RU2380492C2 - Frame-panel building - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: frame-panel building includes foundation, frame members, wall panels, floor and covering panels, metal connection elements in the form of brackets with holes made for fasteners, sealing elements. Connection elements of posts are made in the form of metal end inserts of rectangular section with open slots on two opposite side edges and with holes made for fasteners on two other edges; at that, brackets attaching post to beam arranged along the perimeter of the building are made in the form of metal profile of "П"-shaped section with distance between flanges which is equal to beam thickness with holes on flanges coaxial to holes on beam for fasteners; additional post intended for attachment of wall panels thereto is made of two mirror-like located metal profiles of Z-shaped section, which are attached with upper flanges to each other and reinforced with board rigidly connected to profiles and arranged inside them; at that, ridge beam, intermediate horizontal beam, framing is made of metal profile of Z-shaped section, which is reinforced with board insert located along profile wall throughout its length and protruding by not less than 10 mm beyond the edge of its external flange.

EFFECT: increasing strength and thermal properties, simplifying and speeding up erection of building owing to use of standard elements, simplifying the design of assembly elements with possibility of their multiple use.

4 cl, 29 dwg

Description

The technical solution relates to construction and can be used in the construction of buildings up to five floors for various purposes with the possibility of reuse of structural elements.

Known prefabricated frame-panel building, including a frame containing beams and vertical racks, floor panels, wall panels equipped with a wooden frame, cladding of cement-bonded boards fixed to the frame, and insulation made of cellular concrete, while the wall panels are equipped with wedge-shaped spikes installed at the corners of the upper and lower side faces of the panels and fixed in the couplings, and the couplings of adjacent wall panels of the same level are pairwise rigidly connected to each other and to the bolt by connecting element.

(See RU No. 17550 U1, MPK-7 Е04В 1/00)

A disadvantage of the known design is the large weight of the wall panels, providing high heat-shielding properties, which complicates the assembly and increases the cost of work.

Closest to the claimed technical solution is a set of frame-panel buildings, including reinforced wooden parts of the frame in the form of racks from a bar containing a core of a metal pipe of rectangular cross section, wooden beams, rafters and girders made with metal cores in the form of an I-beam, a ridge beam, fencing panels, floor panels, coating panels, consisting of outer and inner cladding, mounted on a wooden frame, and heat-insulating material placed in dy skins, the connecting metal fittings in the form of brackets having holes aligned dowel holes connected elements carcass parts for the passage of fasteners.

(See p. RU No. 2233367, IPC-7 ЕВВ 1/00)

The disadvantages of the known design are: the complexity of the structural design of the uprights, beams containing a metal element, lined on all sides with wood, and the elements of their connection, the possibility of loosening those bolted joints that are fixed through wooden gaskets, when shrinking from changes in temperature and humidity of wooden elements, which can lead to a weakening of the structure as a whole and the formation of cracks after finishing surfaces indoors. In addition, the use of one type of heat-insulating material in the device panels requires an increase in their volume to achieve high thermal properties.

The objective of the proposed technical solution is to create a building structure with high thermal properties, easily and quickly assembled from standardized elements made in the factory, providing, if necessary, their multiple use.

The technical result is to increase the strength and thermal properties, simplifying and accelerating the assembly of the building through the use of standardized elements, simplifying the design of the assembly elements with the possibility of their multiple use.

