RU2511327C2 - Large-panel building - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction, and can be used in construction of industrial buildings, in large-panel construction. A large-panel building with planning modules in the form of rooms and in the form of attached loggias. Internal dimensions of width and height of the modules are identical, and the inner surfaces of their transverse wall panels and slabs, when these modules are joined, are in one plane. The building is made with transverse and longitudinal load-bearing wall panels and flat floor slabs, fitted with attached and built-in loggias. The wall panels of the attached loggia are made as carrying with the possibility of installation in the fold of the end face of any inner transverse wall panel of the building, thereby forming a single composite carrying wall having uniform size and shape of a rectangular parallelepiped. The outer wall panels of the building have dimensions of length and height equal to or, considering the mounting clearances, less than the corresponding internal dimensions of the adjacent planning modules, in the plane of these outer panels, wherein they are made as capable of assembly in any location in the basic planning module - a room, and anywhere in the additional planning module - a loggia, depending on their necessary areas.

EFFECT: invention allows to extend the possibility of space-planning solutions of a building.

10 cl, 9 dwg

Description

The invention relates to the construction and can be used in the industrial construction of buildings, in large-panel housing construction.

A building for industrial construction is known, in which the internal and external walls of the building that make up the planning module have the same thickness, and the distance between the walls inside the building and the ceiling width are multiples of the wall thickness, while the modules have a common linear size, and all floors have the same length, equal to this total size (Patent RU 2052036, IPC Е04В 1/02, Е04Н 1/02, publ. 10.01.1996).

The disadvantage of the building is the limited planning decisions.

Typical series of multi-storey buildings are known from panels of internal and external load-bearing walls, floor slabs with built-in and attached loggias (TsNIIEP dwellings, working drawings for Series 90, block sections 90-05 / 1.2, 90-05 / 01.86 (List of typical design documentation for residential buildings for construction in cities and urban-type settlements. P2.01-2002 / GUP TsPP. - M .: GUP TsPP, 2002, p.17; Building catalog, part 2, Typical projects of enterprises, buildings and structures - Typical project 90- 05 / 1.2, TsITP, USSR, June 1982; Construction catalog, part 2, Typical projects of enterprises, buildings and facilities - Standard design decision 90-05.01.86, TsITP, USSR, October 1986); working drawings for series 121, block sections 121-014 / 1.2, 121-014.01.86 (List of typical design documentation for residential buildings for construction in cities and urban-type settlements. П2.01-2002 / State Unitary Enterprise TsPP. - M .: State Unitary Enterprise TsPP, 2002, p.70; Building catalog, part 2, Standard projects of enterprises, buildings and structures - Standard project 121-014 / 1.2 , TsITP, USSR, October 1986; Building Catalog, Part 2, Typical Projects of Enterprises, Buildings and Structures - Standard Design Decision 121-014.01.86, TsITP, USSR, October 1986); TsNIIEP homes. Nizhnekamsk APM “Forum”, working drawings for the 84 series, block sections 84-05 / 1.2, 84-05.01.86 (List of typical design documentation for residential buildings for construction in cities and urban-type settlements. P2.01-2002 / GUP TsPP . - M .: GUP TsPP, 2002, p.13; Construction catalog, part 2, Typical projects of enterprises, buildings and structures - Typical project 84-05 / 1.2, TsITP, USSR, November 1982; Construction catalog, part 2, Typical projects of enterprises, buildings and structures - Standard design decision 84-05.01.86, TsITP, USSR, January 1987; http://www.apmforum.ru/pic/84-05.gif).

The disadvantage of panel houses, according to the standard series, is the limited possibility of planning, which does not meet modern requirements.

A building is known, including supporting transverse walls protruding onto the front surface of the facade, overlapping logs and slabs of loggias and external wall panels supported on them, while the ceilings on the outside of the building are made with a beam part for supporting the outer wall panels and cantilevered loggia plates, while the thickness of the plates the loggias are less than the thickness of the beam parts of the ceilings, and the transverse walls and external wall panels are made at their junctions, have congruent grooves to the entire height of the building, filled with a binder (Patent SU 758450, PC E04N 3/00, publ. 07.12.1980).

