RU2834618C1 - Building structure - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, namely to a building structure. Building structure comprises bearing plates, locking plates and mounting plates. Each bearing plate is made with studs located at least along one side with equal spacing, and on the opposite side symmetrically to the tenons with slots and two rows of locking holes symmetrically located along both sides of the bearing plate, wherein the holes of one of the rows are located in the tenons. Each locking plate contains along one side tenons entering each row of locking holes of bearing plates, providing their fixation when connected to each other in one plane by means of tenon-slot connection. Each mounting plate includes at least two symmetric vertical holes arranged in a row for placement in each of them of tenons of parallel mounted bearing plates, at the same time mounting plates are located between two rows of locking holes of bearing plates.

EFFECT: higher reliability of building structure.

5 cl, 11 dwg

Description

The invention relates to the field of construction, namely to the butt joint of building plates, as well as to building elements intended for the construction of formwork or frames of buildings and structures. [E04B 1/18, E04B 2/70].

The prior art discloses plywood with a tongue and groove joint and a method for manufacturing the same [CN 109227792, Published 18.01.2019], comprising a substrate and an insert substrate consisting of a panel, a supporting plate and a back plate, laid on top of each other in order, the main board is perpendicular to the direction of the fibers of the panel and the back panel, and the direction of the fibers of the main board of the receiving substrate is the same as that of the supporting plate of the insert substrate. The side end of the main plate of the receiving substrate is provided with a groove, the inner diameter of which is less than the thickness of the central plate, and the main plate of the insert support plate is made in one piece with a tongue and groove and a tongue.

Also known is a method for erecting frame structures [RU 2794487 Published 19.04.2023], characterized in that for its implementation, arches, lintels, sheathing, elements of tenon joints are made, while grooves and protrusions of tenon joints are made on the end surfaces of the arches, lintels, connectors and sheathing, after which a base is assembled on which arches are installed in rows, between which lintels are installed, which are fixed with connectors, while the said lintels are fixed between themselves and the arches using tenon joints, for which purpose the mating grooves are combined with protrusions made on the lintels and arches in the planes of the said tenon joints, then the sheathing elements are installed, for which purpose the through holes made on the sheathing are combined with the tenons made on the arches and connectors.

The closest in technical essence is a butt joint of plates of a building structure [RU 2784270, Published: 23.11.2022], having ends and edges, and containing fasteners for connecting the plates to each other, characterized in that tenons are made on the lower and upper edges of the plates along their edges, and the fasteners are made in the form of locking plates having a central groove recess into which the tenons are inserted, while the length of the groove recess of each locking plate is equal to the sum of the lengths of the tenons of adjacent building plates on the corresponding lower or upper edges, along the edges of the locking plates symmetrically relative to the longitudinal axis of symmetry, fastening holes are made for attaching the locking plates to the upper and lower edges of the plates.

The main technical problem of the analogues and the prototype is the low rigidity of the structure due to the lack of a load-bearing element that takes the load.

The objective of the invention is to eliminate the shortcomings of the prototype.

The technical result of the invention is to increase the reliability of a building structure made of building plates connected to each other by a tongue and groove joint.

The specified technical result is achieved due to the fact that the building structure is characterized by the fact that it contains bearing plates, each of which is made with tenons located at least along one side with an equal pitch, and on the opposite side with grooves symmetrically to the tenons and two rows of locking holes symmetrically located along both sides of the bearing plate, wherein the holes of one of the rows are placed in the tenons, lock plates, each of which contains tenons along one side, entering each row of locking holes of the bearing plates, ensuring their fixation when connected to each other in one plane by means of a tenon-groove connection, and mounting plates, each of which includes at least two symmetrical vertically arranged holes in a row for placing tenons of parallel-mounted bearing plates in each of them, wherein the mounting plates are located between two rows of locking holes of the bearing plates.

In particular, the distance from the edge of the bearing plate to the nearest tenon is equal to half the distance between the tenons.

In particular, the lock holes in the carrier plate are made symmetrically in two rows with the possibility of arranging the lock holes on both sides relative to the mounting plate, after its installation to the carrier plate.

In particular, the carrier plates and/or mounting plates and/or locking plates are mounted in a staggered pattern.

In particular, the bearing, mounting and locking plates are made of flat or profiled sheet.

Brief description of the drawings.

Fig. 1-2 shows variants of bearing plates for forming a corner element in a building structure.

Fig. 3 shows a variant of a supporting plate for forming an area building structure.

