RU2835338C1 - Suspension system for mounting a concrete panel of a building facade - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used in mounting concrete and reinforced concrete structures of walls and suspended reinforced concrete structures of ventilated facades of buildings and structures for various purposes. Suspension system for mounting a concrete panel of a building facade comprises: a construction suspension, which is a curved metal plate, an embedded element installed in the concrete panel, at least one pressure anchor, lower limiting and upper limiting fasteners installed in concrete panel, as well as a free axis entering the holes of the lower limiting attachment and the upper limiting attachment.

EFFECT: increasing the rate of construction, speed and reliability of erection of concrete building facades, as well as possibility of levelling the concrete facade of the building into the design position even after installation of the necessary fasteners.

8 cl, 5 dwg

Description

Field of technology

The invention relates to the field of construction and can be used in the installation of concrete and reinforced concrete wall structures and suspended reinforced concrete structures of ventilated facades of buildings and structures for various purposes.

State of the art

From the prior art, in particular from EP 3214235 A1, a system is known for connecting a first precast concrete part to a second precast concrete part, with a precast connector and with a connecting element, wherein the precast connector comprises a support plate and at least one casting anchor connected to the support plate for pouring into the first precast concrete part, and wherein the support plate lies in a base plane and has a through hole for the connecting element, characterized in that the cross-section of the through hole is larger than the cross-section of the connecting element, and that the connecting system has positioning means for free positioning and for positive fixation of the position of the connecting element passed through the through hole in all directions lying in the base plane of the base plate.

The disadvantage of this system is the weak fixation of anchors in the slabs, which can lead to their tearing out of the slab. In addition, it is necessary to accurately position the slabs between themselves, which affects the speed of installation.

From the Russian Federation patent for utility model No. 121832, a slab connection unit is known, characterized by the fact that it contains embedded parts placed in the slabs, connected to each other through a connecting element by welding, wherein the connecting element is a stainless steel plate.

When using the technical solution according to the specified patent for connecting large-panel elements, in particular for connecting wall panels with floor slabs, the required strength of the structure is not ensured, since the connecting element does not provide resistance to vibration loads, since it works only in one projection.

Disclosure of the essence of the invention

The present invention is aimed at achieving technical results consisting of increasing the pace of construction, the speed and reliability of installation of concrete building facades, as well as the possibility of leveling the concrete building facade to the design position even after the installation of the necessary fasteners.

The declared technical results are provided by a suspended system for mounting a concrete panel of a building facade, containing:

1) A construction hanger, which is a curved metal plate (3), secured with at least one anchor (4) through an opening (5) in the floor slab (2a), in which a hole for the anchor (4) is pre-drilled, wherein the opening (5) is oblong in shape, and the curved metal plate (3) is connected to an adjustment bar (8), containing at least two adjustment holes (9) intended for installing an installation pin (9a) in them, wherein the adjustment bar (8) is connected to a threaded rod (10), where the threaded rod (10) is inserted into a coaxial hole (11) in the metal plate (3) and secured with a nut (12) located on the threaded rod (10) above the coaxial hole (11) so that it is possible to level the concrete panel (1) to the design position;

2) An embedded element installed in a concrete panel (1), consisting of a vertical metal plate (13) with bent edges (13a), to which a metal corner (14) is attached using bolts (15), nuts (16) and washers (17) through the corresponding holes, wherein the edges (13a) are bent along the radius so that a gap (18) is formed for the adjustment strip (8) between the vertical metal plate (13) and the metal corner (14);

3) At least one pressure anchor (21) comprising a screw (22) and an embedded part (23) installed in a concrete panel (1), where the screw (22) consists of a threaded stud and a hexagonal nut screwed onto it, forming the head of the screw (24), a main nut and a lock nut (25) for additional fixation of the screw (22) in the embedded part (23), which is a steel, square plate (26) with a sleeve (27) welded to it;

4) A lower limiting fastening (30) installed in a concrete panel (1) and containing a steel flange (31), reinforcing bars (32) and spiral reinforcement (33), as well as an insert (34);

5) Upper limiting fastening (29), installed in the concrete panel (1) and consisting of a steel flange (35), reinforcement bars (36), sleeve (37) and plug;

6) A free axis that enters the holes of the lower limiting fastening (30) and the upper limiting fastening (29), formed respectively by the sleeve (37) and the plastic insert (34), and fastening the adjacent concrete panels (1).

The achievement of the declared technical results is ensured by the features of the invention listed in the invention formula. The feasibility of achieving the technical results is explained below taking into account the attached drawings and description of the invention.

Brief description of the drawings

The claimed technical solution is explained by images:

Fig. 1 - fastening of a concrete panel to a monolithic frame element

buildings;

Fig. 2 - construction hangers;

Fig. 3 - embedded element;

Fig. 4 - pressure anchor;

Fig. 5 - upper and lower limiting fastenings.

