RU2382153C1 - Method for erection of multilayer wall with internal monolithic layer - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: method for erection of multilayer wall with internal monolithic layer includes erection of external layer of wall by means of laying of structural, mainly stone, materials over each other mostly in horizontal rows, with creation of seams between rows of the latter and with embedment of transverse flexible joints into specified seams, which are arranged in the form of dowels that protrude into zone of erection of internal monolithic layer of wall, laying of heat insulation layer from heat insulation material panels with fixation of the latter on external layer of wall, installation of armature frame in mentioned zone with its fixation on specified dowels, and erection of internal monolithic layer of wall with installation of detachable curb on internal side of erected wall with fixation of the latter in working, preferably vertical, position at a specified distance from heat insulation layer, concrete pouring into space between heat insulation layer and detachable curb and removal of curb after concrete hardening. Transverse flexible joints used are represented by dowels, which are arranged with openings for fixation of armature frame, and detachable curb used is represented by shields equipped with threaded fastening elements with thrust caps, for instance construction screws, and arranged with holes under specified fastening elements, armature frame is mounted from armature rods and fixed by means of installation of the latter in holes of dowels, embedment of which is arranged mostly in horizontal rows - in accordance with direction of structural materials rows, heat insulation material slabs are installed between mentioned rows of dowels and fixed on external layer of wall by means of jamming of specified slabs on top and bottom between dowels, and each shield of detachable curb is fixed in working position by means of its fixation to external layer of wall with the help of specified fastening elements, for this purpose the latter are inserted into openings of specified shield from its external side and are screwed along thread into external wall layer with support of fastening elements caps against curb shield after the latter has been brought into working position, besides prior to removal of curb fastening elements of its shields are screwed out from external layer of wall and taken out of monolithic layer for their further usage as fastening elements of curb shields or are left in erected wall as reinforcing elements of the latter with removal of caps of specified fastening elements, and erection of monolithic layer of wall along height is carried out in a single stage with application of curb shields, every of which is installed along the whole height of erected wall, or in several stages - with application of curb shields, every of which is installed at height of erected wall section, which corresponds to one of specified stages, besides erection of monolithic wall layer in several stages is carried out with rearrangement of curb shields upwards to a new level after hardening of concrete at the section of monolithic wall layer, erected as curb shields are installed at their previous level, besides length, thickness and material of detachable curb shields, and also number and location of holes for fastening elements in specified shields are selected with provision of stable working position of specified shields in process of concrete pouring.

EFFECT: reduction of labour intensity and improved efficiency in erection of multilayer wall, no necessity in usage of construction cranes and their dismantling in process of curb removal, simplified fixation of heat insulation layer on external wall layer and simplified connection of flexible joints to armature frame of monolithic wall layer, possibility to use suggested method in private house building.

17 cl, 9 dwg

Description

The invention relates to the construction of buildings and structures with multilayer walls and can be used in the construction of multilayer walls with an outer layer mainly of stone building materials, a heat-insulating layer and an internal monolithic layer.

A known method of erecting a multilayer wall with an inner monolithic layer, including the erection of the outer layer of the wall by laying on top of each other mainly horizontal rows of structural materials with the formation of seams between the rows of the latter and laying in the specified seams along the entire length of the erected wall of the reinforcing mesh, protruding into the zone of erection of the inner a monolithic layer of a wall, laying of a heat-insulating layer, installation of a removable formwork at a predetermined distance from the thermal insulation from the inside of the wall being erected layer, pouring concrete between the heat-insulating layer and the removable formwork and removing the formwork after the concrete has hardened (patent RU 2229570, IPC E04B 2/10, 2/02, publ. 05.27.2004).

The disadvantage of this method is the high consumption of reinforcing mesh, laid along the entire length of the wall being erected, which leads to an increase in the cost of construction of buildings and structures with multilayer walls. However, with a large length of the wall being erected, the roll of the reinforcing mesh has a large weight, which makes it difficult to lay the specified mesh in the horizontal seams of the outer layer of the wall and requires the use of special mechanisms to perform this operation. To eliminate this drawback, rolls of reinforcing mesh of small length can be used, providing the possibility of manual laying of the mesh, however, in this case, additional operations will be required to connect the joints of the ends of these rolls, for example, by welding or wire, which will complicate the technology of wall construction. In addition, in the known method does not provide vertical reinforcement of the bearing monolithic layer of the wall.

Closest to the proposed method of erecting a multilayer wall with an internal monolithic layer, the technical essence is the prototype method of erecting a multilayer wall with an internal monolithic layer, including the erection of the outer layer of the wall by laying on top of each other mainly horizontal rows of structural, mainly stone, materials with the formation of joints between the rows of the latter and with a tab in the specified seams of transverse flexible ties made in the form of reinforcing bars, protruding x into the zone of erection of the inner monolithic layer of the wall, laying the heat-insulating layer of insulation plates with the latter fastened to the outer layer of the wall, installation in the said zone of the reinforcing cage with its fastening on the indicated reinforcing bars and erection of the inner monolithic layer of the wall with the installation of the removable wall on the inside formwork with the fixation of the latter in the working, mainly vertical, position at a given distance from the insulating layer, pouring concrete between the thermal insulation ion layer and a removable formwork and formwork removal after the concrete has set (RU 2003129247 application, IPC E04B 2/84, filed 17.09.2003, publ. April 10, 2005).

