EA029825B1 - Section of stay-in-place formwork for erection or outside walls of a building - Google Patents

Abstract

The invention is related to the field of civil engineering, in particular, to erection of multi-layer outside walls of cast-in-situ reinforced concrete buildings, and is directed to lower labour input and lower cost of erection of wall structures of a building and to a possibility of performing the erection work at low temperatures. A section of stay-in-place formwork comprises an inner form panel, a facade form panel, a reinforcement cage in the space between the form panels that is filled with a fluid hardening mass. The inner form panel is made of cement-bonded particle boards or of fibre boards; the facade form panel is made of one or several layers of a heat-insulating material fixed to each other in the overlap manner; a reinforcing steel net is applied to the exterior surface of the facade form panel facing outside. The inner and the facade form panels are joined to each other by means of special flexible ties made of plastic or glass-reinforced plastic.

Description

The invention relates to the construction field - the construction of multi-layer exterior walls of buildings of monolithic reinforced concrete and is aimed at reducing the complexity and cost of construction of wall structures of the building, the ability to perform work at low temperatures. The section of permanent formwork includes inner and facade shuttering panels, reinforcement cage in the space between them with filling it with a fluid hardening mass. The inner shield is made of cement-bonded or fibrolite slabs, the facade shield is made of one or several layers of heat-insulating material bonded with each other overlapped in layers, and a reinforcing mesh is applied to the outer surface of the facade shield. Internal and front panels are interconnected by means of special flexible links made of fiberglass or plastic.

029825

The invention relates to the field of construction and can be used in the construction of the outer walls of buildings and structures, providing the necessary resistance to heat transfer.

Known multilayer enclosing structures with flexible and rigid metal and composite, including fiberglass, ties. Such enclosing structures consist of an outer layer formed by brick masonry, between which is placed insulation.

Widely known enclosing structures for large-panel housing construction, the inner and outer layers of which are composed of reinforced concrete panels with insulation between them. Metal or fiberglass rods are used as flexible connections.

A known method of erecting a multilayer wall using fixed formwork of several rows of hollow concrete blocks, with the subsequent installation of reinforcement in the voids and filling the voids with thermal insulating material [1]. The wall consists of three layers: the inner insulating layer, enclosed in the space between the two outer layers of concrete. However, the inner insulating layer is not solid, since it is interrupted by concrete bridges connecting layers of concrete and creating cold bridges.

Known construction of permanent formwork, consisting of two opposed plates, made of porous insulating material, connected by plastic bridges and forming between them a space for the installation of reinforcement and filling with concrete [2]. The absence of reinforcing cladding on the slabs of the formwork block, taking into account the low strength of the insulating porous material, does not further increase the allowable size of the concrete layer filling the space between the slabs in a single pouring operation (i.e., the plates are characterized by a low perception of concrete pressure), which increases the pouring time walls. This disadvantage is partially overcome by a technical solution [3], where facing layers are applied to the formwork block plates, which, in addition to their decorative properties, increase the degree of pressure perception of concrete. This solution is even more developed in the block for fixed formwork [4], which contains two opposed front and internal plates made of porous insulation material with a facing layer on the outer sides, fastened with jumpers and forming between them the space for fitting the reinforcement and filling it with liquid. the material capable of hardening, as the material of the facing coating on the outer side of the facade slab used decorative and finishing material designed for the exterior finish and not requiring additional processing, the material used for the interior finish was used as a coating material on the outer side of the inner plate, and the lintels were made in the form of a parallelepiped of porous insulation material and installed with a protrusion from the top and end side surfaces of the plates and corresponding them by recesses on the side of the lower and opposite end side surfaces of the plates. The disadvantages of these analogues should be attributed to the inability during the construction of the building to change the types of finishing materials applied to the wall blocks beforehand (during their production), and replacing them in accordance with the individual requirements of the customer entails additional material and economic costs for dismantling the previous decoration - installing a new one. In addition, in the process of installing such blocks for fixed formwork with applied finishing layers, there is a need for an additional technological operation to seal open for atmospheric impacts joints between adjacent blocks. And, finally, there is no variation in the choice of the thickness of the heat-insulating layer, since it cannot be increased or reduced without dismantling the cladding layers if it is necessary to further change the heat-shielding characteristics of the building envelope (for example, if additional insulation is needed). These drawbacks, including the problem of achieving the strength of opposed plates, necessary for the quick pouring of any calculated amount of concrete into the internal space between the plates that make up the permanent formwork, (the problem of increasing the pressure perception of concrete slabs) are solved by using the known technology of erecting the outer enclosing structures of buildings and structures the use of fixed formwork [5], where, as its internal and external (front) slabs, are applied oppositely located s boards made of cement particle board - DSP. During installation, the internal and front panels are connected with special metal locks. Boards of cement-bonded chipboard have the necessary strength. When filling the gap between spaces with concrete, such a wall has a certain resistance to heat transfer. However, the achievement of regulatory or specified indicators of resistance to heat transfer of the exterior walls of buildings erected using this known technology requires the use of additional insulation layers applied to the external fencing of DSP boards interacting with the atmospheric environment, which entails additional material and financial costs. In addition, work on additional insulation can not be performed at ambient temperatures below -5 ° C.