Implementation of the invention

As can be seen from Fig. 1, when fastening a concrete panel (1) to a monolithic element of a building frame, for example, to interfloor slabs (2a), the following components are used in the design of the invention:

1) Construction hanger (shown in more detail in Fig. 2), which is a metal plate (3) which is attached using at least one anchor (4) through a hole (5) in the interfloor slab (2a), in which a hole for the anchor (4) is pre-drilled. In this case, the holes (5) are oblong in shape and allow leveling of the concrete panel (1) after installation of the anchors (4), by loosening the anchor (4) and moving the concrete panel (1) in the horizontal plane.

As shown in Fig. 2, in one of the variants, the metal plate (3) has a bent shape with holes (5) and allows for installation on a horizontal surface. In this case, a metal corner (6) is welded to the inner corner of the metal plate, which comes into contact with the interfloor slab (2a) during installation.

In another embodiment, the metal plate (3) also has a bent shape, but allows it to be secured to the pylon (2b) using an anchor (4) through a hole (7) in the pylon (2b), in which a hole for the anchor (4) is pre-drilled.

The metal plate (3) is connected to the adjustment bar (8), which in turn contains at least two adjustment holes (9) intended for installing the installation pin (9a) in them and the possibility of moving the adjustment bar (8) and fixing it in the required position, therefore, for leveling the concrete panel (1) to the design position. The adjustment bar (8) is connected to the threaded rod (10) by welding, wherein the threaded rod (10) is inserted into the coaxial hole (11) in the metal plate (3) and fixed with a nut (12) located on the threaded rod (10) above the coaxial hole (11) so that it is possible to level the concrete panel (1) to the design position.

2) An embedded element (shown in more detail in Fig. 3), which is installed in the concrete panel (1) during its production. It is installed in the forming equipment in the specified places, according to the design of the concrete panel, before pouring the concrete. After pouring and hardening of the concrete, the embedded element is mounted in the concrete panel (1). Structurally, the embedded element consists of a vertical metal plate (13) with bent edges (13a), to which a metal corner (14) is attached using two bolts (15), nuts (16) and washers (17) through the corresponding holes. In this case, the nuts (16) are installed both on the side of the metal corner (14) and on the side of the metal plate (13). It is worth considering that the edges (13a) are not bent at a right angle, but along a certain radius so as to form a gap (18) for the adjustment strip (8) between the vertical metal plate (13) and the metal corner (14). Additionally, the embedded element contains openings (19) in the bent edges (13a) for metal rods (not shown in the figures), which allow increasing the reliability of fastening the embedded element inside the concrete panel (1), and an insert (20).

The metal plate (3) is hooked onto the metal angle (14) by means of the adjusting pin (9a). The preliminary selection of the position of the concrete panel (1) in the “up and down” direction is performed by repositioning the adjusting pin (9a) in the adjustment holes (9). Fine adjustment “up and down” in the range of ±25 mm is performed by turning the nut (12). In the “left and right” direction, the position of the concrete panel (1) is adjusted by shifting within the gap (18) ±25 mm in the embedded element. After reaching the required position and gap, the adjusting strip (8) is clamped in the embedded element by the metal angle (14) and the corresponding nuts (16).

3) At least one pressure anchor (21) (shown in more detail in Fig. 4) for use as supports and elements for regulating the gap between panels in concrete and reinforced concrete structures of walls and curtain-sided ventilated facades of buildings and structures for various purposes (a variation of two below and two above can be used).

The pressure anchor (21) is a set of two assembly units: a screw (22) and a mortgage (23). During operation, the screw (22) and mortgage (23) with the same thread size are used together. The screw (22) consists of a threaded stud and a hexagonal nut screwed onto it, forming the head of the screw (24). These parts are fastened to each other by means of a permanent mechanical connection - thread punching. Thus, the connection of the nut (24) and the stud is immobile, which allows the screw (22) to rotate by rotating the nut (24). The screw set also includes two standard nuts (25), a main nut and a lock nut for additional fixation of the screw (22) in the mortgage (23).

The embedded part (23) is a steel, square plate (26) with a bushing (27) welded to it. On the opposite edge of the bushing there is a flaring designed to strengthen the fastening of the embedded part (23) in the material of the concrete panel (1). A plastic plug (28) is installed in the end of the bushing. The embedded part (23) is installed in the concrete panel (1) during its production in the forming equipment in the specified places, according to the design of the concrete panel. After pouring and hardening of the concrete, the embedded part (23) is mounted in this concrete panel. The plastic plug (28) prevents liquid concrete from entering the internal volume of the bushing (27).

To adjust the gap between the concrete panel (1) and the pylon (2b), turn the screw (22), screwing it deeper into the embedded part (23) to reduce the gap, or unscrewing it to increase the gap. The position of the screw (22) is fixed with standard locknuts (25).

4) Upper limiting fastening (29) and lower limiting fastening (30) (shown in more detail in Fig. 5), designed for basing (positioning) concrete panels relative to each other with the required accuracy and for preventing their spontaneous movement or shifting.

