RU139830U1 - MONOLITHIC BUILDING DESIGN OF A BUILDING OR CONSTRUCTION - Google Patents

Abstract

1. A monolithic building structure of a building or structure, characterized in that it contains a base, bearing supporting elements, wall fencing and overlapping, while the wall fencing is presented in the form of a frame of bearing supporting elements with outer and inner shields of fixed formwork and filler of the internal space between shields of formwork, forming with the latter a monolithic wall panel of the building, with the filler represented by a pouring hardening mortar and the supporting supporting elements of the frame made They are in the form of vertically arranged boards attached to the inner surfaces of the outer and inner panels of fixed formwork with a narrow board edge, and the overlap is made in the form of supporting elements installed on the upper ends of the walls, preferably boards, the lower supporting edging of each of which is made reinforced along the entire length for increase in tensile strength, and on the lateral planes of the boards along their entire length, support bars are strengthened, on which the ends of the flooring are placed, filled with a hardening mortar from top to this area to block the loss of stability of the compression zones of the supporting floor elements. 2. The monolithic building structure of a building or structure according to claim 1, characterized in that the oppositely directed rows of boards of the outer and inner formwork panels, respectively, are offset from each other. 3. The monolithic building structure of a building or structure according to claim 2, characterized in that the oppositely directed rows of boards of the outer and inner formwork panels, respectively, are offset by half a step relative to each other. 4. �

Description

The technical solution relates to the field of construction, namely to the technology of frame-monolithic and prefabricated frame housing construction and can be claimed in the construction of walls, ceilings, partitions and other structural elements of buildings or structures used both in civil engineering and in various industries industry.

Known enclosing structure, consisting of a metal frame fixed in the foundation, and containing enclosing panels fixed between the pillars of the frame, and the inner and outer cladding, while the pillars of the frame are made of a metal pipe with a cross section that depends on the design bearing capacity of the frame, and installed with a step corresponding to the width of the enclosing panels, the enclosing panels being heat-insulating-multilayer with a thickness exceeding the thickness of the vertical struts of the frame, and installed on the inner side of the frame in the same plane with the vertical struts with the formation due to the difference between the thickness of the strut and the panel of intermediate cavities filled with a heater that insulates the frame struts from external influences. The width of the enclosing panels corresponds to the width of the sheet material of the outer skin of the enclosing panels. The racks of the frame are made of a metal pipe of square section. The racks of the frame are made of a metal pipe of rectangular cross section. Foundation piles are located on the same axis with each vertical rack of the frame. The vertical struts of the frame are equipped with plates for attaching the Mauerlat. (R.F., Pat. To P.M. No. 87180, class E04B 1/08 of 09/27/2009).

The disadvantage of this proposal is that it is unnecessarily material-intensive and time-consuming for its implementation.

Known enclosing structure for building a building, containing wall panels made of heat-insulating material fixedly placed in a supporting metal profile, the panels are interconnected to form a single enclosure frame, the design contains single-layer panels containing mineral wool slabs made of mountain basalt as heat insulating material rocks, all wall panels are fixed to the lower harness and in height between each other, including in the corners, through connecting elements from antique of corrosion material, and at the top all wall panels are connected around the perimeter by a strapping of steel framing bent corners and at least two rows of wooden beams, while the metal profile of each panel is fixed to the upper trim (R.F. Pat. 74932, CL E04B 1/02, 07/20/2008)

The disadvantage of this technical solution is that it contains a number of structural elements that lead to higher prices and increased material consumption of the entire facility.

There is a method of erecting a monolithic structure of buildings and structures, characterized in that at the first stage of erection, external and internal panels of fixed formwork are installed and a reinforcing cage is placed at the exit points of vertical reinforcing bars or vertical anchors installed in the foundation and installed in the girth of the latter, in the form hollow volumetric trihedral rod, which is temporarily attached with a larger face to the inner surface of the shield of fixed formwork, and to two other g sheets of heat-insulating material are installed on the rod, which are fastened to the inner side of the fixed formwork with free ends, then the concrete mass is poured into the rod, and after the concrete has set strength, the rod is freed from temporary fastening and extended to the design height until the supporting column is finished, repeating the work cycle of the first stage , after the support column is erected to the design height, the hollow volumetric trihedral rod is removed from the formwork and the space between the panels is non-removable formwork is filled with concrete mass until its final hardening and completion of the work cycle. (R.F., Pat. No. 2379435, CL E04G 11/10, dated 20.01.2010).