The disadvantage of the invention is the limited planning decisions of these large-panel buildings, associated with the presence in the floor slab protruding beyond its dimensions beam part, since the thickness of the elements of floor slabs and slabs of loggias is less than the thickness of its beam part, if necessary, increase or decrease the width of the building in specific transverse axes change the dimensions of floor slabs and internal transverse wall panels and, accordingly, the tooling. In addition, the presence of a beam part in the ceiling is economically feasible in buildings with a wide pitch, and in buildings with a narrow and medium pitch of transverse load-bearing walls, that is, less than 7.2 m, this leads to an unjustified complication of the tooling.

A multi-storey building is known that contains internal transverse load-bearing walls, ceilings and external, multilayer walls, consisting of the outer and inner layers and insulation between them, while the inner and outer layers of the outer walls are connected with each other by flexible connections and separately absorb the loads in this case, the inner layer of the outer walls is supported by floors on floor slabs, which, in turn, transfer the load to the internal walls, and the outer layer of the external walls is supported on the floor by floors on loggia, rye, in turn, transmit the load on the bearing side wall or loggia based on distribution of the beam, which transmit the load on the side wall or a loggia pilasters (Patent RU 13051 U1, IPC E04V 1/04, publ. 20.03.2000).

The disadvantage of the building is that these supporting external walls of the building, due to design features, should always be located either at the interface between the log slabs and the floor slabs, or at the junction of the floor slabs with distribution beams, for separate support from the inner and outer layers, As a result, the possibility of multivariate space-planning solutions in industrial buildings is reduced. In addition, this solution leads to the appearance of new additional products - distribution beams, pilasters.

The prototype of the invention (figure 1) is a large-panel building KB them. A.A. Yakushev RD-17.04 series (http://www.russianrealty.ru/useful/serii_domov/27652; http://www.zdanija.ru/forum/topic-442.html) with transverse and longitudinal bearing walls and slabs, supported along a contour made without girder parts protruding from the plane of the plates, with attached loggias, with external three-layer panels, in which, between the adjacent axes of the building, perpendicular to the external walls, the internal dimensions of the rooms adjacent to the external wall from the inside of the building, which are the main planning modules , and the internal dimensions of rooms adjacent to the outside Buildings against the outer wall, between the same axes of the building, loggias, which are additional planning modules, are equal to each other, and these internal dimensions are the width and height of these planning modules in a plane parallel to the outer wall of the building between these axes, and also whose internal the surface structures of walls, ceilings and ceilings of these planning modules, in the form of rooms and loggias, are in the same planes. The panels of the external walls of the building (4) have lengths larger than the corresponding internal dimensions of the rooms and loggias adjoining it (Fig. 2), and the height of the external panels (4) also has overall dimensions greater than the internal dimensions of the height of the rooms adjoining it and loggias. This is a multivariate multi-storey building, which in the same dimensions and in the same transverse and longitudinal steps of the internal and external walls has seven options for a different set of apartments on a typical floor (1-2-2-1-1, 3-3-3, 1-1- 2-2-1-1, 3-2-1-2, 1-2-2-3, 2-1-2-3, 3-1-1-1-3). Moreover, it has 10 layout options for one-room apartments, 3 options for two-room and 6 layout options for three-room apartments.

The disadvantage of this building is the limited possibility of layouts that does not meet modern market and demographic requirements.

The objective of the invention is to provide constructive ability to change the location of the external panels in the wall of the building, with the possibility of their installation both in the area of the main planning modules - rooms, and in the area of additional planning modules - loggias or at their border, as well as providing the possibility of installing additional planning modules - loggias, in any transverse span of the building, as a result of which there is a multivariance of planning decisions of individual apartments without increasing the number of types of prefabricated lezobetonnyh products, with preserving existing tooling for production of prefabricated products base block sections of large buildings.

