RU208328U1 - Universal power unit for connecting cross members - Google Patents

Abstract

The utility model relates to mechanical engineering and construction, in particular to a universal unit for connecting structural elements intersecting in space, for example, crossbars with racks of an inclined-type lifting platform for wheelchair users, mounted by fastening to the stairs. The universal power unit for connecting cross elements contains connecting elements with holes for fastening and detachable connections for tightening the connecting elements together, made in the form of brackets covering the structural elements to be connected from three sides, with coplanar flanges bent in different directions, on which through fastening holes are made , and the crossbar bracket is installed opposite to the rack bracket, through the holes in the flanges, the connecting elements are pulled together by detachable fasteners, while the rack and the crossbar adjoin each other with side surfaces, intersect at different angles in the common plane of the adjacent side surfaces, and the depth of each bracket is made less than the thickness of the covered structural element in such a way that a gap is formed between the parallel planes of the flanges facing each other, equal to the difference between the sum of the thicknesses of the crossbar and the post and the sum of the depths of the brackets, so that the relative position of the crossbar and posts along their own axes of symmetry can be adjusted during installation, through holes are made on the flanges of the brackets, which are located along arcs with equal radii and centered on the line of intersection of the planes of symmetry of the brackets, and the mutual angular position of the axes of the crossbar and the rack can be adjusted through the holes in the flanges the brackets are pulled together with detachable fasteners, pressing the post and the crossbar against each other. The technical problem is to expand the range of power nodes for connecting cross elements, aimed at improving the technology to reduce labor costs during the installation of the structure. The technical result consists in increasing the reliability and strength of the connection due to the superimposed pairing of the crossbars with the posts and reducing the stress concentrators in the parts to be connected by eliminating the mounting holes in the posts and crossbars, as well as providing the possibility of changing the orthogonal and angular relative position of the connected structural elements during the installation of the crossbars with racks of a lifting platform for wheelchair users of an inclined type, mounted by attaching the racks to the steps of the stairs.

Description

Technology area

The utility model relates to mechanical engineering and construction, in particular to a universal unit for connecting structural elements intersecting in space, for example, crossbars with racks of a lifting platform for wheelchair users of an inclined type mounted by attaching to the steps of a staircase.

State of the art

Known is a self-centering node for connecting butt-cross elements of a prefabricated structure of a frame type, containing protruding elements that receive spaces for protruding elements, and a clamp, characterized in that the receiving spaces for protruding elements are made in the form of a shaped pipe of rectangular or square section, and the protruding elements are made in the form pipes of a geometrically similar cross-section in the number of n = (1-4) and are equipped with centering linings to compensate for assembly gaps, while the clamp is placed on the slots cut on the outer edges of the profile pipe receiving space for protruding elements (RU, patent No. 52032, publ. 10.03 .2006).

The reasons why the technical result cannot be achieved is the impossibility of changing the orthogonal and angular relative position of the connected structural elements during installation, as well as the weakening of the structure in the attachment points, due to the fact that the pairing of the connected parts with the connecting elements is carried out only at the ends (ends) of the connected parts, as well as the need to make mounting holes on the parts to be connected.

Known building element, consisting of two bent Ʃ-shaped profiles in contact with each other by walls and shelves, characterized in that the fastening of the profiles is carried out by means of bends obtained by the formation of holes on the walls of one profile, which in turn pass through the holes of another profile and are seamed on the outer surface of the latter (RU, application No. 2007114383, publication date of the application: 10/27/2008).

The reasons why it is impossible to achieve the technical result is the impossibility of changing the orthogonal and angular relative position of the connected structural elements during installation, as well as the weakening of the structure in the attachment points, due to the fact that the pairing of the connected parts with the connecting elements is carried out only at the ends (ends) of the connected parts , as well as the need to make mounting holes on the parts to be connected.