Without begging the merits of this method of erecting a monolithic building structure, however, it should be noted that its implementation is associated with excessive material consumption and laboriousness in its execution and the need to attract heavy construction equipment.

The problem of increasing the level of thermal insulation of building envelopes is very relevant, since heat losses through building structures along cold bridges account for up to 80% of all heat losses in buildings.

One of the ways to increase the level of thermal protection of buildings in frame-monolithic housing construction is the use of multilayer panels with effective insulation.

Known enclosing wall structure in the form of a multilayer wall, used in the construction of prefabricated monolithic external walls of residential buildings, which contains a facade plate for finishing the outer surface of the multilayer wall of a monolithic building, which has a decorative outer surface and the opposite inner surface, intended for attachment to the internal load-bearing a wall layer of a monolithic building, with at least four anchor elements mounted on the front panel body from the side of the inner surface an element, one in each corner zone of the slab, two of which, located along one edge of the slab, have a rod-shaped shape and the other two are trusses having a shape selected taking into account the perception of the load from the weight of the slab, while the length of the anchor elements is essentially equal to the total thickness of the layers of the multilayer wall following the facade slab. The truss has a U-shape with a downward slope and is located in a plane perpendicular to the plane of the plate and its edge along which both trusses are located. A patch element in the form of a beam oriented parallel to the edge of the plate, along which rod-shaped anchor elements are located, is mounted on the inner surface of the plate at a distance from it corresponding to a predetermined level of installation of the coupling elements. The method of erecting the outer wall of a monolithic building, which consists in forming a multilayer structure comprising at least an inner reinforced concrete layer, a layer of insulation and a facade plate having an external decorative surface and an inner surface, forming a multilayer structure from the inside of the building being constructed using the facade slabs, and firstly they fix the facade slab on the ceiling, then on the inner surface with the help of anchor elements fix the insulation layer Itel, after which the reinforcing cage and the inner formwork are installed, concrete is poured, and after the concrete has hardened, the inner formwork is removed, before the concrete is poured, the multilayer structure is fastened from above with at least two brackets that are removed after the concrete has hardened, and the multilayer structure is fastened by means of clamping elements before pouring the concrete. which are carried out from the side of the inner formwork and connected with overhead elements on the inner surface of the facade slab, sealing joints between the pl it is carried out from the inside of the building, and polystyrene foam 200 mm thick is used as a heater. (Pat. R.F., No. 2193635, CL E04B 1/16 of 11/27/2002).

However, this design is expensive and requires significant labor costs in the manufacture. The thermophysical properties of this design are low due to the presence of a cold bridge at the interface between the facade plate and the wall panels. In addition, an increase in the thickness of the insulation along the entire facade of the building to 200 mm leads to a sharp rise in the cost of the entire structure.

Known wall structure containing the outer, facing, wall layer, inner, continuous load-bearing wall layer, middle, insulation layer of the wall, the coating plate, leaning on or adjacent to the load-bearing layer of the wall, the insulation layer laid on the coating plate, the vapor barrier layer on the plate coatings, a layer of screed and waterproofing over the insulation in the coating, while the design contains openings in the inner load-bearing layer of the wall, which are arranged so that their lower mark coincides with the mark of the vapor barrier laid on the ytiya, and the height of the openings is less than or equal to the thickness of insulation, wherein the width of the partitions between the openings defined by their bearing capacity to withstand the loads from the parapet and the openings themselves filled with insulation. (Pat. R.F. No. 2190734, cl. E04B 1/38 of 10/10/2002). However, this design is associated with technical difficulties of a monolithic-frame erection of the building envelope.

