RU98202U1 - MONOLITHIC BUILDING DESIGN OF THE BUILDING OR CONSTRUCTION "BLISS HOUSE" - Google Patents

Abstract

 1. A monolithic building structure of a building or structure, characterized in that it contains a metal frame with external and internal panels of fixed formwork, a filler of the internal space between the formwork panels, forming with the latter a monolithic wall panel of the building, and an overlap, while the filler is presented in the form of gypsum concrete , each formwork shield is made in the form of a wood-cement board based on components from wood wool and Portland cement with a percentage ratio, respectively:! wood wool 65 Portland cement 35,! and the metal frame is made of lightweight steel galvanized thin-walled channel-shaped cross-sectional elements, some of which are transverse to the wall panel, 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 a cement-cement slab attached to the bottom of the elements of the metal frame and gypsum-foam concrete filler of the frame, on top of which a wooden Steel with a protective coating of Steklomagnezitovye sheet. ! 2. The monolithic building structure of a building or structure according to claim 1, characterized in that the perforation notches transversely arranged relative to the wall panel of the channel-shaped elements are staggered.

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 used in the construction of walls, ceilings, partitions and other structural elements of buildings or structures used in various industries

Known enclosing structure 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 basalt rocks as a heat insulating material, all wall panels are fixed to the lower harness and in height between each other, including in the corners, through connecting elements of anti-corrosion material a, and on top of all the wall panels are joined along the perimeter of the strapping steel framing curved corners and at least two rows of wooden beams, wherein the metal profile of each panel is fixed to the upper trim

(RF Pat. PM. No. 74932, IPC. E04B 1/02, dated July 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.

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 metal pipes 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 made of heat-insulating multilayer with a thickness exceeding the thickness of the vertical struts of the frame, and installed on Cored oil side of the chassis in the same plane as uprights to form due to the difference in thickness between the strut panel and intermediate cavities filled insulation, insulating frame reception from an external impact.

(RF Pat. PM No. 87180, class E04B 1/08, 09/27/2009) The disadvantage of this proposal is that it is unnecessarily material-intensive and time-consuming for its implementation.

There is a method of erecting a monolithic structure of a building or structure, characterized in that at the first stage of erection, external and internal panels of fixed formwork are installed and, at the points of exit of vertical reinforcing bars or vertical anchors installed in the foundation, a reinforcing cage is placed and retractable molding equipment is installed in the girth of the latter in the form of a hollow volumetric trihedral rod, which is temporarily attached with a larger face to the inner surface of the shield of a fixed formwork, and to two others sheets of a heat-insulating material are installed on the faces of the core, which are fastened to the inner side of the fixed formwork with free ends, then the concrete mass is poured into the core and after the concrete has set strength, the core is freed from temporary fastening and extended to the design height until the supporting column is finished, repeating the first work cycle stage, after which the three-dimensional triangular rod is removed from the formwork and the space between the panels is filled with concrete mass until the completion of the work cycle. (Pat. RF №2379435, class E04G 11/10, from 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 implementation and the need to attract heavy construction equipment.

The problem of increasing the level of thermal insulation of building envelopes is very significant, 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, on the inner surface of which is secured with anchor elements a layer of insulation on which the reinforcing cage is located, and thick foam polystyrene is used as insulation 200 mm. (Pat. RF No. 2193635, IPC, E04B 1/16 of 11/27/2002)

However, this design is expensive and requires significant labor costs in the manufacture, and an increase in the thickness of the insulation along the entire facade of the building leads to a significant increase in the cost of the entire structure

Known wall structure containing the outer facing layer of the wall, the inner continuous bearing layer of the wall, the middle insulation layer of the wall, the coating plate resting on the bearing layer of the wall, the insulation layer laid on the coating plate, and openings are made in the inner bearing layer of the wall so that their lower mark coincides with the vapor barrier layer laid on the coating plate, and the height of the openings is less than or equal to the thickness of the insulation, while the openings themselves are filled with insulation, and the width of the walls between the openings is determined It is their bearing capacity for the perception of loads. (Pat. RF. No. 2190734, IPC E04B 1/38, 10/10/2002)

However, this multilayer wall construction in the presented embodiment is unnecessarily material-intensive, and therefore significantly expensive.