The problem is solved due to the fact that in a large-panel building with planning modules in the form of rooms and in the form of attached loggias, in which the internal dimensions of the width and height of the modules are the same, and the inner surfaces of their transverse wall panels and floor slabs, when docking these modules, are in one plane, while the building is made with transverse and longitudinal load-bearing wall panels and flat floor slabs - the wall panels of the loggia are made load-bearing with the possibility of installation in the range of the end face of any the internal transverse wall panel of the building, with the formation of a single load-bearing composite wall having uniform dimensions and the shape of a rectangular parallelepiped, and the external wall panels of the building have length and height dimensions equal to or, taking into account the installation clearances, smaller than the corresponding internal dimensions adjacent to it of planning modules, in the data plane of the outer panels, while being made with the possibility of installation either anywhere in the main planning module - the room, or anywhere in the additional planning full-time module - loggia depending on the desired area.

When changing the mounting position of a side loggia and external wall panels, the external dimensions and configuration of the external wall panels, transverse internal wall panels and floor slabs, loggia wall panels and loggia building slabs do not change, which means that the metal equipment for manufacturing these products does not change.

There is the possibility of a different combination of two types of planning modules in the transverse axes of the building and the ability to change the location of the outer wall panels of the building within these planning modules, without increasing the product range. In the transverse axes of the building of the base block section of a large-panel house, two types of planning modules are distinguished. Consider fragment A of the plan of a typical floor of the base block section with seven one-room apartments on the floor (1-1-1-1-1-1-1-1) (figure 4). The first type of planning module (1a, 1b, 1c, 1d) is the room formed by the internal load-bearing wall panels (3), on which the floor slab rests, in which the external wall panel (4) has the ability to move along the planning module with its fixing in the position that provides the specified space-planning decisions of the apartment. The second type of planning module (2a, 2b) is formed by the bearing panels of the walls (5) and floor slabs of the attached loggia.

The internal dimensions of vertical sections in planes parallel to the outer wall panels of the two types of planning modules, namely, their width and height are the same, and the inner surfaces of wall panels and floor slabs of adjacent planning modules of type (1) and type (2) are in the same planes, due to this, the outer wall panel (4) has the ability to move along the modules, with its installation and fixation in any position. The outer wall panel (4) may be located in the area of the first planning module, may also be in the area of the second planning module or at their border. Wall panels of attached loggias can be mounted in the end face alignment of any internal transverse wall panel of a building, and when mounted, form a single composite wall having uniform dimensions and the shape of a rectangular parallelepiped, due to which an additional loggia can be mounted in any span of the transverse internal walls . In the place where the outer wall panel adjoins the inner wall panel and the floor slab, when cold bridges are formed, to eliminate them in the panels of the internal walls (3) or the wall panels of the loggia, as well as in the floor slabs, inserts of heat-insulating material are arranged to reduce the area of the cold bridges , to bring heat losses to standard values. Inserts of heat-insulating material are installed in the forms of products of wall panels and floor slabs before they are poured with concrete and can be fixed to reinforcing frames or forms.

The design of external wall panels can have several solutions, it can be industrial, factory-insulated two-layer or three-layer reinforced concrete external wall panels with discrete or flexible connections, it can be a single-layer reinforced concrete panel insulated under construction conditions in the form of a stucco or ventilated facade, then for its shaping can be used equipment with dimensions of the width and length of two- and three-layer panels, it can be a multilayer panel of m lkih blocks, it may be team skeleton of thermo insulation panel.