Fig. 4 shows the mounting plate.

Fig. 5 shows the lock plate.

Fig. 6 shows the connection of two bearing plates using a mounting plate.

Fig. 7 shows the connection of three bearing plates using a mounting plate.

Fig. 8 shows the connection of the carrier, mounting and locking plates to each other.

Fig. 9-10 show 3D models of a variant of a building structure made of four load-bearing plates.

Fig. 11 shows a 3D model of a variant of a building structure made of three load-bearing plates.

The following are indicated on the figures: 1 - carrier plate, 2 - mounting plate, 3 - lock plate, 4 - tenon, 5 - groove, 6 - lock holes, 7 - lock plate tenons, 8 - holes.

Implementation of the invention

The building structure comprises load-bearing plates 1, connected to each other in one plane, and/or parallel planes, and/or orthogonally, mounting plates 2, mating load-bearing plates 1 in one or several parallel planes, and locking plates 3 (see Fig. 11), ensuring the fixation of load-bearing plates 1, connected to each other in one plane, or the fixation of load-bearing plates 1 with mounting plates 2 when they are connected to each other.

The supporting plate 1 is a flat or profiled sheet (see Fig. 1, Fig. 2, Fig. 3), containing, at least along one of the sides, tenons 4 protruding along the plane of the sheet, made with an equal pitch and located on the opposite side of the said tenons 4 symmetrically in the grooves 5, wherein the distance from the edge of the side where the tenons are located to the nearest tenon is equal to half the pitch at which the tenons are located between themselves.

In the embodiment of the angular connection of the bearing plates 1 with each other, the grooves 5 are made in the form of openings 8 (see Fig. 1), made in the bearing plates 1 and spaced from the edge of the bearing plate 1 at a distance equal to half the thickness of the bearing plate 1 with the possibility of forming a tight (without a gap) angular connection of the bearing plates 1 with each other.

In the embodiment of the flat connection of the bearing plates 1 to each other, at the end of the bearing plate 1 (see Fig. 3, Fig. 6, Fig. 7), grooves 5 are made on the side opposite the tenons in the form of recesses located symmetrically to the tenons of the opposite side of the bearing plate 1.

In one embodiment of the flat connection (see Fig. 3) of the supporting plates 1, between the tenons 4 on one side of the supporting plate 1 and between the grooves 5 on the other side of the supporting plate 1, grooves 5 and tenons 4 are respectively made with the possibility of connecting the tenons and grooves made along one side of the first mounting plate 2 with the grooves 5 and tenons 4, respectively, made along one side of the second mounting plate 2, connected to the first mounting plate 2.

In the tenons of the supporting plate 1, locking holes 6 are made in one row with the possibility of mounting the locking plates 3 in them with their tenons 7 (see Fig. 3). Parallel to the mentioned row of locking holes 6 along the same side of the supporting plate 1 with tenons 4, a second row of locking holes 6 is made with the possibility of mounting the second row of locking plates 3 in them with their tenons 7.

Mounting plate 2 (see Fig. 4) is a flat or profiled sheet containing at least two symmetrical vertically arranged rows of holes 8 corresponding to the shape, size and pitch of the tenons 4 in the supporting plate 1 with the possibility of connecting the supporting plates to each other in parallel rows.

The lock plate 3 (see Fig. 5) is a flat or profiled sheet containing tenons 7 spaced along the said plate in one direction, the shape, size and spacing of which correspond to the lock holes 6 made in the supporting plate 1 with the possibility of fixing two supporting plates 1 joined together in one plane.

In the embodiment of the bearing 1 and mounting 2 plates made of profiled sheet, the arrangement of such elements of the connection of each of the plates 1-2 as tenons 4, grooves 5 and locking holes 6 should ensure the formation of the building structure in compliance with the design solutions (see Fig. 6, Fig. 7). In other words, for the arrangement of the bearing plate 1 strictly orthogonal to the mounting plate 2, the tenons 1 and grooves 2 of the bearing plate 1 can be located in the same plane, overlapping, for example, on the ridge of the sheet profile or in the middle, i.e. the same for one sheet and for the mating ones, except when their arrangement on the profiled mounting plates 2 is determined differently by the building structure. A similar requirement is imposed on the grooves 5 on the mounting plate 2, where, in order to connect the bearing plates 1 in parallel planes opposite each other, the grooves 5 on the mounting plate 2 must be located in the same plane, except when their location on the profiled mounting plates 2 is determined differently by the building structure.

The building structure is formed as follows.

