RU2789512C2 - Assembly of arched frame structures - Google Patents

Abstract

FIELD: building.

SUBSTANCE: invention relates to building, namely, to connecting parts of spatial arched frame structures. Assembly of arched frame structures is made in the form of a tongue and groove connection of racks. The connection is made trapezoidal, with mounting pads located on the sides and coaxial mounting holes present in the tongue and groove connection and the mounting fastener pads.

EFFECT: higher security and simplified assembling of the assembly of arched frame structures.

3 cl, 6 dwg

Description

The invention relates to construction, and in particular to connecting parts of spatial arched frame structures [E04B 1/32].

Known from the prior art is a BEARING STRUCTURE OR SIMILAR ELEMENTS AND STRUCTURAL ELEMENTS FOR THEM, IN PARTICULAR FOR DOME-SHAPED STRUCTURES [DE 3137202 (A1), publ. 05/19/1983], consisting of polygons made up of separate identical components, and the polygons are connected along their longitudinal edges and / or their corners, characterized in that the components are a system of rods or are frames, as well as connecting parts that are assembled in various combinations to form geometric structures based on the formation of triangles or the inclusion of triangular structures in such a way that the load-bearing parts, rods or frames along their side edges and/or at the corners are connected radially, forming knots.

The disadvantage of this analogue is the complexity of the design of fastening structural elements, which adversely affects the reliability of the implemented connections.

Also known from the prior art CONNECTOR FOR BEAMS [RU 2727996 (C1), publ. 07/28/2020], which is in the form of a solid flat part containing two bearing elements located at an angle to each other, with rectangular grooves made in them on one side of the flat part, bounded by bearing support areas located in the zone of greatest loads.

The disadvantage of this analog is the absence within the framework of this connection of the end contact of the prepared surfaces of complex shape of the connected elements, which negatively affects the reliability of the connection of this connection.

The closest in technical essence is the NODE ANGULAR JOINT [RU 165765 U1, publ. 11/10/2016], containing wooden elements with cut end parts with the formation of displaced end faces, each of which has a protrusion, and a dowel fastening these elements, characterized in that the wooden elements are connected at an angle of more than 90°, but less than 180°, moreover, the ends of the elements have protrusions and cavities corresponding to the cavities and protrusions made along a curved line on the displaced end faces, and the dowel is located in the central zone of the connection.

The main technical problem of the prototype is the fastening of the connection with one dowel, which is elongated in cross section, which reduces reliability and complicates the process of assembling the connection.

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

The technical result of the invention is to increase the reliability and simplify the assembly of the arch frame structures.

The specified technical result is achieved due to the fact that the assembly of arched frame structures is made in the form of a tongue-and-groove connection of racks, and the connection is made in the form of a trapezoid, with mounting pads located on the sides and the presence of coaxial mounting holes in the racks and mounting pads for fasteners.

In particular, the fastener is made in the form of a bolted connection.

In particular, in the mounting pads, one hole is made in the middle part, and the others in pairs at the ends on one side and the other.

Brief description of the drawings

In FIG. 1 shows a general view of a lock for a frame of a spherical structure.

In FIG. 2 shows a side view of the assembly mounting pad for the spherical frame structure.

In FIG. 3 shows a section A-A of the mounting plate of the assembly for the frame of a spherical structure.

In FIG. 4 shows a segment of a frame of a spherical structure formed by two locks.

In FIG. 5 shows a top view of a framed spherical structure.

In FIG. 6 shows section A-A of a framed spherical structure.

The figures indicate: 1 - racks of the lower tier, 2 - trapezoidal grooves, 3 - mounting holes, 4 - racks of the upper tier, 5 - trapezoidal spikes, 6 - tongue and groove connection of racks, 7 - end longitudinal spikes, 8 - bolts, 9 - mounting pads, 10 - transverse grooves, 11 - spacers, 12 - platform.

Implementation of the invention

The node for spherical frame structures (Fig. 1) contains the racks of the lower tier 1 with trapezoidal grooves 2 and a set of mounting holes 3 - one in the middle part of the trapezoidal groove 2 and two near the base of the trapezoidal groove 2.

