RU1823901C - Wall and floor slabs butt joint - Google Patents

Abstract

The butt joint of wall panels and floor slabs includes spur filler from a hydrophobic material. bevels of the end faces along the thickness of the plates, protrusions on the end faces of the planes and plates with the base of the protrusions of the plates from the end surfaces of the grooves of the lower wall panel. The protrusions on the end faces of the panels are made with bevels of the opposed faces with the formation of a discrete support surface through compliant gaskets, and compliant gaskets are made of 4-cement cement-bonded particle boards.

Description

The invention relates to construction and can be used with large-panel housing construction (Efficiency) in regions of earthquake-hazardous areas.

The closest in technical essence and the achieved result is the butt joint of wall panels and floor slabs, including joint filler from poorly bonded material, bevels of the end faces along the thickness of the plates, the support surface through a compliant laying of the higher panel to the lower panel, grooves and protrusions on the end gran x panels and plates. (See USSR author's certificate No. 876898, class E 04 B 1/38, 1980),

The disadvantage of this design is that it has low manufacturability, because in the construction of such a butt joint, a wet process is used at the construction site when laying a cement-sand mortar between the supporting ends of the panels and there is a need for constant quality control of the interlayer material.

The purpose of the invention is to increase the manufacturability of the manufacture of butt joints, earthquake resistance of buildings, which affects their durability and reliability.

The set of essential features presented above is aimed at achieving the 1st technical result and is in a causal relationship with it, because, firstly, due to the use of a dry joint in the form of spacer panels attached to the ends of the spacers, the gaskets are excluded from the installation work wet processes i.e. the manufacturability of the structure sharply increases and, secondly, the DSP, having high deformability, protects buildings from destruction during strong earthquakes.

In FIG. 1 is a perspective view of the butt joint of wall panels and floor slabs; in FIG. 2 - section A A of FIG. 1; on, 3 - section bB of FIG. 1 in FIG.

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4 is a schematic diagram of the mounting of butt joints of wall panels and floor slabs.

The butt joint of wall panels and floor slabs consists of a lower wall panel 1 with protrusions 2 and compliant spacers from DSP 3. floor slabs 4, an upper wall panel 5. supported by protrusions 6 with pliable spacers from DSP 7 on the protrusions 2 of the lower wall panel 1, the gap filled with hydrophobic material 8, with the formation of a shaped step 9. Floor slabs 4. made with protrusions 10 and grooves 11 (see FIGS. 2 and 3) are supported by protrusions 10 on the end surfaces of wall panel 1 in sections 12 between protrusions 2 and the entrance t corresponding ue grooves 11 overlap the adjacent plate 4. The projections 2 and 6 of the wall panels 1 and 5 and the protrusions 10 and grooves 11 overlap plates 4 are formed with bevels 14, 13, 15 and 16, respectively. In the corners of panels 1 and 5, floor slabs 4, embedded parts 17 are installed.

Installation of the butt joint of wall panels and floor slabs is carried out as follows.

Flexible gaskets 3 and 7 are fixed to the supporting surfaces of the protrusions 2 and 6 of the wall panels 1 and 5 with anchors (not shown conventionally in the drawings) into the concrete body when molding the panels at a concrete products plant. On the bottom wall panel

1, the floor panels 4 are mounted so that the protrusions 10 of the floor plates 4 rest on the entire width of the end surface of the lower wall panel 1 in sections 12 between the projections 2 and fit into the corresponding grooves 11 of the adjacent floor panel 4. The floor plates 4 are connected to each other and to the lower wall panel 1 by welding the embedded parts 17. The upper wall panel 5 is mounted so that the protrusions 6 rest on the corresponding protrusions 2 of the lower wall panel 1, and the contact is made through pliable joints masonry 7 and 3 of the DSPs. The upper wall panel 5 is connected to the floor slabs 4 by welding embedded parts 17. Filling the joints with hydrophobic material (for example, fine-grained concrete with bitumen compositions) is carried out in two stages: to the level of laying 3 on the protrusions

2 of the lower wall panel 1 - before the installation of the upper wall panel 5. after the installation of the upper wall panel 5 - by injection into the remaining empty cavities of the seam 9.

