RU2305158C2 - Retained form block - Google Patents

Abstract

FIELD: surface construction, particularly to erect reinforced concrete residential and civil buildings provided with heat-insulation with the use of retained form.

SUBSTANCE: retained form block includes opposite facade and inner panels formed of porous heat-insulation material and provided with facing layer connected to outer side thereof. The panels are connected with bridges and define space for reinforcement receiving. The space is filled with fluid hardening material. The panels are made as rectangular parallelepipeds. Facing material covering outer side of facade panel is material used for exterior finish and does not require additional treatment. Facing material covering outer side of inner panel is material used for interior finish. The bridges are made as parallelepipeds of porous heat-insulation material and are installed to create extension from the side of upper and end side panel surfaces and depressions from the side of lower and opposite end side panel surfaces corresponding to the extensions.

EFFECT: simplified structure, decreased labor inputs for block production and structure erection of the blocks.

3 cl, 1 dwg

Description

The invention relates to land construction, namely, the construction of heat-insulated reinforced concrete walls of residential and civil buildings using fixed formwork.

Known block for fixed formwork [US patent No. 6363683, IPC EV 1/16, publ. 09/01/2000], containing two opposed plates made of porous heat-insulating material, fastened with plastic jumpers and forming a space between them for mounting the reinforcement and filling with a fluid material capable of hardening, while the upper, lower and side surfaces of the plates have protrusions and corresponding recesses for connection with other blocks, each jumper is made of three parts, and the extreme parts of the jumpers have elongated elements located inside the plates and Chiva plates disposed on outer surfaces of the plates.

The disadvantages of this design of the block are the complexity of the design of the plate, jumpers and attachment points of the jumper to the plates, which leads to a decrease in reliability and the cost of the design of the block.

The absence of lining on the slabs of the formwork block, taking into account the low strength of the heat-insulating porous material, does not allow to additionally increase the allowable size of the layer of fluid material filling the space between the plates in one pouring operation, which increases the total pause time required for the filler material to reach the specified strength, and leads to increase the timing of the wall.

The manufacture of plates and lintels from materials with different mechanical strengths contributes to the occurrence of mechanical damages in the material of the plates at the junction of the lintels with the plates during installation of the jumpers, installation of fittings and filling the space between the plates with a fluid material, which reduces the strength and reliability of the walls being erected.

In addition, the technology of wall construction does not provide for the fastening of jumpers between adjacent blocks.

The closest in technical essence and the achieved result is a block for fixed formwork [RF patent No. 2253719, IPC Е04В 1/16, Е 04 В 2/86, publ. 06/10/2005], containing two opposed plates made of porous heat-insulating material, fastened with plastic jumpers and forming a space between them for mounting the reinforcement and filling with a fluid material capable of hardening, while the upper, lower and side surfaces of the plates have protrusions and corresponding recesses for connection with other blocks, each jumper is made of three parts, and the extreme parts of the jumpers have elongated elements located inside the plates and end vayuschiesya plates having protrusions on an outer surface and disposed on outer surfaces of the plates, the plate on the plate and on the outer side of a layer of cladding partial dipping them into a mold, filled with a flowable material capable of solidification.

The disadvantages of this block design are also the complex design of the block plates, jumpers and fasteners, contributing to a decrease in reliability and the cost of the block structure.

Drawing on the outer sides of the slabs of the block and the plates of the lintels of the facing layer partially increased the strength and reliability of the block. However, the proposed process of applying the facing layer is labor-intensive and energy-intensive, requires special equipment and large production areas, which contributes to the cost of blocks. In addition, the facing layer applied to the slabs requires additional processing (machining, priming, painting, etc.) at the place of installation of the blocks, and the complex technology of applying the lining leads to the production of blocks with a limited assortment.

The manufacture of plates of lintel blocks and their elements from materials (porous material, plastic, metal, etc.) with different strength and thermophysical characteristics adversely affects the installation of lintels, installation of equipment, filling the formwork with a fluid flowing filler, as well as during the further operation of walls erected with using blocks of this design, which leads to a decrease in the reliability of the walls and the object as a whole.

The disadvantages of the blocks of this design are the complex technology of mounting the block, the high complexity of the construction of the wall, caused by the complex mandatory fixation of the plates and blocks among themselves.

An object of the invention is to simplify the design and reduce the complexity of the process of production and installation of blocks, increase the strength and reliability of both the formwork itself and the walls constructed with its use, increase manufacturability while ensuring the specified strength and bearing capacity of walls and structures, expanding the range of manufactured blocks.

This problem is achieved due to the fact that in the block for fixed formwork, containing two opposite facade and inner plates made of porous insulating material with a facing layer on the outer sides, fastened with jumpers and forming a space for mounting reinforcement and filling with a fluid material, capable of hardening, the plates are made in the form of a rectangular parallelepiped, as the material of the cladding on the outer side of the facade plate used n decorative material intended for external decoration and not requiring additional processing, the material intended for internal decoration was used as the facing material on the outer side of the inner plate, and the lintels are made in the form of a parallelepiped of porous heat-insulating material and are installed with a protrusion from the side the upper and end side surfaces of the plates and the corresponding recesses from the side of the lower and opposite end side surfaces of the plates.

At least one additional layer may be placed between the facing layer and the slab.