The use of bulky and heavy devices in the form of compensators 7, which are known from the prototype, in the form of compensators 7, shown in the drawing disclosing the specified method, and designed to compensate for the forces arising on the formwork from concrete pressure, requires the use of a construction crane to bring these devices to working position before pouring concrete and their dismantling when removing the formwork, which complicates and makes more laborious and expensive technology for the construction of a multilayer wall. In addition, the construction of the wall according to the method known from the prototype in one step - immediately to the entire floor, on the one hand, increases the pace of construction of buildings and structures with multi-layer walls, but, on the other hand, requires the use of bulky and heavy formwork panels, for installation and the removal of which also requires the use of a construction crane, which increases the cost of erecting a wall. In turn, the need to use a crane on a construction site limits the scope of application of the method known from the prototype, preventing it from being used in a sufficiently large volume construction sector related to private housing construction. At the same time, the use of 2 reinforcing rods as flexible connections in a method known from the prototype requires welding or wire strapping to connect these rods with the working elements of the reinforcing cage of a monolithic wall layer, which complicates and slows down the construction of a multilayer wall. In addition, the fastening of the heat-insulating layer 3 on the outer layer 1 of the wall by pushing the specified layer 3 on the reinforcing bars 2, followed by fixing with special washers put on the reinforcing bars, also complicates and slows down the construction of a multilayer wall. However, if a heat-insulating layer 3 made of a hygroscopic and / or porous material is used in the method known from the prototype, the heat-insulating properties of this layer will deteriorate when moisture enters it both during construction and during operation of a building or structure. Deterioration of the thermal insulation properties of layer 3 will lead to an increase in heat losses and, consequently, to an increase in energy consumption for maintaining the required temperature inside the building or structure.

The objective of the invention is to simplify the technology of construction of a multilayer wall with an internal monolithic layer and expand its scope.

The technical result obtained by the practical use of the invention is to reduce the complexity and increase productivity in the construction of a multilayer wall with an internal monolithic layer by eliminating the use of bulky and heavy force compensators acting on the formwork when pouring concrete, and eliminating the use of construction cranes to bring these devices into working position before pouring concrete and their dismantling when removing formwork, as well as by providing the possibility of using the use of small-sized lightweight formwork panels, simplifying the fastening of the heat-insulating layer on the outer wall layer and simplifying the connection of flexible connections with the reinforcing frame of the monolithic wall layer. The specified exception to the use of construction cranes in the construction of multilayer walls according to the proposed method provides another technical result from the use of the invention, expressed in providing the possibility of using the proposed method of construction of a multilayer wall with an internal monolithic layer in private housing, which occupies a large volume in the total volume of construction of buildings and structures.

The solution to this problem is achieved by the fact that in the proposed method of erecting a multilayer wall with an internal monolithic layer, including the erection of the outer layer of the wall by laying on top of each other mainly horizontal rows of structural, mainly stone, materials with the formation of seams between the rows of the latter and laying transverse to these seams flexible connections made in the form of reinforcing outlets protruding into the zone of erection of the inner monolithic layer of the wall, laying of a heat-insulating layer of insulation plates with fastening the latter on the outer layer of the wall, mounting in the said zone of the reinforcing cage with its fastening on the indicated reinforcing outlets and erecting the inner monolithic layer of the wall with installing on the inside of the wall being erected a removable formwork with fixing the latter in the working, mainly vertical, position at a given the distance from the heat-insulating layer, pouring concrete between the heat-insulating layer and the removable formwork and removing the formwork after the concrete has hardened, in contrast to of the prototype, reinforcing outlets made with holes for fastening the reinforcing cage are used as lateral flexible connections, and shields equipped with threaded fasteners with thrust caps, for example construction screws, and made with holes for these fasteners, reinforcing cage are used as removable formwork mounted from reinforcing bars and fixed by installing the latter in the holes of the reinforcing outlets, the tab of which is performed mainly in horizontal rows - in accordance Vii with the orientation of the rows of structural materials, insulation plates are installed between the said rows of reinforcing outlets and mounted on the outer layer of the wall by pinching said plates above and below between the reinforcing outlets, and each shield of the removable formwork is fixed in the working position by attaching it to the outer layer of the wall using the aforementioned fasteners, for which the latter is inserted into the holes of the specified shield from its outer side and screwed into the outer layer of the wall by thread with the stop of the caps of the fastening elements entrances into the formwork shield after putting the latter into working position, and before removing the formwork, the fasteners of its shields are turned out of the outer layer of the wall and removed from the monolithic layer for their further use as fasteners of the formwork shields or left in the constructed wall as reinforcing elements of the last with the removal of the hats of the indicated fasteners, and the erection of a monolithic layer of the wall in height is carried out in one step using formwork panels, each of which is installed to the entire height of the wall being erected, or in several stages - using formwork panels, each of which is installed on the height of the section of the wall being erected, corresponding to one of the indicated stages, and the erection of the monolithic layer of the wall in several stages is performed with the formwork panels moving up to a new level after hardening of concrete in the area of the monolithic layer of the wall, erected with the formwork panels at their previous level, the length, thickness and material of the panels of the removable formwork, as well as the number and distribution The position of the holes for the fasteners in these boards is chosen to ensure a stable working position of the said boards during the pouring of concrete.

