RU2071534C1 - Interior wall panel - Google Patents

Abstract

FIELD: civil engineering; large prefab panel used in construction of various-purpose buildings and structures. SUBSTANCE: interior wall panel is made of thermally treated concrete mix and contains string-type reinforcement in the form of tensioned pieces extended over panel length and located in rows within panel thickness. Panel has slots 7,8,9 in its surface which are located both along its vertical ribs and along its horizontal ribs, and panel is also provided with internal anchors located in two rows within panel thickness, and remaining in concrete. Anchors are rectangular in shape and provided with supporting flats and they are interconnected inside panel thickness before its formation. Panels are joined through internal anchors and for this purpose bodies of internal anchors are provided with frontal internal anchors and for this purpose bodies of internal anchors are provided with frontal vertical protrusions having holes extending to panel slots. Connection of protrusions of internal anchors 5 is effected by additional connecting articles and their ribs are secured in anchor protrusions by means of pins and bolts with washers and nuts inserted into extended longitudinal and inline holes or into one vertical and other horizontal hole in plates of connecting articles. String reinforcement is made of endless line wound around internal anchors in double-axis direction and in two rows within panel thickness with rigid fastening of both ends of line on bodies of internal anchors so as to prevent creeping of concrete along metal reinforcement string. EFFECT: high efficiency. 1 cl, 5 dwg

Description

 The invention relates to the field of construction and can be used in the manufacture of internal wall panels of large-panel housing construction, single-story housing construction, civil buildings, industrial buildings and other structures.

 An internal wall panel is known, including a heat-treated concrete solution with a welded reinforcing cage, having grooves on the lateral ends where the loops go out to connect the panels in the longitudinal or end direction to each other, and on the top there are recesses with a groove where the lifting loops go out, at the corners there are recesses on the top of the panel, where the embedded connecting parts exit, through which, by welding through additional overhead connecting parts of the panel, they are connected to each other, for passing electric wiring in the panel body there is a hidden power channel, and on the top and bottom of the panel opposite the channel outlet there are radius grooves, and on the plane of the plate there is a hole for electrical outlets, and on other panels there are holes for switches (Indoor wall block 88 P 10.6-1.2 made of dense silicate concrete. Belgosproject )

 The disadvantage of this internal wall panel is low crack resistance, rigidity, high metal consumption, low manufacturability both in the manufacture of the panel and in the assembly of the building itself, where the panels are connected by welding.

 Known internal transverse wall panel, including heat-treated concrete mortar with a welded reinforcing cage, where the lower part of the panel is made with protrusions, on one of the end parts of the panel there are two grooves into which the connecting parts of the joint of the connection exit, and on the other end part of the panel above and below there are recesses for installing a temporary mounting device on which an external wall panel is hung during installation and into which the connecting parts come out (ed. St. N 1252440, E 04 B 1/02, 1982, multi-storey building pnopanelnoe building and the method of its construction).

 The disadvantage of this internal wall panel is that it has low crack resistance, rigidity and strength, high metal consumption, and at the same time, the design of the threaded joint is contaminated with concrete mortar during its molding and oxidation during heat treatment of concrete, and it requires strict size retention from the base of the panel to its center and the parallel arrangement of the axial line of the threaded hole with respect to the base and lateral planes of the plate, there is no fastener connection internally wall panel with the top and bottom panels overlap. Embedded connecting parts do not have a connection with the panel frame, which contributes to tearing-knocking out the connecting part itself with a piece of concrete.

 The closest in technological essence is a prestressed string-silicate board reinforced with string reinforcement with a diameter of 0.8 mm in one longitudinal direction, with the arrangement of reinforcing strings in separate segments in two rows along the thickness of the panel and at a distance of two centimeters across the width of the plate (see Autoclaves materials and products, a collection of articles edited by Prof. A.V. Volzhensky, Corresponding Academician of the USSR and M.S.Shvartszayda, Candidate of Engineering Sciences, M. Gosstroiizdat, 1956, p. 39).

