plate, used in the design of the braces, the shelves of the supporting rod are made in the form of bars fixed along the longitudinal edges of the plates on both sides, while the thickness of the bars fixed in the gap between the plates corresponds to the thickness of the plywood used for the manufacture of braces the plywood plates of the bearing rod are fastened to each other by means of transverse stiffeners placed in the gap, in addition, the joint of the plywood plates of the brace rods is placed in the gap between the plates of the plywood of the bearing rod and it is deprived of the corresponding sections of the shelves, while the ends of the remaining sections of the shelves of the brace bars are abutted against the surface of the shelf of the carrier rod, and in the gap between the plates of the plywood of the bearing rod in contact with the longitudinal edges of the walls of the braces are placed liners made of plywood equal to the thickness of such plates, in addition, over the joint section of the brace rods on the outer surface of the plates of the plywood of the supporting rod, there are butt pads made of plywood corresponding to the thickness of such plates in, while a joint portion fishplates area and this portion of the entire thickness stitched clamping elements, for example screws. 2. The node according to claim 1, characterized in that the brace rods are placed symmetrically relative to the perpendicular to the supporting rod. 3. The node according to claim 1, characterized in that the node is equipped with an additional butt plate made of a material whose tensile strength is higher than that of the material of the rods fixed on the outside of their joint, experiencing tensile loads. 4. The node according to claim 1, characterized in that the butt pads and the corresponding plate in the joint section are additionally bonded with glue. 5. The node according to claim 1, characterized in that the joint is provided with a thrust, preferably vertical, for example made of metal.