The closest technical solution is a method of erecting a building envelope and a device for its implementation, which is a frame-monolithic multi-layer building envelope 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 the position is filled with a hardening solution, while the frame is made in the form of a cellular spatial lattice structure of frames connected by cords with the help of one-piece joints, 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.

On the surface of the frame inside the building, a fixed casing is installed, 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. RF on PM No. 47935, E04G 11/10 of 09/10/2005)

Despite the noteworthy proposed technical solution for frame-monolithic construction of the building, nevertheless, the presented design of the building is associated with the complexity and material consumption during its construction, with the need to attract heavy transport equipment and with increased construction time and cost.

The technical problem of the proposed solution: - reduction of construction time, increase of operation time, reduction of construction costs, minimization of costs for construction materials and increase of work efficiency

The technical task of this proposal is provided by the fact that the monolithic building structure of a building or structure contains a metal frame with external and internal panels of fixed formwork, a filler of the internal space between the formwork panels, forming the monolithic wall panel of the building with the latter, and an overlap, while the filler is presented in the form of gypsum concrete , each formwork shield is made in the form of a wood-cement board based on components from wood wool and Portland cement with a percentage by appropriately:

wood wool 65 Portland cement 35,

and the metal frame is made of lightweight steel galvanized thin-walled channel-shaped cross-sectional elements, some of which are transverse to the wall panel, 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 a cement-cement slab attached to the bottom of the elements of the metal frame and gypsum-foam concrete filler of the frame, on top of which a wooden Steel with a protective coating of Steklomagnezitovye sheet.

In addition, perforating grooves transversely located relative to the wall panel of channel-shaped elements are staggered.

Monolithic building structure of a building or structure is illustrated by the drawing, where in Fig.1 - shows a General view of a monolithic building structure; figure 2 - shows a fragment of a wall panel; figure 3 - shows a channel-shaped element of a metal frame.

The monolithic building structure of a building or structure contains a metal frame 1 assembled from lightweight steel galvanized thin-walled elements 2 and 3 of a channel-shaped cross-section, external panels 4 and internal panels 5 of fixed formwork, gypsum-concrete aggregate 6, a monolithic wall panel 7. Transverse to the wall panels 7 channel-shaped elements 2 are made with perforated notches 8. Overlap 9 of a monolithic building structure contains a base in the form of wood-cement a hot plate 10 on which are located - a metal frame, gypsum-concrete aggregate, wood flooring 11 and glass-magnesite sheet 12.

The construction of building envelopes, ceilings and partitions of buildings and structures using the Bliss House technology minimizes the cost of building materials and mechanisms, as well as drastically reduces the time of work with minimal involvement of skilled labor, while the quality of wall surfaces requires the lowest cost for finishing work .

The basis of the Bliss House technology design is a metal frame made of Light Steel Thin-Wall Structures (LSTK).

Due to the ease of construction from LSTK, installation, assembly and installation does not require the use of lifting equipment, welding and is carried out according to the “designer” method, where the component parts are connected to one another by self-tapping screws or bolts. Moreover, a large number of personnel involved in the construction is not required.

The construction of a monolithic building structure of a building or structure is as follows.