A planning module of type (1) is the main one in creating the volume of an apartment; it may include either a common room, or a kitchen, or an integrated loggia with a room or kitchen. Accordingly, in the base block section, in different axes, it can have different distances between the transverse load-bearing wall panels, say 3.0 m, 3.3 m, 3.6 m, 4.8 m, 6.0 m. Depending from the functional purpose of the rooms and the availability of appropriate equipment, the basic block section in the transverse axes, that is, in the longitudinal direction, can have different spans, in different combinations. Existing block sections of typical series of large-panel houses, as a rule, also have several options for different spans in the longitudinal axes of the block sections. To create an additional opportunity to flexibly change the dimensions and spans of the base block section not only in the longitudinal but also in the transverse direction, planning modules of type (2) are used, which, if necessary, are mounted between any transverse axes of the block section, in the alignment of transverse walls and plates overlapping planning modules of type (1). A planning module of type (2) is an additional volume in creating an apartment of the desired space-planning solution. It can form attached loggias in the embodiment of mounting an external wall panel between a planning module of type (1) and a module of type (2) (Figs. 4, 6, 7, 8, 9). It can form a single volume with a planning module of type (1) in the embodiment of mounting an external wall panel on the outside of planning module 2 (Figs. 6, 7, 9), this creates a single space of a large room, consisting of two types of planning modules. Between the adjacent transverse axes of the building, there can be from one to several sequentially installed loggias in the external direction of the building and connected to each other. Also, a planning module of type (2) can form the volumes of bathrooms and toilets, house and apartment corridors.

The combination of planning modules (1) and (2) and the constructive ability to change the location of the outer wall panel within these modules allows you to have apartments of different sizes, both comfortable and economy class, in the rigid scheme of a large-panel house. For example, only by replacing the attached loggia from the planning module (2a) (Fig. 4 in axes 3-4, 7-8) with the integrated loggia (1a ¹ ) as part of the planning module (1a) (Fig. 5 in axes 2- 3, 8-9) the difference in the area of one-room apartments is 5.04 square meters. And when organizing additional living space to the planning modules (16), (1a), due to the area of one or more than one attached planning module (2a) (Fig.6 in axes 3-4, 7-8, Fig.7 in axes 2-3, 3-4, 7-8, 8-9, Fig. 9 in the axes 2-3, 3-4, 7-8, 8-9), this difference in the area of the apartments, in comparison with the option of a built-in loggia increases significantly, from 10.08 square meters. In addition, the external wall panels can have intermediate, in comparison with the considered options, installation locations of the external panels, which will increase the number of apartments with different areas in the same transverse axes of the building. The connection of prefabricated reinforced concrete elements, internal wall panels, loggia wall panels, floor slabs during the installation of a building is carried out according to standard solutions due to the fact that the location of embedded parts in prefabricated elements does not change with a change in the combination of planning modules. Only the location of the connecting embedded parts in the internal wall panels and the wall panels of the loggias used to attach the external wall panels to them, due to a change in the position of the external wall panel of the interior planning modules, in this case in the molding tooling of the walls, logs wall panels, can change in the manufacture of prefabricated reinforced concrete elements, universal, for example, magnetic clamps are used for fastening embedded parts in the product, for the connecting unit of the outer wall panel from the inside.

For large-panel house-building factories with a flexible technological scheme of production that have produced a certain amount of individual panel houses, it is possible to adjust their configuration for a new specific order, with an increase or decrease in the area of certain apartments. At the same time, the dimensions of mastered precast concrete products will not change. This saves time on the design, on the changeover of forms, the cost of a removable universal molding tooling.

For existing large-panel house-building factories that operate according to a strict technological scheme and produce a typical set of block sections, it becomes possible to increase their diversity by increasing or decreasing the area of standard apartments, depending on the existing demand for them. And if there are quick-detent clips in the products of internal and external wall panels, as well as ceilings, while maintaining the dimensions of these reinforced concrete products, and therefore while maintaining the metal tooling for their manufacture, the set of apartments offered can be increased tenfold, that is, you can actually go to production of individual prefabricated houses. Having not a flexible, but a rigid construction of a large-panel building with a minimum set of precast concrete products, we have a multivariance of space-planning solutions due to the multifunctional use of modules and various possibilities for combining them.