The disadvantage of these analogues, including the prototype, is the high labor intensity during construction and installation works, the increase in construction time and, consequently, the increased cost of building the building, due to the fact that the design of the known elements of fixed formwork does not ensure the simultaneous achievement of their calculated parameters of heat resistance 1 029825

the transfer of the exterior walls of a building in one cycle of construction and installation works - the erection of the external fencing of the building, and requires additional cycles: such as the application of heat-insulating layers, gluing fiberglass, plastering the surface.

An object of the invention is to increase the strength and reliability of both the formwork and the walls erected with its use, improving manufacturability while ensuring the specified heat-shielding parameters of the exterior walls of the building and the bearing capacity of walls and structures, and, consequently, increasing the rate of construction while reducing labor intensity.

The achievement of the technical result is ensured by the section of the permanent formwork, which contains two opposedly located front and internal shields, fastened with bridges and forming between them a space for mounting the reinforcement and filling with a fluid material capable of hardening, the difference in which according to the invention is that the internal shield of the section is made of cement-bonded or fibrolitovy plates, the front panel is made of one or several layers of heat-insulating material, fastened among themselves layer by layer over the top m, and the outer surface of the facade panel facing the environment, coated reinforcing mesh;

lintels are complex flexible connections, each of which includes a rod with an anchor head containing a retaining ring and an anchor ring made with the possibility of abutting, respectively, the outer surface and the inner surface of the inner shield, on the one hand, and a restrictive washer made with the possibility of fixing on the rod with an emphasis in the inner surface of the facade shield facing into the space between the shields, and the clamping washer, made with the possibility of fixation when putting it on rod with abutment in an outer surface of the cladding board - on the other hand.

Restrictive washers mounted on the rods at a distance from the inner surface of the inner shield, equal to the thickness of the filling space hardening fluid material.

The achievement of the technical result is ensured by the fact that the insulating material of the panels of the facade panel is a wood-fiber material, or foamed polymer, or mineral or stone wool, or a combination of the above materials, while the plates of the facade panel are bonded to each other by means of an adhesive mass placed between them, and from the side of the outer surface of the facade panel facing the environment, the rods are equipped with a serrated notch to fix the clamping washer with emphasis to the outer top of the facade shield.

The invention is illustrated using the drawings of FIG. 1-5, which depict the following:

FIG. 1 is a schematic representation of the structure of the fixed formwork section for erecting the outer walls of a building;

FIG. 2 - flexible connection of fiberglass or plastic with a wedge rod and a slit in the anchor part;

FIG. 3 - flexible connection of fiberglass or plastic with a solid anchor without a cut; FIG. 4 - structural section of the facade panel;

FIG. 5 is a combination scheme at the edges of adjacent slabs in a facade panel.

The structural system of permanent formwork for the outer wall of a residential house (building) consists of sections of permanent formwork, the structure of which is schematically represented in FIG. one.

The section of the fixed formwork (Fig. 1) for the outer wall of a residential building constructively includes two oppositely located at a certain distance between each shield - the inner 1 and the facade 2, which are also functional layers of the outer fence of the building. Internal shield 1 - located on the building side. The outer surface 3 of the inner shield 1 faces the inner rooms of the building and forms the inner surface of the walls of the building with a corresponding plane.

The inner surface 4 of the inner shield 1 faces into the space 5 between the boards 1 and 2, which is designed to accommodate the reinforcement and then fill it with a fluid material capable of hardening, for example, with concrete.