Known connection of pre-fabricated building structures, including at least two first fastening elements, each of which is a plate with diverging ends connected to a vertical support, characterized in that it includes at least one second fastening element, which is a trapezoidal a tray, open at the top, and on one of its sides equipped with means for fastening a horizontal beam, while the second fastening element is detachably connected to the vertical support and the first fasteners, and between the second fastening element and the vertical support and the diverging ends of the first fasteners a gap is formed (RU, Patent No. 99035, publ. 10.11.2010).

The reasons why it is impossible to achieve the technical result is the impossibility of changing the orthogonal and angular relative position of the connected structural elements during installation, as well as the weakening of the structure in the attachment points, due to the fact that the pairing of the connected parts with the connecting elements is carried out only at the ends (ends) of the connected parts , as well as the need to make mounting holes on the parts to be connected.

As a prototype, a technical solution was taken, a universal power unit for connecting pre-fabricated building structures and buildings, including connecting and fastening elements connected either by means of parts with a screw surface, or by means of pins, or one-piece, characterized in that the unit is formed by two parallel planes: support base and additional base, between which are installed permanently interconnected rectangular amplifiers perpendicular to each other and to the base planes, and the connecting elements are installed on the support base plane, and reinforcing elements made in the form of rectangular tetrahedrons are installed on the bottom of the support base plane, the bases of which are made with it as a whole, and inseparably connected to each other by rectangular amplifiers, and an additional base plane is formed by the bases of the reinforcing elements, interconnected by rectangular reinforcing elements, and the edges of the cr connecting elements made in the form of an open rectangular prism with a triangular base, in addition, on the base planes, the elements are installed symmetrically relative to the horizontal, vertical and frontal planes of symmetry passing through the center of the node, and the fastening, reinforcing and connecting elements are made with holes for fastening (RU , patent No. 146966, publ. 10/27/2014).

The reasons why it is impossible to achieve the technical result is the impossibility of changing the orthogonal and angular relative position of the connected structural elements during installation, as well as the weakening of the structure in the attachment points, due to the fact that the pairing of the connected parts with the connecting elements is carried out only at the ends (ends) of the connected parts , as well as the need to make fastening holes on the parts to be connected and the use of permanent joints.

Common features with the prototype are connecting elements with holes for fastening and detachable joints for tightening the connecting elements together, made in the form of brackets covering the connected structural elements from three sides with coplanar flanges bent in different directions, on which through fastening holes are made, and the bracket the crossbar is installed opposite to the rack bracket; through the holes in the flanges, the connecting elements are pulled together with detachable fasteners.

Disclosure of the essence of the utility model

The technical problem lies in expanding the range of power nodes for connecting cross elements, aimed at improving the technology to reduce labor costs during the installation of the structure.

The technical result consists in increasing the reliability and strength of the connection due to the overhead pairing of the girders with the posts and the reduction of stress concentrators in the parts to be connected by eliminating the mounting holes in the posts and girders, as well as in providing the possibility of changing the orthogonal and angular relative position of the connected structural elements during the installation of girders with racks of a lifting platform for wheelchair users of an inclined type, mounted by attaching racks to the steps of the stairs.

The technical result is achieved by the fact that the universal power unit for connecting the cross elements contains connecting elements with holes for fastening and detachable joints for tightening the connecting elements together, made in the form of brackets covering the connected structural elements from three sides, with coplanar flanges bent in different directions, on which through fastening holes are made, and the crossbar bracket is installed opposite to the rack bracket, through the holes in the flanges, the connecting elements are pulled together with detachable fasteners, while the rack and the crossbar adjoin each other with side surfaces, intersect at different angles in the common plane of the adjacent side surfaces, and the depth of each bracket is made smaller than the thickness of the male structural element, so that between the parallel planes of the flanges facing each other, a gap is formed equal to the difference between the sum of the thicknesses of the girder and the rack and the sum of ch ubin of staples, so that the relative position of the crossbar and the rack along their own axes of symmetry can be adjusted during installation, through holes are made on the flanges of the brackets, which are located along arcs with equal radii and centered on the line of intersection of the symmetry planes of the brackets, and the mutual angular position of the axes of the crossbar and the posts can be adjusted, through the holes in the flanges, the brackets are pulled together with detachable fasteners, pressing the post and the crossbar to each other.

