RU2745197C1 - Large-panel building with variable pitch of transverse bearing walls - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to construction and can be used in industrial erection of buildings, in large-panel housing construction. Large-panel building with longitudinal and transverse wall panels with floor slabs, with planning cells in number of two or more. Planning cells adjoin each other through a common transverse wall. Area and boundaries of the planning cells are determined by the perimeter closed location of the nearest to each other bearing transverse and longitudinal walls of the building, consisting of wall panels, including external wall panels, which can be both bearing and not bearing. Longitudinal wall panels of planning cells form walls with inner surfaces of wall panels, i.e. facing the inside of the planning cells, are in the same plane for a length equal to the length of one planning cell or more. Also, the inner surfaces of the opposed longitudinal walls of the planning cells are parallel at adjacent to each other and having a common transverse wall of the planning cells. Height of cells is equal, since inner surfaces of floor plates of said cells, which form their floor and ceiling, are in one plane, and inner surfaces of floor and ceiling plates are parallel to each other. At that, common transverse walls of planning cells, consisting of one or more wall panels, have height equal to, taking into account mounting clearances, corresponding to internal dimensions of height of adjacent to them planning cells, and have length dimensions, taking into account mounting clearances, equal to corresponding sizes of distance between inner planes of opposite longitudinal walls of one or both of two adjacent to given panel of planning cells. In the data plane of the transverse wall panels, said transverse wall panels are configured to be mounted in different locations of one or both of two adjacent to the given transverse wall panel of the planning cells, depending on their required area, by moving the mounting position of the transverse wall panels along the building. At least one of two or both transverse wall panels of planning cell mounting support joint of joint of said panel with slabs can be in version of resting on it of one or more floor slabs, in which the vertical projection of the said floor slab to the horizontal plane is located simultaneously in the area of two adjacent planning cells or more than two.EFFECT: invention provides a building structure design, in which in a wide range of discrete values smoothly change length, and, respectively, the area of base apartments in the direction along the building by changing the area of the planning cells included in the said apartments.3 cl, 7 dwg

Description

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

Known standard series of multi-storey buildings from panels of internal and external walls, floor slabs, with built-in and attached loggias, with solid floor slabs (TsNIIEP dwelling working drawings for series 90, block sections 90-05 / 1.2, 90-05 / 01.86 (List standard design documentation of residential buildings for construction in cities and urban-type settlements.P2.01-2002 / GUP TsPP. - M .: GUP TsPP, 2002 - p. 17; Construction catalog, part 2, Typical designs of enterprises, buildings and structures - Typical project 90-05 / 1.2, TsITP, USSR, June 1982; Construction catalog, part 2, Typical designs of enterprises, buildings and structures - Typical design solution 90-05.01.86, TsITP, USSR, October 1986); working drawings for the series 121, block sections 121-014 / 1.2, 121-014.01.86 (List of standard design documentation of residential buildings for construction in cities and urban-type settlements. P2.01-2002 / GUP TsPP. - M.: GUP TsPP, 2002 - p. 70; Construction catalog, part 2, Typical designs of enterprises, buildings and structures - T type project 121-014 / 1.2, TsITP, USSR, October 1986; Construction catalog, part 2, Typical designs of enterprises, buildings and structures - Typical design solution 121-014.01.86, TsITP, USSR, October 1986); TsNIIEP dwelling, Nizhnekamsk APM "Forum", working drawings for series 84, block sections 84-05 / 1.2, 84-05.01.86 (List of standard 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 designs of enterprises, buildings and structures - Typical project 84-05 / 1.2, TsITP, USSR, November 1982; Construction catalog, part 2, Typical designs of enterprises, buildings and structures - Typical design solution 84-05.01.86, TsITP, USSR, January 1987; http://www.apmforum.ru/pic/84-05.gif)

The disadvantage of panel houses, according to these standard series, is the limited ability to change typical layouts, in particular due to the difficulties in changing the steps of the transverse load-bearing walls, which leads to a change in the dimensions of the following typical products - floor slabs, internal and external longitudinal wall panels and tooling forms for their manufacture, in the amount of more than 50% of the sum of all load-bearing panels and slabs of the building.