In addition, according to the proposed method, it is advisable to lay the reinforcing outlets in the joints of structural materials with the formation of vertical rows of these outlets, and install the reinforcing cage from vertically directed reinforcing bars with each of them installed in the openings of the reinforcing outlets located in one of the vertical rows of these outlets, and from horizontally directed reinforcing bars with the installation of each of them in the holes of the reinforcing outlets located in one of the mentioned mountains zontally rows specified issues, while vertically directed rods reinforcing cage must be installed prior to installation of the latter horizontally directed rods and stacking of insulation boards.

It is advisable to install insulation plates and horizontally directed rods of the reinforcing cage in stages from the bottom upwards on the height of the wall being erected, while at each stage of installation of these plates and rods, you should first install a horizontal row of insulation plates on the outer layer of the wall, and then install horizontally directed rods of the reinforcing cage in the holes reinforcing outlets, pinching the lower edge of the insulation plates located in the specified horizontal row.

When erecting a monolithic layer of the wall in several stages, the proposed method of erecting a multilayer wall is characterized by the following additional significant distinguishing features:

- insulation plates and horizontally directed rods of the reinforcing cage can be installed in stages on the entire height of the wall being erected before the erection of the monolithic layer of the latter;

- more preferable in comparison with the above is the option of installing insulation plates and horizontally directed rods of the reinforcing cage, according to which the installation steps of these plates and rods are combined with the steps of erecting a monolithic layer of the wall so that each of the installation steps of these plates and rods is performed to the height of the section an erected wall corresponding to one of the stages of erecting a monolithic layer of the wall, while in the indicated section of the erected wall, the installation phase slabs and rods, and then the stage of erection of a monolithic layer;

- laying reinforcing outlets in the joints of structural materials is performed with an equal height of the wall being erected by the step of horizontal rows of the indicated outlets, with the exception of the upper of the indicated rows, the distance from which is located below the horizontal row of these outlets is kept at least one row lower than the mentioned step structural materials, and at each stage of the construction of a monolithic layer of the wall, with the exception of the last of them, each formwork shield is installed in the working position e with the location of the upper edge of the shield at the level of the seam of structural materials, in which reinforcing outlets are laid, jamming on top of the insulation plate, located on the portion of the outer layer of the wall, in the area of which the stage of erecting a monolithic layer of the wall is performed, and at the last stage of erecting a monolithic layer of the wall, each shield the formwork is installed in a working position with the top edge of the shield at the level of the upper edge of the wall being built, with the indicated reinforcing outlets pinching on top of the insulation plate before pouring concrete set in a position in which their holes under the horizontally directed rods of the reinforcing cage are located above the upper edge of the formwork panels;

- at the first stage of the erection of the monolithic layer of the wall, the formwork panels are fixed in the working position with their lower edge resting on the foundation or the floor slab of the wall being erected, and at each subsequent stage of the erection of the monolithic layer of the wall, the formwork panels are fixed in the working position with the support of their lower fasteners horizontally directed rods of the reinforcing cage and pressing the lower part of each shield located below the indicated fasteners to the upper part of the outer side of the concrete layer formed during and the previous stage of the erection of a monolithic layer of the wall, using panels of removable formwork, each of which in the working position, the lower holes for the fasteners are located at the same distance from the lower edge of the shield, two of these lower holes of the shield are located on its sides, and the height provides the said pressing of the lower part of the shield to concrete;

- at each stage of the construction of the monolithic layer of the wall after installing the formwork panels in the area of the construction of the internal monolithic layer of the wall, it is advisable to mount an additional reinforcing frame made of reinforcing wire with the latter fastened to the fastening elements of the formwork panels and with the spatial arrangement of the specified wire, providing the highest strength of the wall being built, it is advisable to connect the additional reinforcing cage with a reinforcing wire vertically and / or horizontally The direction of the main bars of the reinforcing cage.

