RU67127U1 - SYSTEM OF CONNECTION OF ELEMENTS OF A SPACE BUILDING FRAME - Google Patents

Abstract

The technical solution relates to the construction, namely: to the nodes of the connection of the wooden elements of the frame of the building during the construction of low-rise buildings. The purpose of the claimed technical solution is to simplify and accelerate the assembly of the building, increase the strength of the nodal connection of the building frame and the bearing capacity of the frame. The goal is achieved in that in the system of connecting the elements of the spatial frame of the building, consisting of a node connecting the rack to the beams, including a connecting element fixed to the rack and beams, in the node connecting the rack to the beams, one beam is made in the form of a supporting screed with grooves for installing the racks, and the other in the form of a floor beam, and the stand, supporting screed and floor beam are made of the same size board, and the connecting element of the node is made in the form of a welded structure from two corners of a U-shaped profile, laid mirror to each other in the same plane at a distance from each other, equal to the thickness of the support screed and the U-shaped plate welded at the end to the corners and provided with an open groove from the side adjacent to the corners to accommodate the support screed, both horizontal and vertical the shelves of the corners and on the plate are made holes for bolting them, respectively, to the supporting screeds, racks and the floor beam, and the system additionally contains a node for the angular connection of the racks longitudinal and transverse walls, including an angular connecting element, made in the form of three elements: two corners of a U-shaped profile with holes for mounting one on the rack and the supporting screed of the end wall and the other for mounting on the rack and supporting screed of the longitudinal wall and the element in the form of a welded structure from two corners of the L-shaped profile, the vertical shelves of which are placed at right angles to each other with the possibility of simultaneously fixing them on the racks of the longitudinal and end walls, and the horizontal shelves are rigidly connected along the slice and provided with holes for bolting on stacked in a corner of the frame supporting screeds longitudinal and transverse walls.

Description

The technical solution relates to the construction, namely: to the nodes of the connection of the wooden elements of the frame of the building during the construction of low-rise buildings.

A nodal connection of the rods of the spatial frame is known, including a connecting element (core) in the form of a hexahedron with holes on the faces and bolted ends of the rods located at an angle of 90 ° in three mutually perpendicular planes. The core is hollow, at least without one face, and the side faces are provided with slots open to the side of the missing faces (see., SU, No. 1753953, MKI-5, Е04В 1/38, 1/58).

A disadvantage of the known technical solution is the complexity of the connection element.

A butt joint of a beam with a building element - a pillar, made of wood and having slots at the ends, is known, comprising a connecting plate fixed in the slot of a beam with a downward L-shaped protrusion of a rectangular shape at the end that extends beyond the protrusion of a support element mounted in grooves on the rack, in contact with the beam (see p. SU, No. 908253, MPK-3, EV 1/38).

The disadvantages of the known technical solutions are the high requirements for the strength of the end parts of the beams and racks, made with slots for installing connecting elements, weakening the bearing capacity of the frame elements, in addition, the complexity of the configuration of the connecting element, making them difficult to manufacture.

The closest technical solution to the claimed is a system of connecting the elements of the spatial frame of the building, including the nodes of the racks with horizontal and inclined beams, in which the vertical column contains slots orthogonally located in its body with connecting plates inserted into them, made in the form of flat rectangles, in which at least one of the corners is cut off, and holes for retainers are made in each of the remaining corners of the plate. Slots are formed in horizontal and inclined beams at their places of contact with the uprights, each of which has one of the corners of the connecting plate mounted in the beam by means of a horizontal clamp passed through the through channel formed in the beam and through the holes in the corner of the connecting plate (see ., RU, No. 2109113, MPK-6 Е04В 1/58, ЕВВ 1/26).

The disadvantages of the known technical solutions are: low bearing capacity of the attachment point of the beam with the rack, insufficient strength of the end part of the rack, weakened by the grooves to accommodate the connecting plates; in addition, the complexity and complexity of performing blind grooves in the beams for placement of the connecting element.

The purpose of the claimed technical solution is to simplify and accelerate the assembly of the building, increase the strength of the nodal connection of the building frame and the bearing capacity of the frame.