A large-panel building is known according to patent No. 2627436 in which, due to continuous, multi-span floors, free layouts inside apartments are provided, the material consumption of the building is reduced by replacing massive interior walls with light partitions, the option of multi-span ceilings does not require the cost of purchasing power forms, for production prestressed floor slabs. In a given building, selectively, or everywhere, it is possible to move from a narrow step of the transverse load-bearing walls to a wide step that is a multiple of a narrow one, and vice versa. The disadvantage of this building is that the length of the apartment, determined by its size along the facade of the building, is the sum of the integer values of the steps of the transverse load-bearing walls, which are strictly equal to the dimensions of the width of the existing floor slabs, respectively, if we want to design an apartment with a certain area, then we get an approximate, not exact, size of its required area. Because unification of prefabricated products of this typical building does not allow having a variety of planning solutions within a certain set of precast concrete products.

The prototype of the invention is a large-panel building (patent for invention No. 2511327) 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 internal surfaces of their transverse wall panels and floor slabs, when these modules are joined , are in the same plane, while the building is made with transverse and longitudinal load-bearing wall panels and flat floor slabs, with attached and built-in loggias, while the wall panels of the attached loggia are made load-bearing with the possibility of mounting in the alignment of the end face of any internal transverse wall panel of the building, with the formation at the same time of a single load-bearing composite wall having uniform dimensions and the shape of a rectangular parallelepiped, and the outer wall panels of the building have length and height dimensions equal or, taking into account the mounting gaps, less than the corresponding internal dimensions of the adjacent planning modules, in the data plane outwardly s panels, at the same time made with the possibility of installation, both in any place of the main planning module - a room, and in any place of an additional planning module - a loggia, depending on their required areas. The disadvantage of this invention is that we can increase or decrease the area of planning modules (cells), in the form of rooms, by a limited amount equal to the area of the loggia, in addition, the area can only be changed in the direction inward or outward of the building, but not along it, which creates restrictions on the insolation of deep rooms.

The objective of the invention is to create a structural diagram of a building, in which we can smoothly change the length, and, accordingly, the area of the base apartments in the direction along the building in a wide range of discrete values, by changing the area of planning cells included in these apartments. At the same time, the formwork dimensions of precast concrete products do not change, so there is no need to make new equipment.

The problem is solved due to the fact that changes are made to the structure of the building, allowing the installation of transverse load-bearing walls, which are the boundary between the planning cells, with an offset in the direction of any planning cell, respectively, the size of the planning cell along the building increases or decreases, which leads to an increase, or reducing the area of the apartment to the required size.

The area and boundaries of planning cells are determined by the perimeter closed arrangement of the nearest to each other, bearing transverse and longitudinal walls of the building, consisting of wall panels, including external wall panels, which can be both bearing and non-bearing, the planning cells are adjacent to each other through a common transverse wall.

FIG. 1 shows a fragment of the layout of apartments of the basic typical panel block section, with a one-room apartment with a total area of 39 m ² . For example, it is necessary to reduce the total area of a given one-room apartment to 30 m ² (see Fig. 2). At the same time, maximally preserve the configuration of prefabricated products and molds, tooling for their manufacture within the framework of the basic standard panel block section.

For this, in the construction of the base block of the section, we take the length of the transverse load-bearing inner wall panel in the axes З _с / Г _с -Е _с , corresponding to the assembly unit in Fig. 3, i.e. its length, taking into account the mounting gaps (value "X"), is equal to the distance between the inner surfaces of the longitudinal wall panels of the planning cell, and its height, similar to its length, taking into account the mounting gaps, the value "X" (see Fig. 3, according to Node 1 ), is equal to the height of the planning cell.

Consider the mechanism for changing the area of a one-room apartment in two versions of the structural scheme of a panel building.