When erecting a monolithic layer of a wall in one or several stages, the proposed method of erecting a multilayer wall is characterized by the following additional significant distinguishing features common to these options for erecting a monolithic layer:

- as sheets of removable formwork, it is advisable to use metal sheets, each of which is equipped with stiffening ribs located on the side of the sheet serving as the outer side of the shield;

- when using insulation plates made of hygroscopic and / or porous material, it is advisable to put on a cover made of a moisture-proof material, for example, a polyethylene film, on each of these plates before laying the heat-insulating layer;

- after installing the fasteners in the openings of the formwork shield, it is advisable to wear tight-fitting fasteners on the thread side of the fixing sleeves made of elastic material with an emphasis on the specified sleeves and caps of fasteners in the formwork shield;

- before screwing the fasteners of each formwork shield into the outer wall layer between the shield and the cap of each fastener of the latter, it is advisable to install a removable mounting sleeve made with a radial slot for mounting on the fastener and removing from the latter;

- it is advisable to use plates with holes made of corrosion-resistant metal or metal with a corrosion-resistant coating as reinforcing outlets;

- as reinforcing outlets can also be used pieces of wire reinforcing mesh made of corrosion-resistant wire or wire with a corrosion-resistant coating;

- at the junction of the wall being constructed with another external and / or internal wall of the building or structure, it is advisable to use reinforcing outlets, the length of which should be chosen to ensure that these outlets go to a given depth inside each wall at the junction with the constructed wall.

The use of the proposed method as a removable formwork boards equipped with threaded fasteners, with fixing these boards in their working position by attaching the panels to the outer layer of the wall using these fasteners eliminates the use of bulky and heavy force compensators acting on the prototype formwork when pouring concrete, and provides the possibility of a phased construction of a monolithic layer of the wall using small-sized lightweight formwork panels. In addition, the use of flexible connections of reinforcing outlets made with holes for attaching the reinforcing cage simplifies the connection of flexible connections with the reinforcing cage of the monolithic layer of the wall and eliminates the need for welding or wire strapping for these purposes, and laying reinforcing outlets in the joints of structural materials mainly horizontal rows - in accordance with the orientation of the rows of structural materials and the laying of insulation plates between the mentioned rows of reinforcing outlets with fastening on the outer layer of the wall by pinching said plates above and below between the reinforcing outlets, it simplifies the fastening of the heat-insulating layer on the outer layer of the wall and eliminates the need to use any fasteners for these purposes.

The indicated advantages of the proposed method can simplify the technology of erecting a multilayer wall with an internal monolithic layer, reduce the complexity of erecting a wall, reduce the time of erection of a multilayer wall and eliminate the need for construction cranes to install and remove the said expansion joints and formwork panels. In turn, the exclusion of the use of construction cranes in the construction of multilayer walls according to the proposed method reduces the cost of wall construction and expands the scope of the proposed method of construction of a multilayer wall with an internal monolithic layer, which is expressed in the possibility of its use in private housing construction.

At the same time, the use of the fastening elements of the formwork panels left in the wall being constructed as reinforcing elements of the monolithic layer and the installation of an additional reinforcing wire frame made of reinforcing wire in the zone of erection of the monolithic layer makes it possible to strengthen the strength and stability of the wall being erected.

In addition, the use as shields of removable formwork of metal sheets with stiffeners increases the stability of these shields when exposed to pressure forces of the poured concrete, and the placement of insulation plates made of hygroscopic and / or porous material in covers made of waterproof material, for example from a plastic film, protects the insulation boards from moisture, due to which the thermal insulation properties of the insulation are preserved, thereby reducing energy costs for heating the room, they the guide walls erected by the proposed technology.

The invention is illustrated by drawings, which depict:

- figure 1 - construction of a multilayer wall, erected according to the proposed method with the construction of its inner monolithic layer in one stage;

- figure 2 - construction of a multilayer wall, erected by the proposed method with the construction of its inner monolithic layer in several stages;

- figure 3 is a view along arrow A in figure 2;

- figure 4 - reinforcing release made in the form of a metal plate;

- figure 5 - the same reinforcing release in the working position, complete with the rods of the reinforcing cage of the monolithic layer of the wall;

- Fig.6 is a variant of the reinforcing release in the form of a metal plate made with a large hole for installing in it both the vertical and horizontal rods of the reinforcing frame of the wall;

- Fig.7 is a variant of the reinforcing release, made in the form of a segment of the reinforcing mesh;

- Fig. 8 shows a heater plate placed in a cover made of a moisture-proof material, for example, a polyethylene film;

- figure 9 is a horizontal section of a multilayer wall, joined with the outer and inner walls of a building or structure under construction.

The method of construction of a multilayer wall with an internal monolithic layer is as follows.

First, the outer layer 1 of the wall is erected (Figs. 1, 2) by laying on the foundation or floor slab 2 mainly with horizontal rows of structural, mainly stone, materials 3, for example, bricks (ceramic, silicate, concrete), natural stones, concrete blocks, etc. P. with the formation between the rows of these materials 3 joints 4 filled with mortar, and laying 4 transverse flexible joints in the joints, made in the form of reinforcing outlets 5, protruding into the zone of the upcoming erection of a monolithic layer 6 of the wall with an internal reinforcing frame mounted from vertical 7 and horizontal 8 (Fig.1-3) reinforcing bars. The laying of the outlets 5 in the joints 4 is performed mainly in horizontal rows - in accordance with the direction of the rows of structural materials 3 and with a given step of the indicated rows of outlets 5 along the height of the wall being built (for example, in every 8th row of brickwork of the outer layer 1). If necessary, in the process of erecting the outer layer 1, door and window blocks and other structural elements (not shown) are installed in the places of the wall being erected in accordance with the design of the building under construction.