The goal is achieved in that in the system of connecting the elements of the spatial frame of the building, consisting of a node connecting the rack to the beams, including a connecting element fixed to the rack and beams, in the node connecting the rack to the beams, one beam is made in the form of a supporting screed with grooves for installing the racks, and the other in the form of a floor beam, and the stand, supporting screed and floor beam are made of the same size board, and the connecting element of the node is made in the form of a welded structure from two corners of a U-shaped profile, laid mirror to each other in the same plane at a distance from each other, equal to the thickness of the support screed and the U-shaped plate welded at the end to the corners and provided with an open groove from the side adjacent to the corners to accommodate the support screed, both horizontal and vertical the shelves of the corners and on the plate are made holes for bolting them, respectively, to the supporting screeds, racks and the floor beam, and the system further comprises a node for the angular connection of the racks longitudinal and transverse walls, including an angular connecting element, made in the form of three elements: two corners of a U-shaped profile with holes for mounting one on the rack and the supporting screed of the end wall and the other for mounting on the rack and supporting screed of the longitudinal wall and the element in the form of a welded structure from two corners of the L-shaped profile, the vertical shelves of which are placed at right angles to each other with the possibility of simultaneously fixing them on the racks of the longitudinal and end walls, and the horizontal shelves are rigidly connected along the slice y and are equipped with holes for bolting on the supporting couplers of the longitudinal and transverse walls joined in the corner of the frame.

The use of unified wooden elements as well as unified metal parts as frame elements provides the possibility of simplified and accelerated assembly of frame low-rise buildings.

In addition, the use in the nodes of the connection between the rack and the beams of the connecting element in the form of a welded structure made of hardened due to the U-shaped profile

corners and a reinforced plate of a U-shaped section, providing bolt fastening of frame elements in three directions, as well as the use of the angles of the U-shaped profile and the welded structure from the corners reinforced with an L-shaped profile for bolted in the node of the angular connection of the racks of the longitudinal and end walls fastenings, increases the strength of the nodal joints of the frame and the bearing capacity of the frame.

Figure 1 - The connecting element of the node connecting racks with beams (two projections).

Figure 2 - Connecting element of the node connecting racks with beams (view in isometric view).

Figure 3 - Installation of the connecting element of the frame in the middle part of the longitudinal wall on the 1st floor, in the interfloor connection, attic connection (left side view). The same is in the middle part of the end wall (right view).

Figure 4 - Welded construction from two corners of the L-shaped profile of the corner connecting element for connecting the racks of the end and longitudinal walls.

Figure 5 - The same (isometric view).

Figure 6 - Installation of an angular connecting element (plan view).

Figure 7 - Installation of the connecting element on the end wall of the first floor of the building and on the longitudinal wall of the interfloor connection, installation of the corner connecting element.

The system of connecting the elements of the spatial frame of the building consists of a node connecting the rack 1 to the beams in the form of a support screed 2 and the floor beam 3 using a connecting element, the rack, support screed and floor beam made of the same size board, for example 50 × 200 mm. On the supporting screed 2, grooves 4 are made for installing the uprights 1. On the racks 1, grooves 5 are made to accommodate the floor beams 3 and a groove for accommodating the element 6 in the form of a bar for fixing the casing forming the inner wall. The connecting element of the assembly is made in the form of a welded structure, consisting of two corners 7 of the U-shaped profile, located mirror-to-one to another, in the same plane at a distance from each other, equal to the thickness of the support tie 2. A plate 8 is welded perpendicularly to the corners 7 U-shaped profile. Holes 9 are made on the shelves of the corners 7 for bolting it to the posts 1 and 10 for bolting it to the support screed 2. In addition, an open groove 11 is made on the plate 8 adjacent to the corners 7 to accommodate the support screed 2. The system also contains a node for the angular connection of the uprights 1 of the longitudinal and end walls, including an angular connecting element consisting of three elements: two corners 7 of a U-shaped profile with holes on the shelves for

bolt fastening of one corner 7 on the rack 1 and the supporting coupler 2 of the end wall, and the other on the rack 1 and the supporting coupler 2 of the longitudinal wall and the welded structure from two corners 12, 13 of the L-shaped profile, the vertical shelves of which are placed at right angles to each other to a friend with the possibility of simultaneous bolting on racks 1 of the longitudinal and end walls. The other two shelves of corners 12 and 13 are rigidly connected along the slice by welding and have holes for bolt fastening on the supporting ties 2 of the longitudinal and end walls joined in the corner of the frame.