The first option is when the transverse load-bearing wall panels of the block section have a wide pitch, up to 7.2 meters, or in the version of prestressed floor slabs, with their support on the longitudinal load-bearing walls, or in the analogue version, according to patent No. 2627436, when prefabricated floor slabs , form in the transverse direction of the building continuous, three span floors, with a length equal to the distance between the axes A _c -E _c , for example, one three span overlap in axes 1 _s -2 _s and the second in axes 2 _s -3 _s (Fig. 1) , prefabricated floor slabs as part of these three span, transverse floors have in the axes Г _с -Е _с / 1 _с -2 _с and Г _с- Ес / 2 _с -3 _с three-sided support on wall panels, since transverse load-bearing wall panel in axes 2 _с / Г _с -Е _{с is} not structurally provided. This embodiment is shown in FIG. 4 (Section 1-1) and Fig. 1. The entire area of a one-room apartment is constructively one large room, i.e. this is "planning cell 1", which is bounded along the perimeter by load-bearing longitudinal wall panels; block sections in the axes G _s / 1 _s -3 _s , E _s / 1 _s -3 _s and transverse load-bearing wall panels in axes 1 _s / G _s -E _s , 3 _s / G _s -E _s (Fig. 1), the latter is also a common transverse load-bearing wall panel for two planning cells - "planning cell 1" and "planning cell 2" (Fig. 1), for this wall panel the floor slabs of the "planning cell 1" and the floor slabs of the "planning cell 2" are supported on both sides (Fig. 4). A decrease in the area of an apartment from 39 m ² to 30 m ^{2 is} carried out due to the displacement of the transverse load-bearing wall panel 3 _s / G _s -E _s (Fig. 2), inside the planning cell 1, with a decrease in its length from 7200 mm to 5400 mm, accordingly, the original "planning cell 1" is transformed into a "planning cell 3", which has a smaller area, and the "planning cell 2" is transformed into a "planning cell 4". At the same time, both individual floor slabs and the entire floor disc remain unchanged in their installation position, respectively, in this situation, the common transverse load-bearing wall panel for two new planning cells - "planning cell 3" and "planning cell 4" is already supported not two floor slabs, but only one (see Fig. 5), a floor slab in axes 2 _s -3 _s , respectively, this floor slab is now common, both for the new "planning cell 3" and for the new "planning cell 4 ".

With this constructive technique, we achieve the size of the required area of the apartment with absolute accuracy, since the displacement of the transverse bearing wall panel from the axis 3 _s / G _s -E _s , towards the axis 2 _s, can be carried out at any required distance. The shown mechanism for changing the area of apartments, associated with the movement of the installation position of the transverse load-bearing wall panel inside the initial planning cells, is possible due to the presence of the following conditions in the structural solution of the panel building - in the adjacent planning cells, the inner surfaces of the floor slabs forming like a floor, and the ceiling of these cells are in the same plane and the inner surfaces of the floor are parallel to the surfaces of the ceiling, and oppositely located longitudinal walls consisting of wall panels, adjacent to each other, planning cells are parallel, also, the inner surfaces of wall panels of longitudinal walls within planning cells are in the same plane, an ideal option is when the inner surfaces of longitudinal wall panels, sequentially located, but located in different planning cells, are also in the same plane, because in this case, the panel can move not only within one planning cell, but also within an adjacent one, which increases the number of possible volumetric planning combinations of apartments in a block section, and the length and height of the transverse wall panel is equal to the internal dimensions of the width and height of the planning cell, taking into account mounting clearances.

The second option in terms of area reduction is when the transverse load-bearing wall panels of the block section have a narrow pitch, in the analogue version, in the form of standard series.

This embodiment is shown in FIG. 1 and FIG. 6 (Sec. 1-1). The step of the transverse load-bearing walls of the section block is 3.6 meters. The area of the considered one-room apartment is divided by a load-bearing transverse wall along the axis 2 _c , into two adjacent planning cells, "planning cell 5" and "planning cell 6" (see Fig. 6). The total area of the apartment of 39 m ² , as in the first version, is limited along the perimeter by load-bearing longitudinal wall panels, block sections in the axes Г _s / 1 _s -3 _s , E _s / 1 _s -3 _s and transverse load-bearing wall panels in the axes 1 _s / G _s -E _s , 3 _s / G _s -E _s (Fig. 1), the latter is also a common transverse load-bearing wall panel for two planning cells - "planning cell 6" and "planning cell 2" (Fig. 1, Fig. 6). In order to reduce the area of a typical apartment from 39 m ² to the required 30 m ² , as in the first version, we move, for example, a transverse load-bearing wall panel from axis 3 _c in the direction of axis 2 _c , which ensures a decrease in the total the area of the apartment to the required 30 m ² , by reducing the area of the "planning cell 6" to the area of the "planning cell 7" (see Fig. 7). But due to the fact that the minimum step of the transverse load-bearing walls, and, accordingly, the width of the rooms, it is desirable to have at least 2.7 meters, then in order to comply with this condition, there is a need and an opportunity to displace the transverse load-bearing wall panel along the axis 2 _with in the direction of the axis 1 _s , with a decrease in the area of "planning cell 5", but with the required size of the resulting area of the entire apartment being preserved. In this embodiment, a narrow pitch, the longitudinal exterior wall panel in the axes E _s / 1 _s 3 _s may be the carrier. An example of the transformation of the base block of a section in a narrow step also shows the great design possibilities of this solution, since any change in planning decisions in a narrow step, always lead to a change in the product range. And in this constructive solution, the transformation of the layouts of the base unit of the section does not lead to a change in the nomenclature of products, the dimensions of the molds of the prefabricated products also do not change.