The lower limiting fastening (30) consists of a steel flange (31), reinforcing bars (32) and spiral reinforcement (33), and also includes a foam plastic insert (34). The lower limiting fastening (30) is installed in the concrete panel (1) during its production in the forming equipment in the specified places, according to the design of the concrete panel, before pouring concrete. The working cavity of the forming equipment is filled with liquid concrete, including the space around the lower limiting fastening (30). After the concrete has hardened, it is mounted in this concrete panel. The reinforcing bars (32) ensure the strength of the fastening in the concrete. The foam plastic insert (34) ensures the formation of a cylindrical cavity (opening) during the pouring and curing of concrete, and the spiral reinforcement (33) forms the reinforcement of the walls of this cavity. The foam plastic insert (34) is subsequently removed. Additionally, the reinforcement bars (32) may contain washers welded to them (not shown in the figures), which ensures fixation in the concrete and eliminates the possibility of tearing out the lower limiting fastening (30) from the concrete panel (1).

The upper limiting fastening (29) consists of a steel flange (35), reinforcing bars (36) and a bushing (37), and a plastic plug (not shown in the figures) is installed in the bushing. The upper limiting fastening (29) is installed in the concrete panel during its production, before pouring the concrete. After the concrete has hardened, the upper limiting fastening (29) is mounted in this concrete panel. The reinforcing bars (36) ensure the strength of the fastening in the concrete. The space around the bushing (37) is filled with poured concrete and thus the bushing (37) forms a cylindrical opening with steel walls. The plastic plug prevents liquid concrete from entering the inner volume of the bushing (37). Additionally, the reinforcement bars (36) may contain washers welded to them (not shown in the figures), which ensures fixation in the concrete and eliminates the possibility of tearing out the upper limiting fastening (29) from the concrete panel (1).

Adjacent concrete panels (1) are fastened together using a free axle (not shown in the figures), which enters the openings of the lower limiting fastening (30) and the upper limiting fastening (29), formed respectively by the bushing (37) and the plastic insert (34). After installing the free axle in the opening of the lower limiting fastening (30), such an opening is filled with a special solution that fixes the free axle. This fact prevents the concrete panels (1) from shifting relative to each other.

The proposed suspension system for mounting a concrete panel of a building facade allows to increase the rate of construction, speed and reliability of mounting concrete facades of a building, as well as to level the concrete facade of a building to the design position even after installation of the necessary fasteners.

Claims (14)

1. A suspension system for mounting a concrete panel of a building facade, comprising: 1) a construction hanger, which is a curved metal plate (3), secured with at least one anchor (4) through an opening (5) in the floor slab (2a), in which a hole for the anchor (4) is pre-drilled, wherein the opening (5) is oblong in shape, and the curved metal plate (3) is connected to an adjustment bar (8), containing at least two adjustment holes (9) intended for installing an installation pin (9a) in them, wherein the adjustment bar (8) is connected to a threaded rod (10), where the threaded rod (10) is inserted into a coaxial hole (11) in the metal plate (3) and secured with a nut (12) located on the threaded rod (10) above the coaxial hole (11) so that it is possible to level the concrete panel (1) to the design position; 2) an embedded element installed in a concrete panel (1), consisting of a vertical metal plate (13) with bent edges (13a), to which a metal corner (14) is attached using bolts (15), nuts (16) and washers (17) through the corresponding holes, wherein the edges (13a) are bent along the radius so that a gap (18) is formed for the adjustment strip (8) between the vertical metal plate (13) and the metal corner (14); 3) at least one pressure anchor (21) containing a screw (22) and an embedded part (23) installed in a concrete panel (1), where the screw (22) consists of a threaded stud and a hexagonal nut screwed onto it, forming the head of the screw (24), a main nut and a lock nut (25) for additional fixation of the screw (22) in the embedded part (23), which is a square steel plate (26) with a sleeve (27) welded to it; 4) a lower limiting fastening (30) installed in a concrete panel (1) and containing a steel flange (31), reinforcement bars (32) and spiral reinforcement (33), as well as an insert (34); 5) upper limiting fastening (29), installed in the concrete panel (1) and consisting of a steel flange (35), reinforcement bars (36), sleeve (37) and plug; 6) a free axis entering the holes of the lower limiting fastening (30) and the upper limiting fastening (29), formed respectively by the sleeve (37) and the plastic insert (34), and fastening the adjacent concrete panels (1). 2. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that a metal corner (6) is welded to the inner corner of the curved metal plate (3), which comes into contact with the interfloor slab (2a) during installation. 3. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that the nuts (16) are installed both on the side of the metal corner (14) and on the side of the metal plate (13). 4. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that the embedded element contains openings (19) in the bent edges (13a) for metal rods located inside the concrete panel (1). 5. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that the screw (22) and the hexagonal nut screwed onto it are fastened to each other by means of a permanent mechanical connection - thread punching. 6. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that on the opposite edge of the sleeve (27) a flare is made, intended to strengthen the fastening of the embedded part (23) in the material of the concrete panel (1), and a plug (28) is installed in the end of the sleeve. 7. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that the reinforcement rods (32) contain washers welded to them. 8. A suspension system for mounting a concrete panel of a building facade according to paragraph 1, characterized in that the reinforcement rods (36) contain washers welded to them.