The system of connecting the elements of the spatial frame of the building is used as follows.

On the foundation around its perimeter are placed supporting screeds 2 of two end walls and two longitudinal walls of the building. In the grooves 4 of the supporting screeds 2, racks 1 are sequentially installed, starting from the angular racks of the end and longitudinal walls, while the racks 1 of the corner connection node with the corners 7 of the angular connecting element on one side are bolted to the supporting screeds 2 of the end and longitudinal walls, and with the other side of the strut 1 through bolts is fastened with a welded structure from the L-shaped corners 12, 13, fixing it simultaneously on the struts 1 and on the supporting ties 2 of the end and longitudinal walls joined in the corner of the frame. When installing the following uprights 1 from the corner of the frame into the grooves 4 of the supporting screeds 2 of the longitudinal walls, use the connecting element of the node connecting the rack with beams. The connecting element is installed so that the supporting screed 2 of the longitudinal wall is located between the corners 7 of the U-shaped profile and in the groove 11 of the plate 8. The vertical shelves of the corners 7 are fastened with bolts to the vertical rack and foundation, and the plate 8 to the floor beam 3, installed in the groove 5 of the rack 1.

When interfloor connection of frame elements, starting from the second rack 1 of the longitudinal wall, use the connecting element of the node connecting the rack with beams, while the vertical shelves of the corners 7 of the U-shaped profile are bolted to the racks 1 of the first and second floors, its horizontal shelves with bolts from the bottom and top mounted on the supporting screed 2, and the plate 8 is fixed on the floor beam 3, which simultaneously serves as a support for the formation of the floor of the second floor and the ceiling of the first floor. In the interfloor assembly of the angular connection of the racks of the longitudinal and transverse walls, two angular connecting elements are used, installing corners 7 and a welded structure of corners 12, 13 of the L-shaped profile on the supporting screeds from below and from above, while bolting the horizontal shelves of the corners 7 through the screed, and vertical shelves - with racks of the first and second floor. The vertical shelves of the corners 12, 13 are fixed on the racks of the first and second floors, and the horizontal shelves are bolted together

connection through the floor screed.

The system of connecting the elements of the spatial frame of the building, which provides an accelerated and simplified assembly of the building through the use of standardized frame parts and fasteners, will find industrial application.

Claims (1)

The system of connecting the elements of the spatial frame of the building, consisting of a node connecting the rack to the beams, including a connecting element fixed to the rack and beams, characterized in that in the node connecting the rack to the beams, one beam is made in the form of a supporting screed with grooves for installing the racks, and the other - in the form of a floor beam, and the stand, supporting screed and floor beam are made of boards of the same size, and the connecting element of the node is made in the form of a welded structure from two corners of a U-shaped profile, located They are mirrored to each other in the same plane at a distance from each other, equal to the thickness of the support screed and the U-shaped plate, welded at the end to the corners and provided with an open groove from the side adjacent to the corners to accommodate the support screed, while on horizontal and the vertical shelves of the corners and on the plate are made holes for bolting them, respectively, to the supporting screeds, racks and floor beam, and the system further comprises an assembly of angular joints of the racks of the longitudinal and transverse walls, including an angular connecting element made in the form of three elements: two corners of a U-shaped profile with holes for fastening one on the rack and the supporting screed of the end wall and the other for mounting on the rack and the supporting screed of the longitudinal wall and the element in the form of a welded structure of two corners of the L-shaped profile, the vertical shelves of which are placed at right angles to each other with the possibility of simultaneously fixing them on the racks of the longitudinal and end walls, and their horizontal shelves are rigidly connected along the slice and equipped with holes for bolting on the supporting couplers of the longitudinal and transverse walls docked in the corner of the frame.