On a specially prepared foundation, at the first stage of construction, the metal frame 1 is assembled from lightweight steel galvanized thin-walled elements 2 and 3 (LSTC) of the channel shape in cross section, then the outer panels 4 and the inner panels 5 of the fixed formwork are mounted on the frame, after which the inner space between the formwork panels, fill with gypsum concrete aggregate 6, which forms, together with the panels, after building strength, a monolithic wall panel 7. Transverse to the wall panel 7 channel-shaped elements 2 are made with perforated notches 8 along the entire length of the element to eliminate the cold bridge in the panel. Prior to pouring gypsum-concrete aggregate, it is possible to lay transits in a frame for electrical and plumbing communications. The building 9 is also erected on the basis of part of the elements of the wall panel 7, first, the metal frame is assembled and installed, then a wood-cement plate 10 is attached from the bottom to the frame, then fill the frame with gypsum-concrete aggregate, and after curing, initially install wooden flooring 11, and then put on it a protective coating in the form

glass-magnesite sheet 12. At the same time, metal trusses from LSTK with a height of 250-300 mm are the basis of the overlap. From below, a plate 6-10 mm thick is attached to the metal elements of the farm, which rigidly connects all the elements together, forming a space for laying hidden communications and further filling with gypsum concrete. A board 40 mm thick is attached to the top of the frame. to increase the strength of the structure. The final material in the overlap is a glass-magnesite sheet with a thickness of 6-8 mm. to protect the structure from fire. Thus, a warm, sound-absorbing floor from environmentally friendly materials is obtained that is not amenable to burning. The quality of the floor surface is ready for the finishing work.

New opportunities to improve the quality and accuracy of construction, reduce costs and reduce timelines are the result of the development of frame construction technology using LSTK.

The reason steel has not previously been used in exterior wall structures is due to its high thermal conductivity, which contributed to the formation of “cold bridges”. “Cold bridges” are formed in elements with good thermal conductivity, passing along the entire cross section of the wall, and cause a significant loss of heat, as well as freezing of the inner surface of the wall and condensation, which destructively affects the wall structure and decoration materials.

In the proposed design of the external walls, steel profiles with a minimum cross section are used, in which stitch perforations are made in a checkerboard pattern to increase the heat flow path. LSTK technology allows you to quickly and efficiently build buildings for various purposes: private houses up to 3 floors, as well as multi-storey buildings using various types of frame. Use of technology

LSTK allows you to build objects that are different in their functional purpose: it can be a residential apartment building, a private mansion, an office or warehouse building, a shopping center or a car dealership.

As a load-bearing wall structure of low-rise (up to three floors) buildings and as a non-load-bearing enclosing structure of high-rise buildings, a prefabricated frame structure is used from lightweight steel galvanized thin-walled channel-shaped elements in cross section.

Perforations were made in the walls of the elements by stamping to reduce the natural thermal conductivity of the metal by 80-90%. The production of profiles at the plant is made precisely to size, which eliminates the overrun of materials that are calculated during the design process.

Since structures made of light galvanized thermo-profiles and light beams are lightweight, there is no need to use traditional foundations.

The use of glass-magnesite sheets in the proposed design also increases the efficiency of its use, since this material has increased fire resistance and moisture resistance.

Thus, the proposed technical solution has several advantages compared to previously known similar solutions, namely: - tight construction time, increased operating time, ease of assembly and installation, no need to attract heavy construction equipment, the possibility of planning the interior space for the customer.

Claims (2)

1. A monolithic building structure of a building or structure, characterized in that it contains a metal frame with external and internal panels of fixed formwork, a filler of the internal space between the formwork panels, forming with the latter a monolithic wall panel of the building, and an overlap, while the filler is presented in the form of gypsum concrete , each formwork shield is made in the form of a wood-cement board based on components from wood wool and Portland cement with a percentage ratio, respectively: wood wool 65 Portland cement 35, and the metal frame is made of lightweight steel galvanized thin-walled channel-shaped cross-sectional elements, some of which are transverse to the wall panel, 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 a cement-cement slab attached to the bottom of the elements of the metal frame and gypsum-foam concrete filler of the frame, on top of which a wooden Steel with a protective coating of Steklomagnezitovye sheet. 2. The monolithic building structure of a building or structure according to claim 1, characterized in that the perforation notches transversely arranged relative to the wall panel of the channel-shaped elements are staggered.