The technical result is achieved by the fact that in a frame-panel building, including the foundation, frame parts in the form of racks from a metal pipe of rectangular cross section with connecting elements rigidly fixed to them, beams, rafters, ridge beams, wall panels, floor panels, floor panels, containing external and internal cladding and a heat-insulating layer placed between them, connecting metal elements in the form of brackets with holes for fasteners, sealing elements, connecting elements These racks are made in the form of metal end inserts of rectangular cross section with open slots on two opposite side faces and with holes for fasteners on two other faces, while the brackets for connecting the rack with the beam located along the perimeter of the building are rigidly fixed on the end inserts of the racks in the form of a metal profile of a U-shaped section with a distance between the shelves equal to the thickness of the beam, and holes on the shelves, coaxial holes on the beam for fasteners, frame parts Denmark additionally contains an additional rack for mounting wall panels on it, made of two mirror-mounted Z-shaped metal profiles joined by upper shelves and reinforced by a board rigidly connected to the profiles, placed inside the profiles to their entire length, and on an additional rack from one edge made a cut in the thickness and width of the beam; beams located around the perimeter of the building, intended for fastening floor beams, are made of a metal profile of a U-shaped section or a U-shaped section with a bend of one of the shelves at right angles to the second shelf, reinforced by an insert from a board placed along the profile wall along its entire length length and rigidly bonded to a metal profile or bonded to a metal profile with the placement of the bend of its shelf in the groove of the board, and the beams located around the perimeter of the building, designed for mounting on them the floor panels and whether the coating panels are additionally equipped with a support platform rigidly fixed in the lower part of the metal profile of the beam; the frame beams additionally contain a horizontal intermediate beam connecting the ridge beam to the rafters, while the ridge beam, horizontal intermediate beam, and rafters are made of a Z-shaped metal profile reinforced by an insert made of a board placed along the profile wall for its entire length and protruding at least than 10 mm beyond the edge of its outer shelf, and on the ridge beam cuts are made for horizontal intermediate beams connecting it to the rafters; wall panels, floor panels, coating panels are made with reinforcing elements in the form of inserts from a metal profile of a U-shaped cross-section or from a board with fastening of the skin on the shelves of the metal profile or on the side surface of the board, and the inserts are placed at the ends of the panel and then evenly over its area , on the other two sides, the panels contain partitions made of boards or metal, one of which with a groove and the other with a protrusion of the size of the groove for connecting the panels “into the lock”, while the heat-insulating layer inside the panel and consists of three layers, two of which are rigidly fixed to the inner surfaces of the skin and are made of non-combustible foamed polymer, and the third layer is placed between them and made of mineral material, while wall panels, floor panels and coating panels contain brackets made in the form plates with installation bends at the edges and in the middle part and with holes for fasteners for fixing them on the end inserts of the panels and with holes on the part of the bracket for fastening that protrudes beyond the width of the panel lementy for fixing the wall panels for extra desks, floors and cover panels panels - on the joists; connecting metal elements in the form of brackets are made with holes for fasteners, coaxial holes of the parts to be connected, while the bracket in the node for connecting additional racks of the lower and upper floors with a beam located along the perimeter of the building and with the floor beam consists of two U-shaped metal profiles sections with distances between the shelves equal respectively to the thickness of the additional rack and the thickness of the floor beams placed by the walls at right angles to each other and rigidly connected between each other with openings on the shelves, coaxial openings of the additional rack and floor beams and one metal profile of a U-shaped section, which is mirrored to the U-shaped profile for fixing an additional rack of the upper floor with its offset from the wall perpendicular to the U-shaped profile on the thickness of the beam located along the perimeter of the building; the bracket in the connection node of the additional rack at the top of the upper floor with the beam located along the perimeter of the building under the roof is made in the form of a metal plate with holes at the edges for mounting it on the beam and the profile of the U-shaped section with a distance between the shelves equal to the thickness of the additional rack fixed rigidly along the wall in the center of the plate with holes on the shelves, coaxial holes of the additional rack; the bracket in the connection node of the additional rack at the bottom of the first floor with the floor beam and the beam located along the perimeter of the building is made of two U-shaped metal profiles located by walls at right angles to each other and rigidly interconnected with a distance between the shelves, respectively the width of the additional rack and the width of the floor beams with holes on the shelves, the coaxial holes of the additional rack and the floor beams, and with the holes on the vertical wall, the coaxial holes on the lke, located along the perimeter to secure the bracket; the bracket in the node connecting the ridge beam with the horizontal intermediate beam is made in the form of a metal profile of an L-shaped section with holes on the shelves for fasteners; the bracket in the junction of the rafters, floor beams and beams located around the perimeter of the building is made of two U-shaped profiles with a distance between the shelves equal to the width of the rafters and the width of the floor beams, located at right angles to the walls, rigidly connected between themselves along the wall and plates placed along the shelves of the profiles; the bracket in the junction of the rafter and the corner post is a metal profile of a U-shaped section with a distance between the shelves equal to the thickness of the rafter, rigidly fixed by the wall at the end of the end insert of the rack with holes on the shelves for fasteners; the foundation is made of wall panels with external and internal cladding of cement-wood boards and an internal heat-insulating layer of heavy foam concrete or concrete, while the panels are rigidly interconnected by end reinforcing inserts and reinforced with reinforcing bars installed in the holes of the perforation of the inserts.

