RU174105U1 - BUILDING STRUCTURE - Google Patents

Abstract

The utility model relates to the field of construction, namely the construction of structures from multilayer panels, and can be used in panel housebuilding. The task to be solved by the claimed technical solution is to create a building structure characterized by improved technical and economic characteristics. Technical results achieved as a result of solving the problem, they are: increasing the strength of the roof; reduction of loads on the interior walls; lower construction costs; reduction of operating costs for space heating; providing the possibility of ventilation of the ridge beam without performing a ventilated crate; simplifying maintenance of the roof; improving thermal performance. The construction structure contains walls and a roof, the frame of which contains a ridge beam, rafter beams, longitudinal beams and Mauerlat. The walls and the roof are made of interconnected SIP panels, which are plates of porous material, lined with oriented chipboard on both sides. Between the roof slopes, an attic floor was made from interconnected SIP panels. The roof is made of interconnected SIP panels only on the sections of the slopes between the Mauerlat and the lateral end faces of the attic floor panels. It is preferable that the upper ends of the wall panels are rigidly bonded to the lower ends of the roof panels and the upper ends of the roof panels are rigidly bonded to the side ends attic floor panels and the lower ends of the rafters. It is preferable that the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels It is preferable that the attachment points of the attic floor panels and roof panels, as well as the attachment points of the roof panels with the wall panels, be made with saw rafters. 1 n and 3 z.p. f-ly, 3 Fig.

Description

The utility model relates to the field of construction, namely to the construction of structures from multilayer panels, and can be used in panel housing construction.

The building structure is known, which includes external and internal wall panels, rafter legs, a mauerlat made of solid beams, ridge racks within the height of the attic space, struts, girders or crates, roofing (I. A. Shereshevsky. Construction of civil buildings. - Publishing house "Architecture-S", 2005, p.126, 127, fig. 10.01). A disadvantage of the known design is the complexity of the roofing device, as to ensure the spatial rigidity of the attic structures, it is necessary to set up both vertical cross or strut ties along the ridge lines and horizontal ties along the runs in the plane of the rafter legs.

Known building construction of wooden panels, consisting of external and internal panels, Mauerlat, rafter legs, girders and roofing. The outer and inner panels have one-sided sheathing and are interconnected using vertical bars, to which, through the tie-in ties, they are mounted on the open side of the edges of the panels. Vertical bars located inside the building are brought out into the attic space, while the upper edge of the vertical bars is a support for rafters (RF patent No. 2420634 for the invention "BUILDING FROM WOODEN PANELS", IPC E 04B 1/26, published on 06/10/2011 ) The known design is characterized by insufficiently high strength of the roof, the high complexity of its device, as well as high heat loss due to the high air temperature at the ridge beam and intensive thawing of the rafter system.

Known closest to the claimed technical solution for the totality of the essential features of a building structure containing walls and a roof, the frame of which contains a ridge beam, rafter beams, longitudinal beams and Mauerlat. The walls and the roof are made of interconnected SIP-panels, which are plates of porous material, lined with oriented chipboard on both sides. The roof is covered with SIP panels to the ridge beam. Roof panels are mounted on a ridge beam, rafters and longitudinal beams (RF patent No. 63827 for the utility model "BUILDING DESIGN FROM MULTILAYER PANELS", published on 06/10/2007, IPC E04H1 / 02). The disadvantages of the known design are the low reliability of the roof structure due to the lack of screed rafters; increased loads on the interior walls, acting as braces for the roof; increased heat loss due to the high air temperature near the ridge beam and intensive thawing of the rafter system; lack of ventilation of the ridge beam; high complexity of the roof; high operating costs for space heating; lack of technical attic and the possibility of revision of the rafter system.

The task to which the claimed technical solution is directed is to create a building structure characterized by improved technical and economic characteristics.

Technical results achieved by solving the task are: to increase the strength of the roof; reduction of loads on the interior walls; lower construction costs; reduction of operating costs for space heating; providing the possibility of ventilation of the ridge beam without performing a ventilated crate; simplification of roof maintenance; improving thermal performance.

These technical results are achieved by the fact that the building structure contains walls and a roof, the frame of which contains a ridge beam, rafter beams, longitudinal beams and Mauerlat. The walls and the roof are made of interconnected SIP panels, which are plates of porous material, lined with oriented chipboard on both sides. Between the roof slopes, an attic floor was made from interconnected SIP panels. The roof is made of interconnected SIP panels only on the sections of the slopes between the Mauerlat and the side end faces of the attic floor panels.

Preferably, the upper ends of the wall panels are rigidly bonded to the lower ends of the roof panels, and the upper ends of the roof panels are rigidly bonded to the side ends of the attic floor panels and the lower ends of the rafters.

Preferably, the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels are made with insulation of joints.

It is preferable that the attachment points of the attic floor panels and roof panels, as well as the attachment points of the roof panels with the wall panels, are made with saw rafters.

A comparative analysis of the claimed utility model with the prototype showed that in all cases it is different from the well-known, closest technical solution:

the presence between the roof slopes of the attic floor from interconnected SIP panels;

 the execution of the roof from interconnected SIP panels only on sections of the slopes between the Mauerlat and the lateral end faces of the attic floor panels.

