RU58572U1 - FIXED FORMWORK - Google Patents

Abstract

ESSAY

FIXED FORMWORK The utility model can be used in the construction of insulated concrete walls of residential and civil buildings using fixed formwork. Objective: simplify the design of opa-splice. SUBSTANCE: fixed formwork made in the form of a block containing two opposed plates made of porous heat-insulating material, fastened with jumpers and forming a space for mounting the reinforcement and filling it with hardening fluid material, while the upper, lower and side the first ends of the plates have protrusions and corresponding recesses for connection with other plates, each jumper contains elongated elements located between the plates and support plates located on the outer surfaces of the plates, characterized in that the grooves are provided with the lower edges, and the protrusions are provided with the upper edges of the plates, while the transverse section of the protrusions and grooves is given a rectangular shape or the shape of an isosceles trapezoid with a narrow base facing upward, and the side edges are provided with grooves and protrusions, the cross-section of which is given the shape of an isosceles trapezoid, the larger base of which is the bottom of the groove, in addition, the elongated elements of the bridge are made of vertical plates that are rigidly fastened to us-mi plates perpendicularly thereto, the vertical plates pro-lent through vertical slots formed in the plates, wherein udli-nennye jumper elements rigidly attached to each other. In addition, for the manufacture of plates of the outer surface of the formwork, foam polystyrene with a density higher than the density of polystyrene foam used for the manufacture of plates of the inner surface of the formwork was used. In addition, polypropylene was used to make the jumpers. 2 C.p. fs, 3 ill.

Description

The utility model relates to ground construction and can be used in the construction of insulated reinforced concrete walls of residential and civil buildings using fixed formwork.

Builders are interested in obtaining structures with firmly connected layers of materials with various mechanical and thermophysical characteristics. Recently, thanks to the introduction of fixed formwork, building construction elements have become widespread, in which layers of materials with high strength are connected, for example, reinforced concrete layers and layers of materials with high thermal insulation properties, for example, foam layers. When designing buildings, varying the thickness and location of such layers in structural elements enables architects to find solutions that are optimal in terms of reliability, economy and aesthetics.

Known fixed formwork made in the form of a block containing two opposed panels of heat-insulating material, which are connected by jumpers. The space between the panels is filled with concrete (see US Pat. No. 6401419, class E 04 B 2/28, 2000).

The disadvantages of this technical solution is the need for the use of lifting means for mounting panels and the relatively low reliability of the attachment points of the jumpers to the panels, because the foam is inferior in strength to the material of the jumpers.

Known fixed formwork containing two rigid walls connected by jumpers, made by molding from sand concrete mixtures (see US Pat. RU No. 2104374, class E 04 B 2/02, 1998). When erecting walls, the free space between the walls of the blocks is filled with insulating material.

The disadvantage of this design is the presence of massive bulkheads in concrete in the formwork blocks, i.e. relatively high material

thermal conductivity. As a result, the block of fixed formwork cannot serve as a reliable heat insulator and keep heat in the room due to the presence of heat-conducting elements (jumpers) in it.

Non-removable formwork is also known, made in the form of a block containing two opposed plates made of porous heat-insulating material, fastened with jumpers and forming a space between them for mounting the reinforcement and filling with hardening fluid material, the upper, lower and side ends of the plates have protrusions and corresponding recesses for connection with other plates, each jumper contains elongated elements located between the plates and support plates located on the outer surfaces of the plates (see US Pat. No. 6,363,683, class E 04 B 1 / 16,2000).

The weak point in the formwork design is the jumper attachment to the slabs, since it can transmit tensile forces, but cannot fully transmit bending moments, especially moments acting in the vertical plane, which negatively affects the stability of the plates during filling of the formwork with filler (filler layer height , poured into the formwork at a time, is significantly limited by the strength of the plates connected by jumpers, which negatively affects productivity, since it increases when raised wall, the total pause time required for the filler material to reach the specified strength). In addition, the design of the formwork is complicated.

The technical problem to be solved is the simplification of the formwork design.

The technical result obtained when solving the problem is expressed in simplifying the manufacturing process of formwork elements, increased moisture resistance of its outer surface and the strength of the connection of individual plates along the horizontal surface.

To solve the problem, fixed formwork made in the form of a block containing two opposed plates made of porous heat-insulating material, bonded

jumpers and forming between themselves space for mounting reinforcement and filling with hardening fluid material, while the upper, lower and side ends of the plates have protrusions and their corresponding recesses for connection with other plates, each jumper contains elongated elements located between the plates and support plates located on the outer surfaces of the plates, characterized in that the grooves provided with the lower edges, and protrusions provided with the upper edges of the plates, while the cross-section of the protrusions and grooves is attached to a straight a flat or isosceles trapezoid shape facing upwards with a narrow base, and the side edges are provided with grooves and protrusions, the cross section of which is given the shape of an isosceles trapezoid, the larger base of which is the bottom of the groove, in addition, the elongated bridge elements are made of vertical plates that are rigidly fastened to the supporting plates perpendicular to them, and vertical plates passed through vertical slots made in the plates, while the elongated elements of the jumper are rigidly fastened to each other with a friend. In addition, polystyrene foam with a density higher than the density of polystyrene foam used for the manufacture of plates of the inner surface of the formwork was used to make plates of the outer surface of the formwork. In addition, polypropylene was used to make the jumpers.