In addition, wall panels may include an inner lining fixed to the end surfaces of reinforcing inserts with a heat-insulating layer of foamed polymer rigidly fixed to its inner surface, and a heat-insulating layer of trehran or expanded clay mixed with milk of lime, occupying the rest of the panel.

In addition, the bracket in the node connecting the rack with the beam, located around the perimeter of the building in the form of a metal profile of a U-shaped section, is made with a support shelf for placing the beam.

In addition, the wide roof frame is additionally equipped with intermediate ridge beams located parallel to the ridge beam with cutouts for rafters and with supports fixed to the floor beams, and intermediate ridge beams and supports made of a metal profile of a Z-shaped section, reinforced by an insert from the board, rigidly connected to it, placed along the profile wall for its entire length and protruding at least 10 mm beyond the edge of its outer shelf.

Figure 1 shows a General view of the building (in a perspective view);

on figa - metal rack Assembly with an end insert and with brackets for attaching beams;

on figb - wooden stand assembly with an end insert;

on figv - end insert of the lower rack with a flange for fixing the rack on the foundation;

in Fig.2g - the end insert of the rack with three brackets for attaching beams;

on fig.2d - bracket for attaching beams with a support platform;

on fig.2 - end insert of the rack with two brackets for attaching beams;

figure 3 - General view of the floor beams

figure 4 is a General view of an additional rack with a cutout for the beam;

on figa, in - a General view of the beams located along the contour of the building, intended for fastening floor beams;

on figb is a General view of the beams located along the contour of the building, intended for fastening the floor panels and coating panels;

Fig.5g is a General view of the ridge beam, intermediate beam, intermediate ridge beam, rafters;

figure 6 - the attachment of the rafters to each other and on the intermediate beam;

7 is a node connecting the ridge beam with the intermediate beam;

on Fig - structural elements of wall panels, floor panels, coating panels without an internal heat-insulating layer;

figure 9 is a fragment of a panel with end inserts from the board and the inner heat-insulating layer;

on figa - bracket for attaching panels, left view;

on figb - bracket for mounting panels, right side view;

figure 11 - nodes attaching beams to racks;

on Fig - bracket mounting additional racks of the upper floor, additional racks of the lower floor and floor beams;

in Fig.13 - bracket for attaching an additional rack of the lower floor below and floor beams;

in Fig.14 - the attachment point of the additional rack of the upper floor, the additional rack of the lower floor and floor beams; the attachment point of the additional rack of the lower floor below and the floor beams;

on Fig - bracket mounting the ridge beam and the horizontal intermediate beam;

in Fig.16 - bracket for attaching a beam located around the perimeter of the building, floor beams and rafters;

in Fig.17 - the mount of the beam located along the perimeter of the building, floor beams and rafters;

on Fig - bracket securing the rafters to the corner posts, mounted on the rack;

on Fig - node attaching the rafters to the corner post;

in Fig.20 - bracket for attaching an additional rack at the top under the roof to the beam located around the perimeter of the building;

on figa - the attachment point of the additional rack at the top under the roof to the beam, located along the perimeter of the building in section;

on figb - the attachment point of the additional rack at the top under the roof to the beam located around the perimeter of the building;

in Fig.22 - the attachment point of the additional racks to the corner posts;

on figa - General view of the foundation;

on figb - node connecting the foundation of the longitudinal and transverse walls of the building;

on figv is a fragment of the foundation panel;

on Fig is a General view of the panel with the inner lining and a heat-insulating layer of tregan or expanded clay, mixed with milk of lime, filling the entire remaining volume of the panel;

on Fig - node mounting the wall panel on an additional rack;

in Fig.26 - the attachment of wall panels to each other "into the castle";

in Fig.27 - the installation site of the intermediate ridge beam with cutouts under the rafters, with emphasis on the floor beams through the props;

on Fig - site installation of heat-insulating material, eliminating the gap in the connection of the wall panels in the area of the beam located along the perimeter of the building;

on Fig - site installation of floor panels and coating foams.