When erecting a wall, reinforcing outlets 5 with openings 9 (FIG. 4) are used for fastening the rods 7 and 8 of the reinforcing cage, made, for example, in the form of metal plates 10 from a corrosion-resistant metal or a metal with a corrosion-resistant coating. The end of each such plate 10, which is part of the monolithic layer 6, is twisted before laying or after laying said plate into the seam 4 of the outer layer 1 until the holes 9 are installed in a position that allows vertical 7 and horizontal 8 rods of the reinforcing frame to pass through them (Fig. 5 ) The end of each plate 10, included in the monolithic layer 6 of the wall, can be made with one large hole 9 (Fig.6), which allows to install the rods 7 and 8. simultaneously. As sections of the reinforcing bars 5, pieces of wire reinforcing mesh 11 can also be used (Fig.7), made of corrosion-resistant wire or wire with a corrosion-resistant coating. To ensure the possibility of mounting vertical reinforcing bars 7 in the holes 9 of the reinforcing outlets 5, the latter are laid in the seams 4 with the formation of vertical rows of these outlets (Fig.3) with a given step along the length of the wall being erected.

After the erection of the outer layer 1 of the wall in the zone of the upcoming erection of the monolithic layer 6 of the wall, vertically directed rods 7 of the reinforcing cage are installed with each rod 7 installed in the holes 9 of the reinforcing outlets 5 located in one of the vertical rows of these outlets. Then, a heat-insulating layer 12 of insulation plates 13 (for example, foam, foam, etc.) is installed, which are installed between the horizontal rows of reinforcing outlets 5 with fastening on the outer layer 1 by pinching the plates 13 between outlets 5, and horizontally directed reinforcing rods 8 are installed frame. In this case, the installation of plates 13 and rods 8 is carried out step by step from the bottom up to the height of the wall being erected, and at each stage of installation of the indicated plates and rods, first a horizontal row of plates 13 of insulation is installed on the outer layer 1 of the wall, and then horizontally directed rods 8 of the reinforcing cage are installed in the holes 9 reinforcing releases 5, pinching the lower edge of the plates 13 located in the specified horizontal row.

When erecting a multilayer wall with the erection of its monolithic layer 6 in one step (Fig. 1), the phased installation of plates 13 and rods 8 is performed to the entire height of the wall being erected, after which a removable formwork 14 is installed on the inside of the wall being erected, using shields 15 equipped with threaded fasteners 16 with persistent hats 17, for example, construction screws or self-tapping screws for concrete, and made with holes for fasteners 16. When installing the formwork 14, each shield 15 thereof is installed to the entire height of the led wall and fixed in the working, mainly vertical, position at a predetermined distance from the heat-insulating layer 12 by attaching the shield 15 to the outer layer 1 of the wall being erected using fasteners 16, for which the latter are inserted into the openings of the shield 15 from its outer side and screwed in the holes preformed in the outer layer 1 with the stop of the hats 17 of the fasteners 16 into the shield 15 after bringing the latter into working position. After installing the formwork 14, the inner monolithic layer 6 of the wall is erected by pouring concrete between the heat-insulating layer 12 and the removable formwork 14, and after the concrete has hardened in the monolithic layer 6, the formwork 14 is removed.

When erecting a multilayer wall with the erection of its monolithic layer 6 in several stages (Fig. 2), the phased installation of plates 13 and rods 8 is performed immediately to the entire height of the erected wall before the erection of the monolithic layer 6 last or gradually - as the stages of erection of the monolithic layer 6 are completed when the installation steps of the plates 13 and the rods 8 are combined with the steps of erecting a monolithic layer 6 of the wall so that each of the installation steps of the plates 13 and the rods 8 is performed to the height of the section of the wall being constructed corresponding to one of these ups of the construction of the monolithic layer 6 of the wall, while on the indicated section of the wall being erected, the installation stage of the plates 13 and the rods 8 is first performed, and then the stage of the construction of the monolithic layer 6.

The phased construction of the monolithic layer 6 is carried out with installation of the formwork 14 from the inside of the erected wall, which is used as lightweight small shields 15, each of which is installed on the height of the section of the erected wall corresponding to one stage of the erection of the monolithic layer 6 (Figs. 2, 3). At the same time, in the process of laying structural materials 3, the reinforcing outlets 5 are laid in the joints 4 with the equal height of the wall being constructed by the step of the horizontal rows of the outlets 5, with the exception of the upper of these rows, the distance from which is located below the horizontal row of outlets 5 withstand less than the mentioned step the height of at least one row of structural materials 3. At each stage of the construction of the monolithic layer 6 of the wall, with the exception of the last of them, each shield 15 of the formwork 14 is installed in the working position with the location of the upper edge of the shield 15 at the level of the seam 4, in which the reinforcing outlets 5 are laid, jamming on top of the insulation plate 13 located on the portion of the outer layer 1 of the wall, in the area of which the stage of erection of the monolithic layer 6 is performed, and at the last stage of the erection of the monolithic layer 6 each shield 15 of the formwork 14 is installed in the working position with the location of the upper edge of the shield 15 at the level of the upper edge of the wall being erected.

