SU1788173A1 - Wall enclosure of framed building - Google Patents

Description

The invention relates to construction, namely to enclosing wall structures, and can be used in the construction of frame buildings erected on unevenly deformable foundations.

The known design of the wall fencing of the frame building, in which the panels are made with vertical grooves at the ends, and the embedded parts are located on 10 adjacent walls of the grooves to the lateral faces of the column. There are also connecting elements in the form of clamps, consisting of plates rigidly connected to the embedded parts and covering the column, the ends of which are united by a crossbar. With such a solution, in the case of uneven deformations of the base, the columns can move freely inside the clamps, since the vertical grooves in the ends of the panels 20 do not have a rigid connection with the column. In addition, there are no connections between the longitudinal ends of the panels, which does not allow to perceive tangential forces in horizontal joints. Thus, the known solution does not ensure the work of walls as stiffening diaphragms.

The closest to the proposed technical solution is a wall enclosure, consisting of wall panels, suspended from the cantilever ledges of the girders using continuous rods. it, passing in the coaxial holes in the panels with concrete pouring of the gaps between the rods and the panels, and the cut 35 of the wall fence on the panel is made in the middle of the distance between the columns with the formation of a sedimentary seam.

This design allows the lowering of that part of the wall enclosure that is connected to the descending column towards the base deformation, but without breaking the integrity of the wall panels, since the transom support, to which the panels are attached through continuous rods, is lowered together with the column. However, despite the preservation of the intact structures, the integrity of the wall enclosure is still violated due to the displacement of the settling part in relation to the less settling, or to the non-subsiding part, which may not always be acceptable.

The aim of the invention is to increase the rigidity when erecting a building on 55 unevenly deformable bases.

FIG. 1 shows a wall railing of a frame building in plan showing the abutment of strip wall panels to the columns of the frame; in fig. 2 - fastening the wall panels to each other along their longitudinal ends (section A-A in Fig. 1); in fig. 3 - section b-b in Fig. 2.

The wall fencing of the frame building includes ordinary 1 and basement 2 strip panels made with vertical grooves 3 at the transverse ends 4, into which adjacent corners 5 of the column 6 are inserted. Panels 1 and 2 and columns 6 at the junction are connected by welding of embedded parts 7, placed on their surfaces, and ordinary panels 1 are connected to each other and basement panels 2 along their longitudinal ends 8 by welding through embedded elements 9. All joints are sealed with fine-grained lightweight concrete 10.

The proposed design of the wall fence allows you to create a frame building of increased rigidity with enhanced properties, ensuring its non-deformability when exposed to horizontal and vertical loads and construction on unevenly deformable foundations. Such a fence serves as a stiffness diaphragm and, when the soil subsides under the individual columns, it does not allow them to move, i.e. the emergence of different levels of one construct is excluded. The need for additional stiffening diaphragms or is also completely or partially eliminated. diagonal ties between the columns. There is no need to strengthen the structures of wall panels in comparison with traditional structures.

Claims (1)

Claim Wall fencing of a frame building, including columns, ordinary and basement strip wall panels, as well as embedded parts for connecting panels to columns, characterized in that, in order to increase rigidity when erecting a building on unevenly deformable bases, strip panels are made with vertical grooves on transverse the ends, into which the adjacent corners of the column are inserted, and the columns and panels at the junction are connected by welding of embedded parts placed on their surfaces, and the ordinary panels are connected to each other and basement panels along the longitudinal ends by welding through embedded elements. A-A and Π / Ί Λ 1 1 1 1 1 ++ ¹ ι 1 // I 8 s '/ \ Λ. I l ι — t * Ά — Г 1—4 1 — Г tr r — f- ι | - 1 1 14- + 1 1 1 | ~ r- _r 1 '... I ... L I 44/44 44 4-4 44 k4 [ '0 / I r \ I 1 -A- + 4—1- 4 — h 1—4—1 ♦ —f 1 4 1 lt-1 1 1 1 1- ¹ 4-4 4-4 4-1- 44 \ 4-1 4-I · 1 ¹ \ ¹ 1 ⁸ ι 1 1 ι -t ~ t 1 ~~ t T ~ t 1-E - 4-- • 4- 1 1 1 J -I — I- 4 4 · 4— ”t 4 · 1 4-I J — I- —1 — z ----------- iL —-------—---- L_ Ιΰυί.ΐ.