The implementation of wall panels, floor panels, coating panels with reinforcing inserts evenly spaced throughout the volume, and with perforations on the inserts in the middle of the panel, securing the skins to them, and a heat-insulating layer consisting of heat-insulating material of different properties, arranged in three layers, including a layer of mineral aggregate in the form of foam concrete, filling the middle part of the panel and connecting it together through the perforation holes, significantly increases the strength and thermal properties of the panels and buildings in general.

The implementation of the beams of the frame with an external metal profile makes it possible, when using fasteners, to additionally fix the structural elements by welding, increasing the strength of the structure.

The execution of all types of panels of the same design with partitions containing a groove and a protrusion for connecting the panels "in the castle", floor beams, additional racks, roof beams as well as one structural design significantly simplifies and speeds up the assembly. The use of connecting elements in the form of brackets made up of simple metal profiles of the U-shaped and L-shaped sections simplifies the design and speeds up the assembly of the building.

The frame-panel building contains (see Fig. 1) racks 1, additional racks 2, beams 3, rafters 4, intermediate beam 5, ridge beam 6, wall panels 7, floor panels 8, floor panels 9, foundation 10, connecting metal elements and sealing elements (not shown).

Racks 1 (see Fig. 2) are made of a metal pipe 11 of square or rectangular sections or of a bar 12 and are equipped with metal end inserts 13 of the corresponding section for placing the end part of one rack 1 inside the end insert 13 of another rack to connect the racks when building the building along height. Open slots are made on two opposite lateral sides of the end insert 13, and holes for fasteners are made on the other two faces. Additional racks 2, floor beams 3 (see Fig. 3) used when installing and securing the wall panels 7, floor panels 8 and cover panels 9, respectively, are made of two Z-shaped metal profiles 14 placed by the upper shelves to each other and reinforced with a board 15, located between them and rigidly fixed, for example, with screws on profiles 14, while the width of the board 15 protrudes by at least 10 mm beyond the edge of the outer shelves of the metal profiles 14. Additional racks 2 for fixing wall panels flax with a cutout in the upper part (see figure 4) with the size of the cutout, width and length equal to the thickness and width of the beam 3, placed around the perimeter of the building.

Beams 3, located around the perimeter of the building (see figa, c), designed for fastening floor beams, are made of a metal profile of a U-shaped section 16 or a U-shaped section with a bend 17 of one of the shelves at right angles to the second and reinforced an insert from the board 18, placed on the entire length of the metal profile of a U-shaped section and fastened with it using self-tapping screws. When using a metal profile with a bend 17, the bend is placed in the groove of the board 18. Beams located along the perimeter of the building (see Fig. 5b), designed to fix the floor panels 8 and the coating panels 9 on them, are additionally equipped with a supporting platform 17-a made in the form of a corner rigidly fixed, for example, by welding on a metal profile of a beam. The ridge beam 6, the intermediate beam 5, the intermediate ridge beam 22 of the rafter 4 (see Fig. 6) are made of a metal profile 19 of a Z-shaped section, reinforced with a board 20, rigidly fixed to the profile with self-tapping screws, while the board 20 protrudes over the edge the outer shelf of the metal profile is not less than 10 mm. The ridge beam 6 (see Fig. 6, 7) is made with cutouts 21 for the intermediate beams 5, and the intermediate ridge beam 22 (see Fig. 6) is made with cutouts for the rafters 4 and is additionally mounted on a wide roof, parallel to the ridge beam 6, is based on floor beams through an additional support 78 (see Fig. 27), made in the form of a beam according to a design similar to the ridge beam 6.