 In some cases, the implementation of the claimed utility model differs from the well-known, closest technical solution:

the implementation of the upper ends of the wall panels, rigidly bonded to the lower ends of the roof panels;

the implementation of the upper ends of the roof panels, rigidly bonded to the side ends of the attic floor panels;

 the implementation of the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels, with insulation of joints;

the implementation of the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels, with saw rafters;

The presence of an attic floor between the roof slopes, the implementation of an attic floor from interconnected SIP panels increases the strength of the roof by screeding all rafters with an attic floor, unloading the walls and, thereby, reducing the load on them and the floor; allows the ventilation of the ridge beam without ventilated crates; reduces operating costs for space heating by reducing the heated volume and simplifies the maintenance of the ridge beam. The execution of the roof from interconnected SIP panels only on the sections of the slopes between the Mauerlat and the lateral end faces of the attic floor panels also reduces the load on the walls and the floor and reduce the cost of the roof structure. The execution of the upper ends of the wall panels rigidly bonded to the lower ends of the roof panels, the upper ends of the roof panels rigidly bonded to the side ends of the attic floor panels; the implementation of the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels with saw rafters increase the strength of the roof and reduce labor costs for the roof device, eliminating the need to manufacture self-supporting insulated wire with an edge trimmed to the angle of the roof. Joint insulation, including the use of mounting foam, increases the thermal characteristics of the building structure.

The utility model is illustrated in the schematic drawings of the building structure shown in FIG. 1-3.

In FIG. 1 is a schematic drawing of a building structure, general view.

In FIG. 2 is a schematic drawing of a building structure, a section of a wall panel and roof panel mount assembly, callout A in FIG. one.

In FIG. 3 is a schematic drawing of a building structure, a section of a mounting unit of a roof panel and an attic floor panel, leader B in FIG. one.

In a preferred embodiment, the building structure comprises walls (1), a roof (2) and an attic floor (8). The roof frame contains a ridge beam (3), rafter beams (4), longitudinal beams (5) and Mauerlat (15). In this case, the walls, roof and attic floor are made of interconnected self-supporting insulated roofs (6), SIP (7) roofs and self-insulated roofs (7) of the attic ceiling mounted between the roof slopes (2). The roof (2) is made of interconnected self-supporting insulated roofs (7) of the roof only in the sections of the slopes between the Mauerlat (15) and the lateral end faces of the self-supporting insulated roofs (9). The upper ends of the SIPs (6) of the walls are rigidly bonded to the lower ends of the SIPs (7) of the roof, and the upper ends of the SIPs (7) of the roof are rigidly bonded to the lateral ends of the SIPs (9) of the attic floor. Attachment points for SIP (9) of the attic floor with SIP (7) of the roof and SIP (7) of the roof with SIP (6) of the walls are made with insulation of joints, for example, foam (10). SIP fastening nodes (9) of the attic floor with SIP (7) roofs and SIP fastening nodes (7) of the roof with SIP (6) walls made with rafters (4), using corners (11), screws (12) and / or nails (13), end plate (14) and Mauerlat (15). SIP (6), (7), (9) are slabs (16) made of porous material, lined on two sides with oriented chipboard (17), for example, OSB building board, Greenboard, LSU, etc.

 The utility model is used as follows.

Installation of the building roof structure begins after the installation of self-supporting insulated wire (6) walls. The installation of the walls supporting the rafters is completed by the installation of the Mauerlat (15). The installation of the walls supporting the roof insulated wire (7) and the roof insulated roof (9) of the attic floor is completed by installation of the end piping (not shown in the drawing). Above the wall section, at the design height, a horizontal attic floor (8) of self-supporting insulated wire (9) is mounted. Next, the supporting part of the roof is mounted as part of the ridge beam (3), longitudinal beams (5) and other power systems, according to the project. Then the rafters (4) are prepared with a gash for support in the Mauerlat (15) and supported on the outer key of the self-supporting insulated roof (9) of the attic floor, the longitudinal beam (5) and the ridge beam (3), if they are provided for by the project. The first SIP (7) of the roof is installed along the border of the gable walls in the roof area from the Mauerlat (15) to the attic floor (8). Prepared rafter beams (4) are mounted in the SIP grooves (7) of the roof and rigidly fastened to the Mauerlat (15), attic floor (8), longitudinal beams (5) and the ridge beam (3). Next, the process is repeated until the assembly of the roof. Thus, to fasten the panels (6) of the walls with the panels (7) of the roof, the panels (7) of the roof with the panels (9) of the attic floor, use corners (11), screws (12), nails (13), end (14) boards , rafter beams (4), ridge beam (3), longitudinal beams (5) and Mauerlat (15).

Claims (4)

1. A building structure comprising walls and a roof, the frame of which contains a ridge, rafters and longitudinal beams, while the walls and the roof are made of interconnected SIP panels, which are plates of a porous material, lined with oriented chipboard on both sides, characterized in that between the roof slopes the attic floor is made of interconnected SIP panels, and the roof is made of interconnected SIP panels only on sections of the roof slopes between the Mauerlat and the side ends Vym faces attic floor panels. 2. The building structure according to claim 1, characterized in that the upper ends of the wall panels are rigidly bonded to the lower ends of the roof panels, and the upper ends of the roof panels are rigidly bonded to the side ends of the attic floor panels. 3. The building structure according to claim 1, characterized in that the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels are made with insulation of joints. 4. The building structure according to claim 1, characterized in that the attachment points of the attic floor panels with the roof panels and the attachment points of the roof panels with the wall panels are made with saw rafters.

Images