At the first stage of the erection of the monolithic layer 6 of the wall, the shields 15 of the formwork 14 are fixed in the working position with their lower edge resting on the foundation or floor slab 2 of the wall being erected, and at each subsequent stage of the erection of the monolithic layer 6 of the wall, the shields 15 of the formwork 14 are fixed in the working position with the support their lower fasteners 16 on horizontally directed rods 8 of the reinforcing cage and with pressing the lower part of each shield 15 located below the fasteners 16 to the upper part of the outer side of the concrete layer, formed when performing the previous stage of the construction of the monolithic layer 6 of the wall, using shields 15 of the removable formwork 14, each of which in the working position, the lower holes for the fasteners 16 are located at the same distance from the lower edge of the shield 15, two of the lower holes of the shield 15 located on its sides, and the height of the shield 15 provides the aforementioned pressing of the lower part of the latter to concrete. The panels 15 are fixed in their working, mainly vertical, position at a predetermined distance from the heat-insulating layer 12 by attaching each shield 15 to the outer layer 1 of the wall being erected using fasteners 16 screwed into the holes previously made in the outer layer 1 of the wall.

In addition, during the phased construction of the monolithic layer 6 of the wall to prevent concrete from entering the holes 9 of the reinforcing outlets 5 intended for installation of the rods 8, pinning the top of the insulation plate 13, these outlets 5 are installed before concrete is poured (for example, by twisting the free ends of the outlets 5 to 30 -60 ° relative to the axis of the latter) in a position in which their holes for the rods 8 are located above the upper edge of the formwork panels 15 14. For this purpose, ready-made outlets 5 can be used, in which the end from the hole and 9 is twisted to the indicated 30-60 ° relative to the other end laid in the seam 4, while such outlets are laid in the seams 4 with the location of the holes 9 under the rods 8 above the seam 4. In this case, to increase the strength of the wall being erected in the zone of erection of its internal monolithic layer 6 after installing the shields 15 of the formwork 14, an additional reinforcing cage of reinforcing wire 18 is mounted (Fig. 3) with the latter fastened to the fasteners 16 of the shields 15 of the formwork 14 and with the spatial arrangement of the wire 18, providing the highest strength the wall being erected. To further increase the strength of the wall being constructed, an additional reinforcing cage made of reinforcing wire 18 is connected using reinforcing wire 19 with vertically 7 and / or horizontally 8 directed rods of the main reinforcing cage. As a result of such a saturated reinforcement of the monolithic layer 6 of the wall, after pouring concrete into the formwork and solidifying it, a high-strength wall is obtained.

At each stage of the construction of the monolithic layer 6, concrete is poured into the space between the heat-insulating layer 12 and the panels 15 of the removable formwork 14 to the upper edge of the panels 15, and after the concrete has hardened, the panels 15 are removed from the erected section of the monolithic layer 6 of the wall and moved up to a new level to perform the next stage of the construction of the monolithic layer 6.

The level of the monolithic layer 6 of the wall, erected according to the described phased technology, for example, in the first, second and third stages, is indicated in FIG. 3 by dashed lines I-I, II-II and III-III, respectively.

When erecting a multilayer wall with the erection of its monolithic layer 6 in one or several stages, the following general operations and conditions are also performed.

When using insulation plates 13 as a heat-insulating layer 12, made of absorbent and / or porous material, a cover 20 (Fig. 8) made of a moisture-proof material, for example, of a polyethylene film, is put on each of these plates before laying the heat-insulating layer 12.

Before removing the formwork 14, the fasteners 16 of each shield 15 are turned out of the outer layer 1 of the wall and removed from the monolithic layer 6 for their further use as fasteners of the shields 15 or left in the wall as reinforcing elements of the latter with the removal of the caps 17 of the fasteners 16, for example, by trimming or drilling them. At the same time, for fastening the shields 15 of the formwork 14 to the outer layer 1 of the wall, fasteners 16 with countersunk hats 17 (Fig. 1) can be used, which are drilled when these elements are left in the constructed wall as reinforcing elements. When using fasteners 16 for securing the shields 15 with both secret and end caps 17 for a wrench or screwdriver (Fig. 2) to enable the caps 17 to be removed in the above case by cutting them before screwing the fasteners 16 of each shield 15 in the outer layer 1 of the wall between the shield 15 and the cap 17 of the fastener 16, a removable mounting sleeve 21 is installed with the radial slot 22 mounted on the fastener 16 for mounting on the fastener 16 and removing it from the latter before cutting Niemi cap 17 of the fastening element 16.