Wall panels 7 (see Fig. 8) consist of an outer 23 and an inner 24 casing made of gypsum fiberboard, fiberboard, plywood, etc., mounted on the shelves of the metal profile of the U-shaped section of the reinforcing inserts 25 located at the ends of the panels by the shelves inwards and further evenly over its area. The inserts 25 located in the middle part are made with perforation through the holes of which reinforcing bars 26 can be installed. The reinforcing inserts 25 can be made of boards 27 (see Fig. 9). Between the panel skin is placed a heat-insulating layer (see Fig. 9), consisting of three layers, namely: two layers 28 of a non-combustible moisture-proof foam polymer, for example, foam or polystyrene foam, or a glass wool heat-insulating material - isover, rigidly fixed, for example, with glue on the inner surfaces of the skin 23, 24, and the third heat-insulating layer 29 is made of mineral material in the form of lightweight foam concrete, trehran or expanded clay mixed with lime milk, placed between them. Wall panels 7 contain a lower partition 30 made of boards 31 and a bar 32 fixed to the board 31 in its middle part outside the panel, and an upper partition 33 made of boards with a groove for placing a bar 32 therein for connecting the panels to each other castle ”during the assembly of the building.

The casing 23, 24 is rigidly fixed to the lower partition 30, forming a sealed cavity inside the panel for filling it with foam concrete. The lower 30 and upper 33 partitions of the panels can be made of a metal profile with a protrusion and a groove for connecting the panels to the castle. Wall panels 7 (see Fig. 24) can only be made with inner sheathing 24, on which a heat-insulating layer 28 of foamed polymer, for example, foam or polystyrene foam, is rigidly fixed, while sheathing 24 is fixed on reinforcing inserts 25 and on the lower partition wall 31 of the panel with the formation of a cavity filled flush with the end surface of the reinforcing inserts 25 with a heat-insulating material with trehran or expanded clay, mixed with milk of lime placed between them. The overlapping panels 8, the covering panels 9 are made in the same design as the wall panels 7 having an outer 23 and an inner 24 skin. Wall panels 7 can be made with door and / or window openings.

For panel mounting, brackets 34 are used (see Fig. 10), rigidly fixed, for example, with self-tapping screws for concrete, two from each end of the panel (see Fig. 8). The bracket 34 (see Fig. 10) is made in the form of a plate with installation bends 35, 36, 37 along the edges and in the middle part to accommodate the extreme 35, middle 36 bends in the grooves 38 (see Fig. 8) of the mechanical reinforcing inserts 25 with fixing them to the panel. On the protruding beyond the width of the panel part of the bracket 34, holes 39 are made for attaching wall panels 7, floor panels 8, cover panels 9 with self-tapping screws, respectively, on additional posts 2, floor beams 3 and on the supporting platform 17 of the beams located around the perimeter of the building . To connect the wall panels 7 to each other (see Fig. 26), the beam 32 of the lower partition 30 of the upper wall panel is placed in the groove of the upper partition 33 of the lower wall panel 7, connecting them "into the lock". For mounting the wall panels 7 to the additional rack 2 (see Fig. 25), brackets 34 are used, while the bends 37 of the brackets 34 are placed on the outer shelf of the metal profile 14 of the rack 2 and, with the help of self-tapping screws installed in the holes 39 of the bracket 34, the panels are fixed on an additional rack 2. Similarly, the floor panels 8 and the cover panels 9 are fixed to the floor beams. Racks 1 of the building frame are fixed to the foundation by means of anchor bolts passed through holes 40 in the flanges of the end inserts 13 of the racks (see Fig. 2c). To connect the rack 1 and the beam located around the perimeter of the building, use the bracket 41 (see figa, c, d, e) in the form of a metal profile of a U-shaped cross-section with a distance between the shelves equal to the width of the beam with holes 42 on the shelves, coaxial holes on the beam for fasteners - bolts. The bracket 41 can be made with a support platform (see fig.2d), formed by the flexible shelves of the bracket to place the beam on it. The bracket 41 is rigidly fixed, for example, by welding along the wall on the end metal insert 13 (see Fig. 2a, c, d, e), while two brackets are fixed on the corner pillar insert 13 for fixing the beams located along the perimeter of the building longitudinal and transverse walls (see figa). On the insert 13 of the intermediate strut 1, three brackets 41 are fixed (see Fig. 2d) for fastening two beams of transverse or longitudinal walls around the perimeter of the building and the floor beam located perpendicular to them. The attachment site of the beam 3, located along the perimeter of the building, to the rack 1 using the bracket 41 is shown in Fig. 11, while the beam is installed between the shelves of the U-shaped profile and secured by three bolts installed in the holes of the bracket 41 and the holes of the beam. To connect additional racks 2 of the upper and lower floors of the floor beams and beams located around the perimeter of the building, use the bracket 43 (see Fig. 12), containing three U-shaped metal sections 44, 45, 46, rigidly interconnected, two of of which 44, 45 are placed by walls at right angles to each other, and the third profile 46 is mirrored to profile 44 and is rigidly connected to it along the wall at a distance from the wall of profile 45, equal to the thickness of the beam located around the perimeter of the building. On the shelves of the metal profiles 44, 45, 46, holes 47, 48, 49 are made, coaxial with the holes of the additional rack 2 of the upper floor, the beam 3, the additional rack 2 of the lower floor, respectively. On the wall of the U-shaped profile 45, holes 50 are made, coaxial with the holes on the beam located around the perimeter of the building for fasteners - bolts. To connect additional racks 2 at the bottom of the first floor, floor beams and beams located around the perimeter of the building, use a bracket 51 (see Fig. 13) containing two metal profiles of the U-shaped section 44, 45 of the bracket 43 and the third metal profile 52 G- shaped section, rigidly fixed to the wall of the profile 44, while on its shelf there are holes 53 for mounting the bracket 51 on a beam located around the perimeter of the building.