 The disadvantage of this slab of cellular concrete is that it has low crack resistance, rigidity, strength, because they depend only on the adhesion of the concrete solution to the metal, high metal consumption, low labor productivity in the manufacture, lack of the ability to connect one plate with another.

 The purpose of the invention is to increase crack resistance, rigidity, strength, load-bearing capacity, reduce metal consumption and create the possibility of connecting the internal wall prestressed concrete panel with the external wall panels with other internal wall panels and floor panels using bolted connections, and simplifying the design of bolted connections. To achieve this, the internal wall panel, including heat-treated concrete mortar with reinforcement made of string segments stretched in two rows along the thickness of the panel, where the panel is equipped with internal anchors remaining in concrete located in two rows along the thickness of the panel, the string reinforcement is applied as continuous closed thread, which is wound on the internal anchors in a biaxial direction and is located in two rows along the thickness of the panel, and for connecting the internal prestressed reinforced concrete wall panel to the outer wall panels with other internal wall panels, as well as with floor panels, it is provided with grooves along the ribs, and the connection of the internal wall panel with others is carried out through internal anchors, for which they are equipped with front lower or upper vertical outlets with holes in them, and the front ones the outlets of the anchors go into the grooves of the edges of the panel, through the front outlets with the help of connecting additional parts, rollers with cotter pins, bolts with nuts and washers, the panels are interconnected the anchors are provided with supporting platforms, at the same time the upper anchors (along the thickness of the panel) are connected to the lower internal anchors using rods and rollers, for which the anchor bodies are also equipped with rear upper or lower outlets with holes in them, the front outlets of the connecting upper anchors of vertically standing panels play the role of lifting loops of the panel, the tension force of the reinforcement of each layer of the panel equally.

 The inner wall panel can be made of lightweight or cellular concrete, while string fittings and internal anchors are protected by a corrosion-resistant material. The inner wall panel can be made of dense silicate concrete, and at the same time they can be made with a doorway, with channels for hidden electrical wiring, with holes for switches, sockets and other electrical appliances. And the end sections of the lower part of the inner wall panel are provided with protrusions.

 Figure 1 shows the plane of the inner wall panel; figure 2 is the same view from the side of figure 1; figure 3 arrangement of anchors and string reinforcement in the plane of the panel (section aa figure 2); in Fig.4 node I, view of it along arrow B in Fig.1; in Fig.5 node II, view along arrow C in Fig.3.

 The inner wall panel includes a heat-treated concrete mortar 1 (Figs. 1, 3) with string reinforcement 2, which is wound on the inner anchors 3, 4, 5, 6 (Figs. 3, 4, 5) remaining in concrete 1, which are located in two rows of panel thickness. String reinforcement 2 (Fig. 3) is wound in the form of a continuous closed thread on the internal anchors 3, 4, 5, 6 (Figs. 3, 4, 5) in the biaxial direction and is located in two rows along the thickness of the panel. To connect the inner wall panel with the outer wall panels, other internal wall panels and floor panels, it is provided along the perimeter along the ribs with grooves 7, 8, 9 (Figs. 1, 3, 4). And the direct connection of the panel with other panels is carried out through internal anchors 5, 6 (Fig. 1, 3, 4), for which they are equipped with front outlets 10, 11 (Fig. 4) with holes 12 in them. And the front outlets 10, 11 of the anchors 5, 6 (FIGS. 1, 3) themselves go into the slots of the panel 7, 8, 9. Through the front outlets 10, 11 with the help of additional connecting parts 14, rollers 13 (FIG. 4) with cotter pins 15, bolts with washers and nuts (not shown in the drawing), the panels are interconnected. The housing 16 of the internal anchors 3, 4, 5, 6 is equipped with a supporting platform 17 (Fig.3, 4), which reduces the specific pressure on concrete, avoiding crushing of concrete. The upper anchors 3, 5 along the thickness of the panel with the help of rods 18 (Fig. 4) and rollers 19 are connected to the lower internal anchors 4, 6 (Fig. 4), for which the housing 16 of the anchors are also equipped with rear upper 20 or lower 21 outlets with holes 22 in them. The front outlets 10, 11 of the connecting upper anchors 5, 6 of the vertically standing panel, extending into the grooves 8, act as load-lifting loops of the panel. The end sections of the lower part of the inner wall panel are provided with protrusions 2, 3 (Figs. 1, 3). The tension force of the string reinforcement of each layer of the panel is the same. The inner wall panel can be made of lightweight, cellular concrete or dense silicate concrete, where string reinforcement 2 and internal anchors 3, 4, 5, 6 with rods 18 and rollers 19 are protected by corrosion-resistant material. The inner wall panel can be made with a doorway (not shown in the drawing) with channels for concealed wiring, with holes for switches, cutters and other electrical appliances (not shown in the drawing).