On the example of the block section of a large-panel building KB them. A.A. Yakushev RD-17.04 series, in the version with a system of external insulation of the building in building conditions, through the use of a different combination of two types of planning modules and different options for the location of the outer wall panel within these modules, 81 variants of apartments with different sizes and layouts were obtained against 19 apartment options in the base block section, 34 options for one-room apartments versus 10 options in the base unit section, 14 options for two-room apartments versus 3 options in the base unit section, 33 three-room options apartments against 6 options in the base block section. At the same time, hotel-type, economy- and comfortable-class apartments were obtained without increasing the range of prefabricated reinforced concrete products and changing the above options for sets of typical apartments on the floor. The use of quick-detachable openings in products will significantly change the number of sets of typical apartments on the floor, respectively, and the number of layout options for apartments.

Figure 4 shows fragment A of the base block section of a large-panel house (Design Bureau named after A.A. Yakushev), these are three one-room apartments, which include two types of planning modules that can be transformed.

The planning modules of the first type (1a), (1b), (1c) and (1g), differing from each other in area and dimensions, are rooms formed by internal (3) and external (4) load-bearing wall panels on which the plates rest floors, external wall panels of the planning modules of the first type (4) are located in axes A and B.

The planning modules of the second type (2a) and (2b), differing from each other by the size of the spans between the transverse walls, are attached loggias formed by the bearing panels of the walls of the attached loggia (5) and slabs of the loggias.

Figures 5-9 show options for changing the area of one-room apartments by using a different combination of planning modules of type (1) and type (2) in the transverse axes of the building and due to the ability to change the location of the outer wall panel within these planning modules.

Figure 5 shows fragment A of the base block section, in the embodiment of reducing the area of all three one-room apartments to the economy class, which was obtained by replacing the attached loggias of the planning modules (2a) and (2b) with the built-in loggias (1a ¹ ), (1v ¹ ) , (1g ¹ ) as part of the planning modules (1a), (1c) and (1g) and, accordingly, the movement of the outer wall panel (4) of the planning modules (1a), (1c) and (1g) of the base block section in the axes 2-3, 4-6, 6-7, 8-9 inside the rooms with a decrease in their area by 5.04 m ² and 4.62 m ² and the formation of built-in loggias on the vacant areas (1a ¹ ), (1in ¹ ), (1d ¹ ). Inserts of heat-insulating material are installed in all panels of internal walls and floor slabs, in places where they adjoin the ends of the heat-insulating layer of the outer wall panels, moved to new installation sites, and these are external wall panels between the axes 2-3, 4-6, 6- 7, 8-9. The internal wall panels (3) in axes 3 and 8 are insulated within the loggias.

Figure 6 shows a fragment A of the base block section with three one-room apartments, in the variant of increasing the area of the extreme one-room apartments in the axes 2-4 and 7-9, by 5.04 m ² due to the appearance of two additional planning modules (2a ') in axes 3-4 and 7-8, in comparison with the layouts of the basic block section of fragment A in figure 4. In this case, the outer wall panels in axes 3-4 and 7-8 are installed along axis A, due to this the area of the planning module (16 ) and planning module (2a '), which in the embodiment depicted in figure 4 was an attached loggia, in this m the embodiment are combined, whereby the kitchen area increased by 5.04 m ^2. Loggia panels (5) in axes 3 and 8 are insulated between axes AB.

The figure 7 shows a fragment A of the base block section with three one-room apartments, in a variant of further increasing the area of the extreme one-room apartments in the axes 2-4 and 7-9, due to the appearance of two additional planning modules (2a ') in the axes 2-3 and 8-9, in comparison with the layouts of fragment A in figure 6. In this case, the outer wall panels (4) in the axes 2-3 and 8-9 are installed along the axis A, the area of the planning module (1a) and the planning module (2a ') in this option are combined, due to which the area of the rooms in the axes 2-3 and 8-9 increase by 5.04 m ² . Loggia panels (5) in axes 2 and 9 are insulated between axes AB.