The connection node of the additional racks 2 of the upper and lower floors with a beam located along the perimeter of the building, and with the floor beam is shown in Fig. 14. The bracket 43 is placed on a beam located around the perimeter of the building, and is fixed by means of two bolts installed in the holes 50 of the U-shaped profile 45 and the holes of the beam, while an additional rack 2 of the upper floor is installed between the shelves of the metal U-shaped profile 44 and fixed by two bolts installed in the holes 47 of the profile 44 and the holes of the additional rack of the upper floor, the additional rack 2 of the lower floor is installed with a cutout to the beam, placed between the shelves of the metal profile 46 and fixing They are bolted by means of bolts installed in the holes 49 of the profile and the holes of the additional rack of the lower floor. The floor beam is installed between the shelves of the metal profile 45 and fixed by three bolts installed in the holes 48 of the profile 45 and the holes of the floor beam.

The connection node of the additional rack 2 at the bottom of the first floor, floor beams and beams located around the perimeter of the building is shown in Fig. 14. The bracket 51 is placed on a beam located around the perimeter of the building, and is fixed by two bolts installed in the holes 53, while an additional rack 2 is placed between the shelves of the metal profile 44 and fixed with two bolts installed in the holes 47 of the profile and the holes of the additional rack 2, the beam floors are installed between the shelves of the U-shaped profile 45 and fixed by three bolts installed in the holes 48 of the profile 45 and the holes of the floor beam.

The bracket 55 of the node connecting the ridge beam 6, located below the highest point of the roof, with the intermediate beam 5 (see Fig. 15) is a L-shaped metal profile with holes on the shelves for fasteners.

The connection node of the ridge beam 6 with the intermediate beam 5 is shown in Fig.7. The bracket 55 is mounted on the ridge beam 6 from the side of the board and fixed on the ridge beam 6 and the intermediate beam 5 with bolts installed in the holes of the bracket 55 and the beams 5, 6.

The bracket 56 of the connection node of the rafter 4, the beam located along the perimeter of the building, and the floor beam (see Fig. 16) is made of two metal profiles 57, 58 of the U-shaped section, the walls of which are located at right angles to each other; for stiffness, the profiles 57, 58 are interconnected by a plate 59, rigidly fixed by welding on the side surface of the shelves of the profiles 57, 58. On the shelves of the metal profiles 57, 58, holes 60, 61 are made, respectively, for fasteners for attaching rafters 4 and floor beams, respectively 3, and holes 62 are made on the profile wall 58 for fixing the bracket 56 to a beam located around the perimeter of the building.