The essence of the technical solution is illustrated in the drawings.

FIG. 1 shows a view of the connection between the crossbar and the post in the vertical plane of the post (cross-section along the crossbar);

in fig. 2 - View A according to Fig. 1, projection onto the plane of intersection of the crossbar with the rack from the side of the crossbar;

in fig. 3 - View B in Fig. 1, projection onto the plane of intersection of the crossbar with the rack from the side of the rack;

in fig. 4 - View A according to Fig. 1, projection onto the plane of intersection of the crossbar with the rack from the side of the crossbar, in the rotated position of the crossbar);

in fig. 5 - View B in Fig. 2, a projection onto the plane of attachment of the rack to the ladder, where

1.stand

2.bolt

3.side surface of the rack

4.the lateral surface of the transom

5.stand bracket

6.Coplanar Rack Bracket Flanges

7.bolt bracket

8. coplanar flanges of the transom shackle

9.Through holes in the rack bracket

10.Through holes in the deadbolt bracket

11. detachable fasteners.

The universal power unit for connecting cross members consists of a post 1, a ledger 2, a side surface of a post 3, a side post of a transom 4, a post bracket 5, coplanar flanges of a post bracket 6, a transom bracket 7, coplanar flanges of a transom bracket 8, through holes in a post bracket 9 , through holes in the deadbolt bracket 10 and detachable fasteners 11.

Implementation of the utility model

The parts to be fastened, the post 1 and the girder 2, made of shaped pipes, adjoin each other with the side surfaces 3 and 4, and intersect in the common plane of the side surfaces 3 and 4 at different angles. On the post 1, a connecting element 5 is installed in the form of a bracket, embracing the post 1 from three sides, with coplanar flanges 6 bent in different directions, having a depth less than the thickness of the post 1, and on the crossbar 2 there is an opposite connecting element 7 in the form of a bracket covering the crossbar 2 on three sides, with bent in different directions coplanar flanges 8, having a depth less than the thickness of the girder 1. Flanges 6 of the bracket 5 and, accordingly, the flanges 8 of the bracket 7 face each other and are located in parallel planes with a gap equal to the difference between the sum of the thicknesses of the girder 2 and posts 1 and the sum of the depths of the brackets 5 and 7, so that the relative position of the bolt 2 and the post 1 along its own axes of symmetry can be adjusted during installation. Through holes 9 are made on the flanges 6 of the bracket 5, and through holes 9 are made on the flanges 8 of the bracket 7. the angular position of the bolt and post axles can be adjusted. Through the holes 9 in the bracket 5 and 10 in the bracket 8, the brackets 5 and 7 are pulled together with detachable fasteners 11, pressing the pillar 1 and the deadbolt 2 against each other.

Claims (1)

The universal power unit for connecting cross elements contains connecting elements made in the form of brackets, covering the structural elements to be connected from three sides, with coplanar flanges bent in different directions, on which through fastening holes and detachable joints are made for tightening the connecting elements together, while the bracket The girder is installed opposite to the strut bracket, through the holes in the flanges, characterized in that the depth of each bracket is made less than the thickness of the male structural element, so that a gap is formed between the parallel flange planes facing each other, equal to the difference between the sum of the thicknesses of the girder and the strut and the sum depths of staples, so that the relative position of the crossbar and the rack along its own axes of symmetry can be adjusted during installation, through holes made on the flanges of the staples are located along arcs with equal radii and centered on the line of intersection of the symmetry planes of the staples, so that during installation, the mutual angular position of the axes of the crossbar and the rack can be adjusted, through the holes in the flanges, the brackets are pulled together with detachable fasteners, pressing the rack and the crossbar to each other.

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