A comparative analysis of the totality of the features of the proposed solution and the totality of the features of analogues and prototype indicate that the proposed technical solution meets the criterion of "novelty."

Moreover, the set of distinctive features of the utility model formula allows us to provide a solution to the problem, namely, simplification of the formwork design.

Figure 1 shows a section across the formwork in the plane of the jumper; figure 2 shows a top view; figure 3 shows a top view of the corner of the wall.

The drawings show the external 1 and internal 2 plates made of porous insulating material (expanded polystyrene)

located opposite each other (opposite), the space 3 for mounting the fittings 4 and the placement of hardening fluid material 5, the upper 6, lower 7 and side 8 ends of the plates, horizontal protrusions 9 and grooves 10, vertical protrusions 11 and grooves 12, jumpers 13, containing elongated elements 14 (located between plates 1 and 2) and support plates 15, outer surfaces 16 of plates 1 and 2, vertical slots 17.

The outer 1 and inner 2 plates are made of polystyrene foam of different density (polystyrene foam with a density (class of at least 25) higher than the density of the polystyrene foam used to make the plates of the inner formwork is higher than the density of the polystyrene foam used for the manufacture of plates plates of the inner surface of the formwork The jumper elements (and elongated elements 14 and support plates 15) are made of polypropylene and rigidly bonded to each other ohm, the elongated elements 14 comprise support plates 15 with the T - shaped structure (in plan view).

Horizontal protrusions 9 and grooves 10 are made with a rectangular cross-section or in the form of an isosceles trapezoid facing a narrow base up. The vertical protrusions 11 and the grooves 12 are made with a cross section in the form of an isosceles trapezoid, the larger base of which corresponds to the bottom of the groove 12.

The extreme (located on the corner) plates 18 and 19 differ from plates 1 and 2 in that their vertical grooves 12 are not placed on the end of the plate, but on its inner surface and oriented parallel to the ends. It is advisable that part of plates 1 and 2 be equal to 1/2 of the length of the remaining plates, which ensures the “ligation” of vertical “joints” between the plates that make up the adjacent layer.

In the manufacture of fixed formwork, first, by the method of molding porous (foamy) materials, plates 1 and 2 are obtained with the end protrusions and grooves necessary for further technological operations, and

also with vertical slots 17. In parallel with these methods of plastic deformation, parts of the jumpers 13 are made of plastic (elongated elements 14 are made integrally with the support plates 15). The elongated elements 14 can be fastened to each other by push-button connecting elements or U-shaped metal brackets, such as those used in staplers - the connecting elements are not shown in the drawings). It is advisable to provide one side of the elongated elements with ribs (not shown in the drawings), which increases their adhesion to hardening material.

When installing the walls, a foundation is made in a known manner, on the surface of which the plates of the lower row of fixed formwork are fixed, and each subsequent formwork plate is inserted from above by the protrusion 11 into the groove 12 of the already installed plate. In this case, the plates are oriented upwards by horizontal projections 9. Next, a second layer of plates is installed in the same order. Then, the elongated elements 14 of the jumpers 13 are passed into the vertical slots 17, they are pressed tightly against each other and fastened in several places over the area of the elongated elements 14, stapling them in brackets in a known manner. Next, the fittings 4 are mounted and a hardening fluid material 5 is introduced into the gap between the plates. After that, everything is repeated until walls of a given height are formed.

The increased density of the outer layer plates reduces their saturation with moisture, which leads to the loss of thermal insulation properties by the plates. The adopted system of mounting plates (upwards by projections 9, eliminates the ingress of water flowing along the outer surface onto the contact of the inner surface of the plates and the hardened fluid material 5.

Claims (3)

1. Fixed formwork made in the form of a block containing two opposed plates made of porous heat-insulating material, fastened with jumpers and forming a space between them for mounting the reinforcement and filling with hardening fluid material, the upper, lower and side ends of the plates have protrusions and corresponding recesses for connection with other plates, each jumper contains elongated elements located between the plates, and support plates located on the outer surfaces plates, characterized in that the grooves are provided with the lower edges, and the protrusions are provided with the upper edges of the plates, while the cross-section of the protrusions and grooves is given a rectangular shape or the shape of an isosceles trapezium facing a narrow base upward, and the side edges are provided with grooves and protrusions, the cross-section of which the shape of an isosceles trapezoid is given, the larger base of which is the bottom of the groove, in addition, the elongated elements of the bridge are made of vertical plates that are rigidly fastened to the supporting plates perpendicular to them, and the vertical plates are passed through vertical slots made in the plates, while the elongated elements of the bridge are rigidly bonded to each other. 2. The fixed formwork according to claim 1, characterized in that polystyrene foam with a density higher than the density of polystyrene foam used for the manufacture of plates of the inner surface of the formwork is used for the manufacture of plates of the outer surface of the formwork. 3. The fixed formwork according to claim 1, characterized in that polypropylene is used for the manufacture of jumpers.