The inner shield 1 is made primarily of cement-bonded particleboard (DSP) or fiberboard. The inner shield 1 can also be formed from two cement-bonded particleboards with a thickness of 10 to 12 mm, interconnected by one of the methods known to construction specialists.

The total thickness of the fiberboard plates in the composition of the inner shield can be from 20 to 24 mm.

The facade shield 2 - the outer layer of the permanent formwork - is a heat-insulating layer of the outer fencing of the building. The outer surface 6 of the front panel 2 faces the environment (atmosphere), and the inner surface 7 of the front panel 2 faces the space 5 between the boards 1 and 2, which is designed to accommodate the reinforcement and then fill it with a flowable material capable of solidification. On the outer surface 6 of the front panel 2, a reinforcing layer 8 of a glass mesh is glued with the possibility of applying a finishing decorative material on it.

The facade shield 2 is made of at least one or several layers of heat-insulating material 2 029825

the material, in particular, of wood-fiber plates, or of foamed polymer, or solid mineral wool, or slabs of stone wool, or of any combination of the above materials, which form the outer insulation layer of the building fencing, taking into account their porosity and resistance to heat transfer. The thickness of the facade panel 2 may vary and depends on the design requirements of heat transfer resistance of the external walls of the building. Changing the thickness of the facade shield 2 is ensured by the fact that it is formed in layers - by changing the number of layers of insulating material consisting of plates 9. On the outer surface of the outermost - facing the environment (atmosphere) - layer of insulating material by means of an adhesive layer is fixed reinforcing layer of fiberglass mesh and forms the outer layer 6 of the facade board 2. The boards 2 of the plates of the above insulation materials are both an element of the permanent formwork and slab insulation eat, the thickness of which is determined by the given resistance to heat transfer to the outer wall of the building. The formation of a facade shield 2 made up of plates 9 arranged in layers, with the possibility of changing its thickness by adding or reducing insulating plates 9 - heat insulating layers, provides a simple and convenient resistance variation To the heat transfer of the outer wall of the building in accordance with the design parameters. Moreover, the layered formation of boards 2 in the formwork sections in accordance with the specified design or regulatory parameters is carried out at the production stage before being delivered to the building construction site, which ensures a reduction in labor and time costs for the construction of the building.

The space 5 between the boards is filled with a flowable material 10 capable of solidification, preferably with a concrete mass. At the same time in the filled space it is possible to place the reinforcement cage 11 according to the design calculation. In certain cases, the filling of the space 5 between the boards 1 and 2 can be carried out without reinforcement.

Shields are interconnected by complex flexible connections of anchor type made of fiberglass or plastic.

Flexible connection 12 made of fiberglass or plastic (Fig. 2) or (Fig. 3) is a rod 13 with anchor head 14 in the form of an anchor with locking 15 and thrust 16 rings - on the one hand, and restrictive washer 17 for insulation and notched notch 18 for fixing the clamping washer 19 on the other side. On the opposite side fixed in the inner shield of DSP rods 13 flexible connections 12 at a certain distance equal to the thickness of the filling layer hardening fluid material 10, from the inner surface 4 of the inner shield 1 provided restrictive washers 17, which provide installation of the facade shield 2 at a predetermined distance (depending on the thickness of the space 5 filled with solidified fluid material 10) from the inner surface 4 of the inner shield 1, i.e. The position of the restriction washers 17 on the rods 13 determines the distance of installation of the heat-insulating layer of the outer fencing of the building from the internal shield of the DSP. When this restrictive washers 17 are fixed on the rods 13 with an emphasis on the inner surface 7 of the front shield 2 facing the space 5 between the boards 1 and 2. On the side of the outer surface 6 facing the environment (atmosphere), the front shield 2 is fixed by pressure washers 19 which are put on the notched notch 18 fiberglass or plastic rods 13 with an emphasis on the surface 6, thus fixing the facade shield 2 at a certain distance from the inner shield 1, which can vary depending on the thickness of the filling 5 and the thickness of the rods 13 of the flexible connection and the length of their section with notched notch 18 at the ends of the rods must be clearly determined taking into account the variability of the mentioned geometric dimensions - the thickness of the filled spaces 5 and thicknesses (the number of insulating layers - plates 9) of the facade shield 2. Fiberglass (plastic) rods for flexible connections 12 have a diameter of 10-16 mm. The number of flexible connections is determined by the design calculation.