The figure 8 shows a variant of hotel-type apartments based on fragment A of the base block section. In this embodiment, two planning modules (2a) in axes 2-3 and 8-9, which are loggias, are added to the base block section shown in Fig. 4. The location of the openings in the internal (3) and external (4) wall panels was changed due to the rearrangement of the openings with magnetic fixation. The internal longitudinal wall panels (3) between the axes B and C are removed with the formation of planning modules of type (1a) and (1c), limited by internal and external wall panels located around the perimeter of the apartment. The internal space of the apartments is divided using partitions.

The figure 9 shows a variant of hotel-type apartments based on the block section of fragment A, in the variant of increasing the area of four apartments in axes 2-3, 3-4, 7-8 and 8-9, due to the appearance of additional planning modules (2a) in axes 2-3, 3-4, 7-8 and 8-9, while the outer wall panels in axes 2-3, 3-4, 7-8 and 8-9 are installed along axis A, due to this area of the planning module (1a) and the planning module (2a ') in this embodiment are combined, respectively, the area of apartments in the axes 2-3, 3-4, 7-8, 8-9 increases by 5.04 m ² . Loggia panels (5) in axes 2 and 9 are insulated.

Due to the use in the basic block section of a different combination of two types of planning modules and changing the position of the outer wall panel within the boundaries of these modules, one, two, and three-room apartments of a hotel, economy and comfort class, different in size and layout, can be obtained without increasing the range precast concrete products.

Claims (10)

1. A large-panel building with planning modules in the form of rooms and in the form of attached loggias, in which the internal dimensions of the width and height of the modules are the same, and the inner surfaces of their transverse wall panels and floor slabs, when docking these modules, are in the same plane, while the building made with transverse and longitudinal bearing wall panels and flat floor slabs, with attached and built-in loggias, characterized in that the wall panels of the attached loggia are made bearing with the possibility of installation in in the end face of any internal transverse wall panel of the building, with the formation of a single supporting composite wall having uniform dimensions and the shape of a rectangular parallelepiped, and the outer wall panels of the building have dimensions of length and height equal to or, taking into account the mounting clearances, less than the corresponding the internal dimensions of the adjoining planning modules, in the plane of the data of the external panels, while being made with the possibility of installation anywhere in the main planning module - the room, and in any place additional planning module - loggia depending on the desired area. 2. A large-panel building with planning modules according to claim 1, characterized in that when changing the mounting position of the attached loggia and external wall panels, the external dimensions and configuration of the external wall panels, transverse internal wall panels and floor slabs, loggia wall panels and loggia plates of the building are not change, and therefore does not change the metal equipment for the manufacture of these products. 3. A large-panel building with planning modules according to claim 1, characterized in that the inner wall panels of the building or the wall panels of the loggia, as well as the floor slabs, at the junction of the heat-insulating layer of the outer wall panel, have liners in the form of heat-insulating material. 4. A large-panel building with planning modules according to claim 1, characterized in that the design of the outer wall panels can be industrial, factory-insulated with a two-layer or three-layer reinforced concrete outer panel on discrete or flexible connections. 5. A large-panel building with planning modules according to claim 1, characterized in that the design of the external wall panels can be a single-layer reinforced concrete panel, insulated under construction conditions in the form of a stucco or ventilated facade. 6. A large-panel building with planning modules according to claim 1, characterized in that the design of the outer wall panels can be a multi-layer panel of small blocks. 7. A large-panel building with planning modules according to claim 1, characterized in that the design of the outer wall panels can be a prefabricated frame insulated panel of thermal profiles. 8. A large-panel building with planning modules according to claim 1, characterized in that between adjacent transverse axes of the building can be from one to several, sequentially installed in the outer direction of the building and connected to each other attached loggias. 9. A large-panel building with planning modules according to claim 1, characterized in that the prefabricated elements of a loggia - wall panels of loggias and slabs of loggias - can be used in creating internal corridors, form the interior of the apartment. 10. A large-panel building with planning modules according to claim 1, characterized in that the embedded parts in the products of the transverse internal wall panels and wall panels of the loggias, intended for fastening the external wall panels to them, as well as the opening structures in the products of the ceilings, internal and external wall panels fastened to the mold using universal, quick-release clamps.

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