A known method of erecting a building envelope and device for its implementation, which is a frame-monolithic multi-layer building structure for erecting walls of buildings, including a frame for attaching formwork from removable or non-removable cladding, the internal space of which after mounting the frame and installing it in the design position is filled with a hardening solution wherein the frame is made in the form of a cellular spatial lattice structure of frames connected by jumpers using one-piece joints cured concrete, and porous concrete is used as a hardening mortar. The frame can be made in the form of a spatial lattice structure made of wood with cell sizes exceeding 40 × 45 × 40 cm.Non-removable sheathing is installed on the surface of the frame inside the building, ready for finishing from sheets made of a number of materials: drywall, plywood, chipboard. Inside the frame, before pouring the mortar, the communications of the building are placed. (Pat. R.F. No. 47935, class E04G 11/10 of 09/10/2005)

Despite the noteworthy proposed technical solution for frame-monolithic construction of the building, nevertheless, the presented design is associated with excessive material consumption and does not solve the issue of increasing the life of the structure.

There is a method of erecting a monolithic building structure of a building or structure and a device for its implementation, characterized in that on a specially prepared foundation, at the first stage of erection, a metal frame is assembled from light steel galvanized thin-walled channel-shaped elements in cross section, then external and internal panels of fixed formwork, after which the internal space between the formwork panels is filled with gypsum-concrete aggregate, connecting with the latter, after strength gain, a monolithic wall panel, and channel-shaped elements transversely located relative to the wall panel are made with perforations along the entire length to eliminate the cold bridge in the panel, while erecting the building ceiling is also based on part of the wall panel elements, and first they are assembled and the installation of a metal frame, also made of light steel galvanized thin-walled channel-shaped in cross section of the elements, then a wood-cement slab is attached to the bottom of the frame, then the frame is filled with gypsum-concrete aggregate, and after curing, a wooden flooring is first installed on top and then a protective coating of glass-magnesia sheet is laid on it.

In addition, in the method of erecting a monolithic building structure of a building or structure, wood-cement slabs are used as external and internal panels of fixed formwork, or fiber cement boards are used as external and internal formwork panels, or glass and magnesia plates are used as external and internal formwork panels, or plasterboards are used as the outer and inner formwork panels. (Pat. R.F. No. 2440472, class E04B 2/86, 01/20/2012)

A monolithic building structure for implementing the method of erecting a monolithic building structure contains a metal frame with external and internal panels of fixed formwork, a filler of the internal space between the formwork panels, forming together with the latter a monolithic wall panel of the building, and an overlap, the filler is presented in the form of gypsum concrete, and each the formwork shield is made in the form of a wood-cement board based on components from wood wool and Portland cement, and the metal car Ace is made of lightweight steel galvanized thin-walled channel-shaped elements, some of which are transversely located relative to the wall panel, are made with perforations along the length of the element to reduce the cold bridge in the panel, and the overlap is also based on the elements of the wall panel and contains attached to the bottom of the elements of a metal frame, a wood-cement slab and gypsum-concrete concrete filler of the frame, on top of which a wooden flooring with a protective coating of glass magnesia is laid Vågå sheet. (R.F., Pat. To P.M. No. 98202, class E04B 2/86 dated 06/25/2010).

Without begging the merits of the known technical solution, it is nevertheless necessary to note that the use of a wood-cement wall panel based on components from wood wool and Portland cement is not sufficiently effective due to the cost of production, the operating life and preservation of vapor permeability.

The closest technical solution is a monolithic building structure of a building or structure, characterized in that it contains a base, bearing supporting elements, wall fencing and overlapping, while the bearing supporting elements are made of lightweight steel galvanized thin-walled elements with foam-concrete aggregate, and the wall fence is presented in in the form of a metal frame with external and internal panels of fixed formwork and a filler of the internal space between the formwork panels, image a monolithic wall panel of the building with the latter, the filler being in the form of foam-concrete, and each formwork shield made in the form of aerated concrete slab, the metal frame made of lightweight steel galvanized thin-walled elements, preferably a channel-shaped profile, and the overlap is also based on the elements of the wall panel and comprises a sheathing in the form of a gypsum chipboard attached to the bottom of the metal frame elements, a foam-gypsum concrete frame filler and installed on top Arkása screed plate with a reinforcing layer of gypsum concrete. (Pat. RU for Utility Model No. 124274, cl. E04B 1/02 / 01/20/2013)

The proposed technical solution is in good agreement with multi-storey housing construction and is not effective enough for low-rise civil engineering in view of excessive material consumption and, accordingly, more complex design.