To fix each of the shields 15 of the formwork 14 in its working position with a predetermined distance between the shield 15 and the heat-insulating layer 12, transverse struts made of wood, plastic, metal, etc. can be used. (not shown), abutting at one end against the shield 15, and the other - against the outer layer 1 of the wall above the upper edge of the insulation boards 13. More rational and convenient in use is the embodiment of the indicated fixing of the shields 15, according to which, after the fastening elements 16 are installed in the holes of each of the shields 15, tight-fitting fastening elements 16 are fastened to them with fixing sleeves 23 made of elastic material with an emphasis on the sleeves 23 and hats 17 fasteners 16 to the shield 15. In this case, the lower fasteners 16 of the shields 15 of the sleeve 23 can not be installed, because when erecting a monolithic layer 6 in one step between the lower part of each shield 15 and the plate 13, you can put the above transverse struts, and when erecting a monolithic layer 6 in several stages at each of the last, the lower part of each shield 15 is fixed in the working position due to its emphasis in the hardened concrete layer (figure 2).

The length, thickness and material of the panels 15, as well as the number and location of holes for fasteners in these panels are chosen to ensure a stable working position of the panels 15 in the process of pouring concrete. As the shields 15 of the removable formwork 14, metal sheets can be used, each of which is equipped with stiffeners 24 (Figs. 1, 2, 3, 9) located on the side of the sheet serving as the outer side of the shield 15.

In addition, at the junction of the wall being constructed with another external wall 25 (Fig. 9) and / or internal wall 26 of the building or structure, reinforcing outlets 5 are used, the length of which is chosen to ensure that these outlets go to a given depth inside each wall located at the junction with a wall being erected (not shown at the junction with the outer wall 25).

However, to reduce the cost of building the wall, the outer layer 1 of the wall can be laid out in half a brick, and foam concrete, aerated concrete or expanded clay concrete can be used as concrete.

The proposed technology for the construction of a multilayer wall with an internal monolithic layer was tested in practice during the construction of several residential buildings. At the same time, the advantages of the proposed technology over the prototype were fully confirmed: simplicity of practical use, the absence of labor-intensive and heavy operations requiring the use of construction cranes, elimination of the need to manufacture, install and remove bulky and heavy expansion joints, the absence of welding work, high speed and low cost of multi-layer construction walls with ensuring their high strength due to saturated reinforcement. These advantages provide great prospects for the practical application of the proposed technology, especially in private housing construction.

Claims (17)