On the outer side of the inner plate can be made channels for the installation of utilities.

The invention is illustrated in the drawing, which shows a block of fixed formwork, General view (axonometry),

The fixed formwork block consists of two opposite plates: internal 1 and front 2. Plates 1 and 2 are made of porous heat-insulating material, for example “exprof” (the thickness of plates 1 and 2 can vary and depends on the requirements for the construction object). On the outer sides of the plates 1 and 2 using adhesive composition on a polyurethane base 3 applied facing layers 4 and 5, respectively. As a material for layer 4, a gypsum fiber plate was used. When using wallpaper for interior decoration of buildings, wallpaper can be applied to layer 4 made of gypsum fiber without additional processing. As the material for the facing layer 5 can be used materials such as "minirite" or "sling". On the outside of the plate 2, channels b are made for installing electrical wiring and pipelines.

Plates 1 and 2 are interconnected using 4 jumpers 7 (the number of jumpers and the thickness of the jumpers can be changed depending on the requirements for the construction of walls). The jumpers 7 have the shape of a parallelepiped and are made of porous heat-insulating material, in particular, in order to increase production efficiency, the material used for the manufacture of plates 1 and 2 - “Exprof” was used. The jumpers 7 are installed on the side of the upper and end side faces of the plates 1 and 2 with protrusions, and on the side of the faces opposite to them (lower and second end side faces) with corresponding recesses for connection with other blocks.

The space 8 between the plates 1 and 2 is designed to accommodate the reinforcement and subsequent filling with a fluid material capable of hardening, for example concrete.

As the facing material of the external facade plate 2, metal, porcelain stoneware, glass, plastic, as well as materials such as “flock”, chips, liquid glass applied to the surface of the plates by spraying, and other modern facing materials can be used.

As the facing material of the inner plate 1 can be used ceramic tiles, glass, plastic, gypsum fiber, drywall and other modern facing materials

Between the facing layer and the plate, additional layers of soundproofing and / or waterproofing, heat-insulating materials, material for increased reflection of heat rays or, conversely, material for accumulating thermal energy, etc. can be placed. (not shown in the drawing)

Blocks for fixed formwork are made as follows: first, sheets 1, 2 and facing layers 4 and 5 are made from sheet material, then jumpers 7 are cut, and then they are connected either mechanically or with adhesive. Cutting of sheets is carried out on existing equipment designed for cutting the corresponding sheet material. The connection of plates is made using templates that give a clear geometry of the connection of plates and jumpers.

When using fluid materials for cladding plates, first a primer is made for the sheet material, then it is coated with a cladding material, and then the plates are cut.

Blocks arrive at the construction site ready-made.

The method of wall construction includes installing on the foundation one or more rows of hollow blocks located one above the other, connecting the blocks to each other using an adhesive, for example, used in their manufacture (the thickness of the masonry joints is 0.6-0.8 mm) installation of reinforcement in the channels formed by interconnected voids of the blocks, and filling the space between the plates as necessary (hardening) with mortar mixtures of the specified parameters. At the same time laying engineering communications is possible. The cycles of erecting several rows of formwork and subsequent filling the space with filler are repeated many times until the design height of the wall is reached.

The advantages of the proposed design of blocks for fixed formwork are the simplicity of the design of the block (jumpers and plates), their production and installation of walls, which reduced the complexity and, consequently, the cost of manufacturing these blocks and wall mounting, as well as the high strength and reliability of the formwork.

Use for the manufacture of plates and lintels from materials with close (identical) characteristics helps to improve the strength and thermophysical characteristics of blocks

The invention allows to significantly expand the range of manufactured blocks, because the proposed design of the blocks allows you to produce blocks with a wide range of dimensions (height, width and thickness) and use a wide range of available materials, both for the manufacture of plates and lintels, and for cladding, which in turn determines a large selection of blocks for exterior and interior decoration .

Turnkey production of blocks in workshop rooms will improve the quality and accuracy of block installation due to a clear positioning system, reduce costs and time for subsequent additional processing of masonry walls and joints, which will also lead to an increase in the speed of construction of buildings and, consequently, to their cheaper

Thus, the implementation of the invention allows to simplify the process of manufacturing blocks of fixed formwork, to increase the reliability and strength of the formwork and walls constructed using this formwork, and thereby speed up and reduce the cost of the construction process as a whole

Claims (3)

1. Block for fixed formwork, containing two opposite located front and inner slabs made of porous heat-insulating material with a facing layer on the outside, fastened with jumpers and forming a space for mounting reinforcement and filling with a flowable material capable of hardening, characterized in that that the plates are made in the form of a rectangular parallelepiped, as the material of the facing layer on the outer side of the facade plate used material designed to exterior finish and does not require additional processing, as the material of the facing layer on the outer side of the inner plate, material intended for internal decoration is used, and the jumpers are made in the form of a parallelepiped made of porous heat-insulating material and are installed with a protrusion from the side of the upper and end side surfaces of the plates and the corresponding them recesses from the side of the lower and opposite end side surfaces of the plates. 2. The block for fixed formwork according to claim 1, characterized in that at least one additional layer is placed between the plate and the facing layer. 3. Block for fixed formwork according to any one of claim 1 or 2, characterized in that on the outer side of the inner plate there are channels for installing utilities.