The butt joint of wall panels and floor slabs works as follows.

Seismic impact on the building leads to multiple dynamic loads conditionally separately considered in the vertical and horizontal directions.

Horizontal heating components

In vertical load-bearing elements of buildings, dangerous bending, torsional and shear forces cause a focus. In large-panel buildings, vertical structural elements are longitudinal and

5 transverse walls made of separate and connected to each other reinforced concrete panels 1 and 5, and fastened with horizontal hard drives of reinforced concrete slabs 4. Introduction to

0 the joints of the support of the wall panels 1 and 5 of the highly deformative gaskets 3 and 7 can significantly reduce the values of bending moments in the bearing walls, which leads to savings in reinforcing steel

5 in the wall panels 1 and 5. Shear and torque forces in the claimed joint structure are received and transmitted to the overlying elements by the protrusions 2 and b of the wall panels 1 and 5 and the protrusions 10 of the plates

0 overlap 4.

The vertical components of the loads cause longitudinal dynamic forces in the walls of a large-panel building, which in the presence of compliant gaskets 3 and

5 7 between the supporting surfaces of the protrusions 2 and 6 of the wall panels 1 and 5 also have much softer characteristics than with hard contact. In addition, compliant pads 3 and 7 provide

0 a more uniform stress field in the supporting zones of panels 1 and 5, which prevents the early formation and development of longitudinal tearing cracks in the concrete body under dynamic loads and thereby

5 increases the seismic reliability of structures. The bevels 13, 14, 15 and 16 of the end faces of the floor slabs 4 and the protrusions 2 and 6 of the wall panels 1 and 5 provide more uniform joint movements of the joint elements - wall panels and floor slabs - under vertical dynamic loads.

The hydrophobic material 8 prevents moisture from accessing the gaskets 3 and 7 from the DSP and

5 increases their durability.

Using the proposed technical solution for the butt joint of wall panels and floor slabs in earthquake-resistant large-panel buildings will allow reducing the estimated values of internal forces in load-bearing structures by 1.5-2.0 times, which corresponds to saving reinforcing steel up to 40%, reducing labor costs by 10- 12%, and will also increase the manufacturability of the installation of the building at the construction site.

Claims (2)

SUMMARY OF THE INVENTION 1. Butt joint of wall panels and floor slabs, including joint filler of hydrophobic material, bevels of end faces along the thickness of the plates, grooves and protrusions on the end faces of panels and plates with the base of the protrusions of the plates on the end surfaces of the grooves of the lower wall panel, characterized in that the protrusions on the end faces of the higher and lower wall panels are made with bevels of opposed faces with the formation of a discrete support surface through pliable gaskets fixed to the torus axes of protrusions, and compliant gaskets are made of cement-bonded particleboards, while the width of the lower, compliant gasket is Lb - (0.60--0.70) bo, 8 the width of the upper gasket is Lb (0.80-0.90) Ln, with a thickness of each gasket equal to (3- (0.12-0.17) b§, where bn is the width of the lower flexible strip; B - the width of the upper ductile strip; Bn is the thickness of the wall panel; d is the thickness of one ductile strip. 2. A butt joint according to Claim 1, which is provided with embedded parts installed along the edges of wall panels and floor slabs, and the seams between the bevels of the end faces of the plates and the ledges of the panels are shaped, expanding downwards . " eleven figure 1 ovv and. Qfit of in 7-7- / 7 - / - / -. A / - /, / - t .. / - .. Л iLLir / ЯiV- -VJSLl X.ZVI / I.H-i ..... . || j.i,. i tg1 -) .. d.1 y .. er. p- JifJj fir | at T7 t9 "( g e / 2 / 7 / // ./ -2 I.H-i ..... . || j.i,. i tg1 -) .. d.1 y .. er. p- JifJj fir | at At / Q / / Y ; 06CZ9L . 4.