1. A method of erecting a multilayer wall with an internal monolithic layer, including the erection of the outer layer of the wall by laying on top of each other mainly horizontal rows of structural, mainly stone, materials with the formation of joints between the rows of the latter and laying in the specified seams of the transverse flexible joints made in the form of reinforcing outlets protruding into the zone of erection of the inner monolithic layer of the wall, laying of the heat-insulating layer of insulation plates with the latter being mounted on the outer layer of the wall, m installation in the said zone of the reinforcing cage with its fastening on the indicated reinforcing outlets and erection of an internal monolithic layer of the wall with installation of the removable formwork on the inside of the wall being erected, fixing the latter in the working, mainly vertical, position at a given distance from the insulating layer, pouring concrete between the insulating layer and removable formwork and removal of the formwork after the concrete has hardened, characterized in that reinforcement is used as transverse flexible connections Outlets made with holes for fastening the reinforcing cage, and as removable formwork - shields equipped with threaded fasteners with thrust caps, for example construction screws, and made with holes for these fasteners, the reinforcing cage is mounted from reinforcing bars and fixed by installation the latter in the holes of the reinforcing outlets, the laying of which is carried out mainly in horizontal rows - in accordance with the directionality of the rows of structural materials, slabs casting plates are installed between the said rows of reinforcing outlets and fixed on the outer layer of the wall by pinching said plates above and below between the reinforcing outlets, and each panel of the removable formwork is fixed in the working position by attaching it to the outer layer of the wall using the above-mentioned fixing elements, for which the latter are inserted into the openings of the said shield from its outer side and screwed into the outer layer of the wall with the stop of the caps of the fasteners in the formwork shield after putting the latter into working position then, before removing the formwork, the fasteners of its panels are turned out of the outer layer of the wall and removed from the monolithic layer for their further use as fasteners of the formwork panels or left in the wall to be constructed as reinforcing elements of the latter with the removal of the hats of the indicated fasteners, and erection the monolithic layer of the wall in height is carried out in one stage using formwork panels, each of which is installed to the entire height of the wall being erected, or in several stages using formwork panels, each of which is installed on the height of the section of the wall being constructed, corresponding to one of the indicated steps, and the construction of the monolithic layer of the wall in several stages is carried out with the formwork panels moving up to a new level after the concrete has hardened on the part of the monolithic wall layer erected at the location of the panels formwork at their previous level, with the length, thickness and material of the panels of the removable formwork, as well as the number and location of holes for fasteners in these boards They ensure a stable working position of the said shields in the process of pouring concrete. 2. The method according to claim 1, characterized in that the reinforcing outlets are laid in the joints of structural materials with the formation of vertical rows of these outlets, and the reinforcing cage is mounted from vertically directed reinforcing bars with each of them installed in the openings of the reinforcing outlets located in one of vertical rows of the indicated outlets, and of horizontally directed reinforcing bars with the installation of each of them in the openings of the reinforcing outlets located in one of the aforementioned horizontal rows specified issues. 3. The method according to claim 2, characterized in that the vertically directed rods of the reinforcing cage are installed before installing horizontally directed rods of the latter and laying insulation plates. 4. The method according to claim 3, characterized in that the insulation plates and horizontally directed rods of the reinforcing cage are installed in stages from the bottom up to the height of the wall being erected, while at each stage of installation of these plates and rods, a horizontal row of insulation plates is first installed on the outer layer of the wall, then install horizontally directed rods of the reinforcing cage in the holes of the reinforcing outlets, pinching the lower edge of the insulation plates located in the specified horizontal row. 5. The method according to claim 4, characterized in that when the monolithic layer of the wall is erected in several stages, the insulation plates and horizontally directed rods of the reinforcing cage are installed to the entire height of the wall being erected before the monolithic layer of the latter begins to be erected. 6. The method according to claim 4, characterized in that during the construction of the monolithic layer of the wall in several stages, the steps of installing the insulation plates and horizontally directed rods of the reinforcing cage are combined with the steps of erecting the monolithic layer of the wall so that each of the steps of installing these plates and rods is performed to the height of the section of the wall being erected, corresponding to one of the stages of erecting a monolithic layer of the wall, while at the indicated section of the wall being erected, the stage of installation of the indicated plates and rods is first performed it erection stage monolithic layer. 7. The method according to claim 5 or 6, characterized in that the reinforcement outlets are laid into the joints of structural materials with equal height of the wall being erected by the step of horizontal rows of said outlets, with the exception of the top of said rows, the distance from which to the horizontal row below it these issues can withstand less than the mentioned step to the height of at least one row of structural materials, and at each stage of the construction of a monolithic layer of the wall, with the exception of the last of them, each shield op the hollows are installed in the working position with the upper edge of the shield located at the seam of structural materials, in which reinforcing outlets are laid, jamming on top of the insulation plate, located on the outer layer of the wall, in the area of which the stage of erecting a monolithic layer of the wall is performed, and at the last stage of erecting a monolithic of the wall layer, each formwork shield is installed in the working position with the upper edge of the shield located at the level of the upper edge of the wall being erected, while the specified reinforcement outlets are pinched Suitable top heater plate, pouring concrete to set to a position in which their openings directed horizontally under the chassis reinforcing rods are located above the upper edge of the shuttering boards. 8. The method according to claim 7, characterized in that at the first stage of the construction of the monolithic layer of the wall, the formwork panels are fixed in the working position with their lower edge resting on the foundation or floor slab of the wall being built, and at each subsequent stage of the construction of the monolithic layer of the wall, the formwork panels are fixed in working position with the support of their lower fasteners on horizontally directed rods of the reinforcing cage and pressing the lower part of each shield located below the indicated fasteners to the upper part of the outer side of the layer concrete formed during the previous stage of the construction of the monolithic layer of the wall, using panels of removable formwork, each of which in the working position, the lower holes for the fasteners are located at the same distance from the lower edge of the shield, two of these lower holes of the shield are located on its sides , and the height of the shield provides the mentioned pressing of the lower part of the latter to concrete. 9. The method according to claim 1, characterized in that when erecting a monolithic layer of the wall in several stages, an additional reinforcing wire frame of reinforcing wire is mounted in the zone of erection of the inner monolithic layer of walls in each of the latter after installing the formwork panels with the latter fastened to the fastening elements of the formwork panels and with a spatial arrangement of the specified wire, providing the highest strength of the wall being built. 10. The method according to claim 9, characterized in that the additional reinforcing cage is connected using reinforcing wire with vertically and / or horizontally directed rods of the main reinforcing cage. 11. The method according to claim 1, characterized in that as the panels of the removable formwork, metal sheets are used, each of which is equipped with stiffening ribs located on the side of the sheet serving as the outer side of the shield. 12. The method according to claim 1, characterized in that when using insulation plates made of absorbent and / or porous material, a cover made of a moisture-proof material, for example, a plastic film, is put on each of these plates before laying the heat-insulating layer. 13. The method according to claim 1, characterized in that after the fasteners are installed in the openings of the formwork shield, they are fastened with tight-fitting fasteners on the thread side, fixing bushings of elastic material with an emphasis on said bushings and fasteners hats in the formwork shield. 14. The method according to claim 1 or 13, characterized in that before screwing the fasteners of each formwork shield into the outer layer of the wall between the shield and the cap of each fastening element of the latter, a removable mounting sleeve made with a radial slot for mounting on fastener and removal from the latter. 15. The method according to claim 1, characterized in that as the reinforcing outlets use plates with holes made of corrosion-resistant metal or metal with a corrosion-resistant coating. 16. The method according to claim 1, characterized in that as the reinforcing outlets use pieces of wire reinforcing mesh made of corrosion-resistant wire or wire with a corrosion-resistant coating. 17. The method according to claim 1, characterized in that at the junction of the wall being constructed with another external and / or internal wall of the building or structure, reinforcing outlets are used, the length of which is selected to ensure that these outlets go to a given depth inside each wall located on junction with the wall being built.

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