The technical task of the proposed monolithic building structure is to reduce construction time, increase operating life, reduce construction costs, preserve vapor permeability and environmental ecology, and minimize the cost of building materials.

The technical problem is ensured by the fact that the monolithic building structure of a building or structure contains a base, bearing supporting elements, wall fencing and overlapping, while the wall fencing is presented in the form of a frame of bearing supporting elements with external and internal panels of fixed formwork, and a filler of the internal space between shields of formwork, forming with the latter a monolithic wall panel of the building, and the aggregate is presented in the form of cellular or light concrete, preferably foam gypsum and the supporting supporting elements of the frame are made in the form of vertically arranged boards attached to the inner surfaces of the outer and inner panels of the fixed formwork, respectively, with a narrow edging of the board, and the opposite rows of boards, respectively of the outer and inner formwork panels, are offset relative to each other, preferably by half a step and the overlap is made in the form of supporting elements installed on the upper ends of the walls, preferably boards, the lower supporting edging of each of which is made reinforcement bathrooms throughout the length to enhance strength rastzhenie, and on lateral surfaces of boards on their entire length reinforced supporting bars on which the top ends disposed rendered monolithic flooring preferably foamed gypsum over its entire area.

The essence of the technical solution is illustrated by the drawing, where in FIG. 1 - shows a General view of a monolithic building structure; in FIG. 2 - a fragment of a wall fence; in FIG. 3 - a fragment of the supporting element of the overlap with the lower reinforced edging; in FIG. 4 - a fragment of the vibration isolation unit between the wall fence and the ceiling

The monolithic building structure of a building or structure contains a base 1, bearing supporting elements 2, a wall fence 3 and a ceiling 4, while the wall fence 3 is presented in the form of a frame 5 of bearing supporting elements 2 with outer 6 and inner 7 panels of fixed formwork, and aggregate 8 the internal space 9 between the formwork panels, forming with the latter a monolithic wall panel of the building, the aggregate being in the form of cellular or lightweight concrete, preferably foam gypsum, and the supporting elements 2 ka Case 5 is made in the form of vertically arranged boards attached to the inner surfaces 10 of the outer and inner formwork panels, respectively, with a narrow edging 11 of the board, the opposite rows of boards, respectively, of the outer and inner formwork panels, being offset relative to each other by half a step, and the overlap is made in the form installed on the upper ends 12 of the walls, the supporting force elements 13, preferably boards, the lower supporting edging 14 of each of which is made reinforced along the entire length, and on the sides On the planes 15 of the boards along their entire length, supporting wooden blocks 16 are fastened, on which ends, preferably, a plank floor 17 is placed on top of which is covered with foam gypsum 18 over its entire area.

The technical solution boils down to the use of composite material - wood in the construction of civil structures. It is known that wood has great compressive strength (up to 400 kg / cm ² along the wave), and the destruction of a long board when it is compressed from the ends occurs due to loss of stability, bending and breaking in the bending zone. It is proposed to block the loss of stability of the board by placing it in a monolith (for example, in cellular or lightweight concrete, preferably in gypsum)

The construction of a monolithic building structure of a building or structure is as follows. A hidden frame 5 is assembled, consisting of vertically located supporting supporting elements 2 - boards without reinforcement, followed by monofoaming with foam gypsum. The width of the boards should not be more than half the wall thickness, and the boards are attached to the inner surfaces 10 of the outer and inner shields of the fixed formwork, respectively, with a narrow edging 11 of the board, with a shift of the opposite rows of boards relative to each other by half a step. From the side of the interior, the frame 5 is sheathed with drywall 19, which gives the frame additional rigidity during installation, and after pouring the surface will become ready for the finish. The side facing the street is sheathed with any vapor-permeable sheet material 20 having good adhesion to gypsum (for example, GVL). Window sills and window sills are made of a thicker horizontal board, into the grooves of which vertically oriented thin boards are glued. During pouring, it is advisable to install a removable formwork over a fixed (not conventionally shown in the drawing). This will make it possible to obtain a high-readiness surface for finishing (which is ensured by the material of the fixed formwork) with high evenness provided by the removable formwork.