From the side of the inner shield 1 of the DSP, the rod 13 of the flexible anchor connection 12 is mounted in the previously made hole in the shield 1. At the same time, according to one of the practical implementation options for the flexible connection, its anchor part - the head 14 of the rod 13 can be inserted into the shield 1 - from its side the inner surface 4 (Fig. 2), while the anchor part of the rod - its head 14 is compressed along the cut 21 on the anchor part and inserted into the hole with the embedding of the head 14 of the rod 13 into the shield until it stops at the inner surface 4 of the retaining ring 16 on the rod and rigidly fixed by retaining ring 15 by wedging the anchor head 14 with a wedge rod 20. Passing the retaining ring 16 through the hole in the surfaces (3, 4) of the shield 1 is provided by reducing its diameter by cutting 21 when the head 14 is compressed, and the stop into the inner surface 4 of the retaining ring 16 on the rod is achieved by an elastic recovery of the diameter of the stop ring 16 after the compression of the rod head has ceased. The retaining ring 16 is thus made in one piece with the head 14, i.e. fixed, in the manufacture of flexible coupling anchor.

This embodiment of the flexible connection allows both to skip the presented flexible connection with the head 14 compressed in the 21 section through the holes in the combined shields 1 and 2, and to slide the shield 1 onto the flexible connection fixed in the front panel 2, passing it through the 21 - 3 029825

by dexterous 14 through the corresponding hole in the shield 1 until the stop of the ring 16 into the inner surface 4.

In another variant of the practical implementation of a flexible connection (more preferable due to the absence of a wedge rod 20 and a cut 21 of the head 14 of the rod 13), its anchor part — the head 14 of the rod 13 can be inserted from the outer surface 3 of the shield 1 (FIG. 3); part of the rod - its head 14 is made solid without a cut and is inserted into the hole in the shield 1 with the insertion of the head 14 of the rod 13 into the shield until the stop ring 15 stops on the rod into the outer surface 3 and is rigidly fixed by the stop ring 16, which is made removable (p detachable from the rod 13) with the possibility of fixation on the head 14. For this purpose, the stop ring 16 has a radial section, located perpendicular to the rod while fixing the ring in the intended recess on the head 14 of the rod. In the drawings, the structure of the stop ring 16 is not shown, since There are many known technical solutions for fixing a stop ring on a rod.

In both of the presented embodiments, the anchor portion of the rod 13 must be recessed into the inner shield 1 of the DSP, the flexible connection 12 is fixed in the shield 1 by the stop ring 16 on the inner surface 4 and the locking ring 15 on the outer surface 3 of the shield 1, and the restrictive washer 17 is located on the rod 13 on the border of the inner surface 7 of the facade shield 2.

The rods of flexible connections are perpendicular to the plane of the formwork panels. The formation of a section of fixed formwork in thickness from the inner and layered facade panels is carried out due to the complex interaction of flexible connections with the surfaces of the shields: anchoring of the rod head in the inner shield, abutment of the thrust rings 16 into the inner surface 4 of the inner shield 1 - on one side, and snapping of the pressure washers 19 when they are put on the notched cog 18 rods 13 with an emphasis on the outer surface 6 of the facade shield 2 - on the other side (outer), as well as intermediate fixation of the facade shield plates by means of your restrictive washers 17 fixed on the rods 13 with an emphasis on the inner surface 7 of the facade shield 2. The restrictive washer 17 of the flexible coupling 12 can be made on the rod 13 as removable (separable from the rod), as well as integral with it in the manufacture of flexible links. Speakers for the outer surfaces 3 and 6 of the respective shields of the flexible links are cut off.

The front shield 2 of the section of permanent formwork consists of layers of overlap (see the structural section in Fig. 4) of plates 9 made of insulating material, preferably porous, in particular, of fibreboard, or of foamed polymer, or solid mineral wool. , or stone wool slabs, which form the outer insulation layer of the building's fencing, or from any combination of the above materials. Plates of the facade panel are mutually arranged in layers and can be fastened together by any of the known glue-free technologies, or, more preferably, with the help of an adhesive mass placed between them, which contributes to an increase in their transverse rigidity. In this case, the edges of the heat-insulating plates 9 are made with protrusions 22, aligned with the ledges on the edges of the adjacent plates 9 in the facade panel, as schematically shown in FIG. 5, in order to enhance its insulating properties. On the outer surface 6 of the front panel 2, a reinforcing layer 8 of a glass mesh is glued with the possibility of applying a finishing decorative material on it.