The above examples show that due to the mechanism of movement of the transverse load-bearing wall panels, the layout of the apartments of the base block section can be transformed, both in a wide and in a narrow pitch of the transverse load-bearing wall panels.

Due to these solutions, a structural diagram of the basic block of the section was obtained, in which prefabricated panel products of longitudinal and external walls, prefabricated products of floor disks, prefabricated products of staircase and elevator nodes and storey public corridors remain unchanged in the installation position and dimensions, only their locations change window and door openers in the mold, and within a given dimension of an unchanged basic volumetric structure of a panel building, with a wide or narrow pitch of internal transverse load-bearing wall panels, the latter have the ability, in a given section block, to change their mounting position.

Thus, a structural diagram of the building has been obtained, in which we can, in a wide range of discrete values, smoothly change the area of base apartments in the direction along the building, by changing the area of planning cells that are part of these apartments. At the same time, the formwork dimensions of precast concrete products do not change, so there is no need to make new equipment.

FIG. 1 shows a fragment of the basic block of a section with a one-room apartment with a total area of 39 m ² ;

FIG. 2 shows the same fragment of the basic block of the section, but on it the basic one-room apartment with a total area of 39 m ^{2 has been} transformed in the direction of reducing its total area to 30 m ² ;

FIG. 3 shows "Node 1", an assembly unit for the joint of transverse load-bearing panels with longitudinal panels as part of the "planning cells" of the building, transverse load-bearing panels with floor slabs;

FIG. 4 shows a section 1-1 of a fragment of the base block of the section in a wide step of the transverse load-bearing walls;

FIG. 5 shows a section 2-2, with the transformation of a fragment of the base block of the section in a wide step of the transverse load-bearing walls;

FIG. 6 shows a section 1-1 of a fragment of the base block of the section in a narrow pitch of the transverse load-bearing walls;

FIG. 7 shows a section 2-2, with the transformation of a fragment of the base block of the section in a narrow step of the transverse load-bearing walls.

The proposed solution can be applied in the variant of correcting projects of the existing standard series of the above mentioned prototypes, which are currently being produced in large volumes, as well as in the new design of panel houses.

Claims (3)

1. Large-panel building with longitudinal and transverse wall panels, with floor slabs, with planning cells in the amount of two or more, planning cells adjoin each other through a common transverse wall, the boundaries of planning cells and their area enclosed within these boundaries are determined by the perimeter closed the location of the nearest bearing transverse and longitudinal walls of the building, consisting of wall panels, for their entire length or for a part of their length, including external wall panels, which can be both bearing and non-bearing, longitudinal wall panels of planning cells form walls in which the inner surfaces of the wall panels, i.e. facing inward planning cells are in the same plane for a length equal to the length of one planning cell or more, also the inner surfaces of opposite longitudinal walls of planning cells are parallel, adjacent to each other and having a common transverse wall of planning cells are the same, because ... the inner surfaces of the floor slabs, both the floor and the ceiling of these cells are in the same plane, and the inner surfaces of the floor and ceiling slabs are parallel to each other, while the common transverse walls of the planning cells, consisting of one or more wall panels, have a height equal to, taking into account the mounting gaps, the internal dimensions of the height of the planning cells adjacent to them and have length dimensions, taking into account the mounting gaps, equal to the dimensions of the distance between the inner planes of the opposite longitudinal walls of one or both of the two planning cells adjacent to the given panel, in the plane of these transverse wall panels these transverse wall panels are made with the possibility of their installation in different places of one or both of the two planning cells adjacent to a given transverse wall panel, depending on their required area, due to the presence of an installation gap between the vertical ends of the transverse wall panels and the internal surfaces of the extension wall panels, as well as between their horizontal ends and the inner surfaces of the floor slabs and the overlap of the planning cells, the installation position of the transverse wall panels is moved along the building, characterized in that at least one of two or both transverse wall panels of the planning cell has an assembly the support joint of this panel with the floor slabs is made in the form of supporting one or more floor slabs on it, in which the size of the vertical projection of these floor slabs on the horizontal plane is simultaneously in the area of two adjacent planning cells or more than two. 2. Large-panel building according to claim 1, characterized in that the movement of the mounting position of the transverse wall panels along the building within the planning cells is carried out in the variant of their parallelism to the initial position. 3. Large-panel building according to claim 1, characterized in that the movement of the installation position of the transverse wall panels along the building within the planning cells is carried out both in the variant of the length of the transverse wall panel for the entire width of the planning cell, and in the variant not of the full width of the planning cell, but only parts of it.

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