The overlap is carried out in the form of supporting elements 13 installed on the upper ends 12 of the walls, preferably boards, the lower supporting edging 14 of each of which is reinforced in the tension zone along the entire length, and supporting bars 16 are strengthened on the lateral planes 15 of the boards along their entire length, on which the ends of the flooring 17 are placed on top of monogypsum foam 18 over its entire area. It is preferable to fill up to the top edge of the material board having the following properties: fluidity at the time of laying and the necessary compressive strength after some time, preferably cellular or lightweight concrete, for example, foam gypsum (to block the loss of stability of the compression zones of the boards).

Vibration isolation of the ceiling from the wall is as follows. A thick board 21 (50 mm or more) is laid on the upper edge of the supporting elements to distribute the loads from the ceiling. Board 21 is rigidly connected to the racks (if, due to the thickness of the wall, two boards must be laid, they must be fastened together) - this ensures the rigidity of the frame in plan. It is preferable to lay a vibration isolation layer 22 and another same board 23 on this board, and lay the ceiling 4 on top. With this design, you can make house kits in workshop conditions, which are enough to assemble at the construction site and only the construction will be filled with foam gypsum. Thus, it is possible to reduce the construction time, and the procurement of house kits to do outside the construction season. At the same time, the outer wall of a two-story building can have an inner row of racks one floor high, and the outer one is through, the entire wall height.

The technology of assembly of the floor provides for the installation and fixation of the supporting power elements in a vertical position using "combs" (not conventionally shown in the drawing). It is possible that it would be more justified to install a fixing "comb" on top, so that the lower plane of the group of power elements rests on the load-distributing element with a larger surface. A soundproof structure can be mounted directly to the bottom surface of the power elements. In order to prevent a crack between a tree and foam gypsum when pouring with foam gypsum, it is necessary to use a dry board treated with a water repellent.

The advantage of the proposed design is to increase the rigidity, bearing capacity and soundproofing properties (both in shock and airborne noise) of the floor. At the same time, most of the elements can be made in workshop conditions, with sets for a specific house project.

Claims (4)

1. A monolithic building structure of a building or structure, characterized in that it contains a base, bearing supporting elements, wall fencing and overlapping, while the wall fencing is presented in the form of a frame of bearing supporting elements with outer and inner shields of fixed formwork and filler of the internal space between shields of formwork, forming with the latter a monolithic wall panel of the building, with the filler represented by a pouring hardening mortar and the supporting supporting elements of the frame made They are in the form of vertically arranged boards attached to the inner surfaces of the outer and inner panels of fixed formwork with a narrow board edge, and the overlap is made in the form of supporting elements installed on the upper ends of the walls, preferably boards, the lower supporting edging of each of which is made reinforced along the entire length for increase in tensile strength, and on the lateral planes of the boards along their entire length, support bars are strengthened, on which the ends of the flooring are placed, filled with a hardening mortar from top to this area to block the loss of stability of the compression zones of the supporting elements of the overlap. 2. The monolithic building structure of a building or structure according to claim 1, characterized in that the oppositely directed rows of boards of the outer and inner formwork panels, respectively, are offset from each other. 3. The monolithic building structure of a building or structure according to claim 2, characterized in that the oppositely directed rows of boards of the outer and inner formwork panels, respectively, are offset by half a step relative to each other. 4. Monolithic building structure of a building or structure according to claim 1, characterized in that the pouring hardening mortar is presented in the form of cellular or lightweight concrete, preferably foam gypsum.

Images