The achievement of the technical result is ensured by the fact that the inner shield of the formwork section is made of cement-bonded or fibrolitovyh plates, which, due to their strength, are both internal (from the building premises) element of the permanent formwork for the walls of the building, and because of the smoothness and flatness of their outer surface 3, facing the interior of the building, is a universal basis for finishing interior decoration of the building. In order to ensure the design or regulatory thermal characteristics of the building’s outer fencing, the facade shield is made of one or several layers of porous insulation material bonded to each other in layers overlap, and the facade and interior panels are connected by means of a specially calculated distribution of complex flexible connections over their area, the use of which is not only provides the design transverse rigidity of the entire wall structure, but also excludes the emergence of "cold bridges" that worsen the heat marketing parameters of the walls.

A significant advantage of the presented section of permanent formwork is also the fact that the insulating sheath of the external fence of the building and prepared for finishing the surface of the external fence of the building can be pre-formed at the factory and completed in the form of fixed formwork sections that are ready for installation on the building site in accordance with the standard or set requirements for the thermal parameters of the building.

Installation of the proposed structural system of the sections of the permanent formwork as follows.

Each factory-assembled section of the permanent formwork is mounted on a pre-prepared foundation with special reinforcement releases that are associated with the reinforcement cage 11, which is located in space 5 of the section of the permanent formwork.

Sections of fixed formwork are installed on a floor and section basis, taking into account the design structure and architectural features of the building. Filling the hardening fluid material of the internal space 5 (most often concreting) of the installed sections non-removable

- 4 029825

formwork is produced according to the developed technological regulations. Upon completion of concreting of the wall sections of the permanent formwork of the floor, the elements of the fixed formwork of the floor deck are mounted. The proposed technical solution provides high rates of construction at a relatively low cost of labor, allows you to implement various architectural and design solutions, to carry out the construction of buildings in all weather conditions.

Information sources:

1. Patent CI 2104374, IPC E04B2 / 02, publ. 02/10/1998

2. Patent IZ 6363683, IPC Е04В 1/16, publ. 09/01/2000

3. Patent CI 2253719, IPC Е04В 1/16, Е 04 В 2/86, publ. 06/10/2005

4. Patent CI 2305158, IPC Е04В, publ.27.08.2007

5. UZT Ushmtd 1esbiot§1e5 - information from the Internet page ^^^ U81i11Fps§1esHpo1o§1е8.sosh as of 10/20/2015.

Claims (5)

CLAIM 1. A section of fixed formwork containing two opposedly located front and internal shields fastened with bridges and forming a space for fitting the reinforcement and filling with a flowable material capable of hardening, characterized in that the internal shield of the section is made of cement-bonded fiberboard or fibrolite plates, The facade panel is made of one or several layers of heat-insulating material, bonded together in layers overlap, and on the outer surface of the facade panel facing the environment, worn reinforcing mesh; the bridges are complex flexible connections, each of which includes a rod (13) with an anchor head containing a retaining ring (15) and a retaining ring (16) made with the possibility of abutting, respectively, into the outer surface (3) and the inner surface (4 ) the inner shield (1), on the one hand, and the restrictive washer (17), made with the possibility of fixing on the rod with an emphasis into the inner surface (7) of the facade shield (2) facing the space between the boards, and the clamping washer (19) configured to lock when it is worn on the rod (13) with an emphasis on the outer surface (6) of the facade panel, on the other hand. 2. Section of permanent formwork according to claim 1, characterized in that the restrictive washers (17) are fixed on the rods (13) at a distance from the inner surface (4) of the inner shield (1), equal to the thickness of the filling space with hardening fluid. 3. Section of permanent formwork according to claim 1, characterized in that the heat-insulating material of the slabs of the facade panels is a wood-fiber material, or foamed polymer, or mineral or stone wool, or a combination of the above materials. 4. Section of permanent formwork according to claim 1, characterized in that the plates of the layers of the facade shield of insulating material are fastened together by means of an adhesive mass placed between them. 5. Section of fixed formwork according to claim 1, characterized in that from the outside surface (6) of the facade panel (2) facing the environment, the rods (13) are equipped with a notched notch (18) for fixing the clamping washer (19) focusing on the outer surface (6) of the facade panel (2). - 5 029825