To form a corner joint in a building structure, one bearing plate 1 is positioned orthogonally to the second bearing plate 1 and the tenons of the first bearing plate 1 are inserted into the grooves of the second bearing plate 1.

In order to form a linear connection in a building structure, the bearing plates 1 are arranged in one plane and connected to each other by mounting the tenons of one bearing plate into the grooves of the next to mounted second bearing plate 1 and simultaneously the tenons of the second bearing plate 1 into the grooves of the first bearing plate 1. The fixation of the bearing plates 1 to each other in the assembled building structure is carried out using the locking plates 3 by mounting them with the tenons of the locking plate 7 into the locking holes 6 in the bearing plates 1 (for fixation it is also possible to use such options as a bolt-nut, rivet, self-tapping screw, etc., depending on the design solution).

In order to form a volumetric building structure from several load-bearing plates 1, which can be located relative to each other in several parallel planes, mounting plates 2 are used together with the load-bearing plates 1. For this purpose, the first load-bearing plate 1 is mounted with its tenons 4 in the first row of holes 8 of the orthogonally located mounting plate 2, and the second mounting plate 2 is oriented parallel to the first load-bearing plate 1 and opposite it and is mounted with its tenons 4 in the second row of holes 8 of this mounting plate 2. The second load-bearing plate 1 is mounted with its holes 8 to the tenons of the first and second load-bearing plates 1, located at their opposite ends. Thus, in the mounting plate 2 after its mounting to the load-bearing plates 1 in its rows of holes 8, there remain free holes 8 between the occupied holes 8. The tenons 4 of the next rows in the building structure are mounted in the said free holes 8 of the mounting plates 2. supporting plates 1. The fixation of supporting plates 1 between themselves in the assembled building structure is carried out using locking plates 3 by mounting them with the tenons of the locking plate 7 into the locking holes 6 in the supporting plates 1.

The bearing plates 1, mounting plates 2 and locking plates 3 can be arranged in a staggered pattern relative to each other and to each other in the building structure.

This technology allows to create various sections, such as: beam, T-beam, I-beam, channel, cross, angle, square and rectangular profiles. By connecting the plates together, organizing the required number of reinforcements and connections, obtaining spatial structures (constructions) of almost any shape and complexity. The connection of plates 1-3, made in the form of sheet parts through a tenon and groove allows to create light spatial building structures of high rigidity, which is necessary to ensure normal operating conditions of the building structure.

The value of rigidity depends on the thickness, size of the parts, on the number of structural connections created in that variant and the number required to achieve the required rigidity of the structure. The connection of the bearing plates 1 in length occurs through the tenon 4 and the groove 5 in a staggered order, this allows obtaining a structure of the required length. The connection of the bearing plates 1 in width can occur both by the overlay method and end-to-end.

Also, through the tenon 4 and the groove 5 in the building structure, with the help of mounting 2 and locking 3 plates, diagonal reinforcements of the structure, reinforcements of the sheet of the bearing plate 1 from deflection, gussets, etc. are created.

Connections via tenon 4 and groove 5 ensure the redistribution of loads applied to the bearing 1 and/or mounting 2 plates to adjacent plates 1, 2 or to the entire structure.

Claims (5)

1. A building structure characterized in that it contains load-bearing plates, each of which is made with tenons located at least along one side with equal spacing, and grooves symmetrically to the tenons on the opposite side, and two rows of locking holes symmetrically located along both sides of the load-bearing plate, wherein the holes of one of the rows are located in the tenons, locking plates, each of which contains tenons along one side, entering each row of locking holes of the load-bearing plates, ensuring their fixation when connected to each other in one plane by means of a tenon-and-groove connection, and mounting plates, each of which includes at least two symmetrical vertically arranged holes in a row for placing tenons of parallel-mounted load-bearing plates in each of them, wherein the mounting plates are located between the two rows of locking holes of the load-bearing plates. 2. A building structure according to paragraph 1, characterized in that the distance from the edge of the supporting plate to the nearest tenon is equal to half the distance between the tenons. 3. A building structure according to paragraph 1, characterized in that the locking holes in the supporting plate are made symmetrically in two rows with the possibility of arranging the locking holes on two sides relative to the mounting plate after its installation to the supporting plate. 4. A building structure according to paragraph 1, characterized in that the bearing plates and/or mounting plates and/or locking plates are mounted in a staggered pattern. 5. A building structure according to paragraph 1, characterized in that the supporting, mounting and locking plates are made of flat or profiled sheet.