 The manufacture of an internal wall panel pre-stressed with string reinforcement, with internal anchors made according to applications for ed. St. N 4318685 and N 4318686, on which the string reinforcement is wound, helps to maintain a continuous closed thread of the reinforcement 2, and the loops of the reinforcement 2 in a stressed state, which prevents concrete creep along the reinforcement, i.e. loss of tension in the reinforcement. This increases the crack resistance, rigidity, strength, load-bearing capacity of the panel, reduces the consumption of metal, because it avoids the use of special embedded parts for connecting the panels to each other and prevents the operation of electric arc welding, which is unacceptable with tensile reinforcement.

 The use of internal anchors 3, 4, 5, 6 makes it possible to more fully use the mechanical properties of reinforcing steel, pulling it with a coefficient of 0.7 on the temporary resistance of the reinforcement, and apply more durable grades of reinforcing steel, thereby reducing metal consumption.

 The use of internal anchors with front vertical outlets makes it possible to connect prestressed reinforced concrete products through them, where stressed reinforcement is directly involved in the joint of the panels.

 Changing the design of the connection of the panels to each other and the use of an additional connection makes it possible to connect the internal wall panel to the floor panels, giving the building seismic resistance.

 Changing the design of the connection of panels through intermediate connecting parts makes it possible to quickly assemble the building, allowing deviations in the location of the additional connecting parts themselves from the design position of at least ± 30 mm both in height of the panel and in its thickness. The manufacture of an internal wall panel of this design makes it more resistant, which makes it possible to impart seismic resistance to the building.

Claims (5)

 1. The inner wall panel, including heat-treated concrete mortar with reinforcement made of strings stretched in two rows along the thickness of the panel, characterized in that, in order to increase crack resistance, stiffness, strength, load-bearing ability, reduce metal consumption, provide the ability to connect the inner wall panel with overlapping panels by means of a bolted connection and simplification of its design, it is equipped with internal anchors located in two rows along the thickness of the panel, and the string reinforcement is made in the form of a continuous lock thread, wound on internal anchors in a biaxial direction, the panel being perimeter with grooves, and the internal anchors provided with outlets extending into the grooves with openings for connecting parts of the panel, the anchors having support areas to reduce specific pressure on concrete, and opposing anchors using rods and rollers are interconnected through the outlets of anchors with holes in them, while the end sections of the lower part of the panel are made with supporting protrusions, and the tension force of the reinforcement in all directions eniyah same panel.  2. The panel according to claim 1, characterized in that it is made of light or cellular concrete, and the string reinforcement and its anchors are protected by a corrosion-resistant material.  3. The panel according to claim 1, characterized in that it is made of dense silicate concrete.  4. The panel under item 1, characterized in that it is made with a doorway.  5. The panel according to claim 1, characterized in that it is made with channels for concealed wiring with holes for electrical fittings.

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