In the uprights of the upper tier 4, there are reciprocal trapezoidal spikes 5, forming a tongue-and-groove connection of the uprights 6.

Also on the racks of the upper tier 4 there are mounting holes 3 - one in the middle part of the trapezoidal spike 5 is coaxial with the mounting hole 3 located in the middle part of the trapezoidal groove 2 of the racks of the lower tier 1 and two directly above the trapezoidal spike 5. On the outer ends of the racks of the lower tier 1 and racks of the upper tier 4 are end longitudinal spikes 7.

The assembly also contains mounting pads 9 located to the left and to the right of the tongue and groove connection of the racks 6 (Fig. 2 and 3), made in the form of oblong flat parts with kinks at one of the sides, along which transverse grooves 10 are made. and racks of the upper tier 4 are fastened with mounting pads 9 and bolts 8. Along the breaks in the mounting pads 9, transverse grooves 10 are made, in which mounting holes 3 are made.

The ends of the struts 11 are located in the transverse grooves 10, on the outer end of which there are end longitudinal spikes 7. The mounting holes 3 in the transverse grooves 10 of the mounting plates 9 correspond to the mounting holes 3 in the ends of the struts 11.

When erecting arched frame structures, the considered nodes are implemented in the following way. Two mounting pads 9 are attached to the ends of the strut 11 with a transverse groove 10 by means of bolts 8. Further, to the mounting pads 9 on both sides (on the flat side, where there are no transverse grooves 10), the racks of the lower tier 1 are attached with bolts 8.

Further, two new mounting plates 9 are attached to the uprights of the lower tier 1 on the free side of the already mirrored mounting pads 9 on the bolts 8. Thus, a single segment of the frame of the lower tier is assembled (Fig. 4) and repeating this operation, the lower tier of the required length and shape is built .

Further, in the trapezoidal grooves 2 of the racks of the lower tier 1, the racks of the upper tier 4 are installed with trapezoidal spikes 5, forming a tongue-and-groove connection of the racks 6 and starting to build the upper tier.

After the erection of the desired frame, the bolts 8 are pulled by the required moment.

An exemplary structure installed on site 12 is shown in Figures 5-6.

The advantage of the presented node of arched frame structures is the increase in the reliability of the connection, due to the use of a sufficient number of bolts 8 for fastening the parts included in the node. The simplification of assembly of the assembly is achieved, among other things, by a well-thought-out design of the assembly, which is confirmed by practical application. In 2020, the Applicant manufactured the parts of the arched frame structure assembly presented in this application, the assembly and operation of which confirmed the declared technical result.

The technical result of the invention is to increase the reliability and simplify the assembly of the assembly of arched frame structures, which is achieved by making the assembly of arched frame structures in the form of a tongue-and-groove connection of racks 6 of a trapezoidal shape, with mounting plates 9 located on the sides and the presence of coaxial mounting holes 3 in the tongue-and-groove connection of racks 6 and mounting overlays 9.

The location of one mounting hole 3 in the middle part of the mounting pads 9 and four mounting holes 3 in pairs at the ends of the mounting pads 9 in conjunction with the trapezoidal groove 2, the lower tier 1 racks and the upper tier 4 racks allows you to get a reliable, durable and simple assembly of the arched structure, in in which the bolted connection of the middle mounting holes 3 fixes the mounting pads 9 and the trapezoidal groove 2, the bolted connections of pairs of mounting holes 3 at the ends on one side and the other side of the mounting pads 9 securely fix the mounting pads 9, as well as the racks of the lower tier 1 and the racks of the upper tier 1.

Claims (3)

1. The assembly of arched frame structures is made in the form of a tongue-and-groove connection of racks, and the connection is made in the form of a trapezoid, with mounting pads located on the sides and the presence of coaxial mounting holes in the racks and mounting pads for fasteners. 2. The assembly according to claim 1, characterized in that the fastener is made in the form of a bolted connection. 3. The node according to claim 1, characterized in that in the mounting plates one hole is made in the middle part, and the others in pairs at the ends on one side and the other.

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