The connection node of the rafter, the beam located along the perimeter of the building, and the floor beam is shown in Fig. 17, while the bracket 56 is fixed to the beam located along the perimeter of the building with two bolts installed in the holes 62 of the profile 58, the floor beam is installed between the shelves of the profile 58 and fixed with three bolts installed in the holes 61 on the shelves of the profile and the holes on the beam. Between the shelves of the U-shaped profile 57 of the bracket 56, the rafter 4 is placed and fixed with three bolts installed in the holes 60 of the profile 57 and the holes of the rafters. The bracket 63 of the connection node of the rafter 4 and the corner post 1 (see Fig. 18) is made in the form of a metal profile of a U-shaped cross-section with a distance between the shelves equal to the thickness of the rafter 4 with holes 64 on the shelves for fasteners. The bracket 63 is rigidly fixed by welding along the wall at the end of the end insert 13 of the corner post 1.

The attachment of the rafter 4 to the corner post 1 of the building is shown in Fig. 19, while the rafter is placed between the shelves of the bracket 63 and is fixed with three bolts installed in the holes 64 on its shelves and the holes of the rafters.

The bracket 65 of the connection node of the additional rack 2 of the upper floor with a beam located around the perimeter of the building under the roof (see Fig. 20) is made of a metal plate with holes 66 at the edges and a metal profile 67 of a U-shaped section rigidly fixed to the wall, for example welding in the center of the plate with holes 68 on its shelves.

The connection node of the additional rack 2 of the upper floor with a beam located along the perimeter of the building under the roof is shown in Fig. 21, while the bracket 65 is fixed to the beam with bolts installed in the holes 66 and the holes of the beam, an additional rack 2 is placed between the shelves of the profile 67 and fixed bolts installed in holes 68 of the profile and holes of the additional rack 2.

The connection node of the additional racks 2 and the corner rack 1 is shown in Fig. 22, while the additional racks 2 located on two sides of the corner rack are fixed with self-tapping screws on the metal corners 69, which are rigidly fixed by welding on the rack 1, and on the other hand, the additional racks 2 fasten directly to corner post 1 using self-tapping screws.

The foundation of the building is made of wall panels (see figa, b, c), made with the outer and inner cladding of cement-wood boards 70, on the inner surfaces of which heat-insulating layers 72 are rigidly fixed, for example, of non-combustible polystyrene foam or basalt and internal heat-insulating layer 73 of their heavy foam concrete or concrete, for example, grade M400, rigidly interconnected by self-tapping bolts along end reinforcing inserts 25, reinforced with reinforcing rods 71 installed in perforation holes all tavok.

The construction of the frame-panel building is as follows. The foundation is made using wall panels with outer and inner cladding 70 of cement-wood boards (see figa, b), mounted on metal reinforcing inserts 25, while the insulating layers of non-combustible polystyrene foam or basalt are rigidly fixed to the inner surfaces of the cladding. The panels are installed on a reinforced concrete base 77, constructed in the usual way, depending on the number of storeys of the building. Reinforcing rods 71 are installed in the perforations of the inserts of the 25 panels. Three corners 74 are rigidly fixed to the metal reinforcing inserts of the 25 panels at the corners of the foundation, one of which connects the foundation panels of the longitudinal and transverse walls, and the other two are fixed on the outer edges of the inserts 25 corner inserts, including sheathing 70, fastened by a corner 75 with heat-insulating layers 76 made of non-combustible expanded polystyrene or basalt fixed to them. Then the middle part of the panels is poured with heavy foam concrete or M400 concrete. The racks 1 are fixed on the foundation in the usual way using anchor bolts, passing them through the holes 40 in the flanges of the racks 1. The beams located around the perimeter of the building are placed between the shelves of the brackets 41 and fixed with bolts installed in the holes of the shelves of the bracket and the holes of the beams. Racks 1 increase in height by placing the end of the upper rack in the end insert 13 of the lower rack and fasten them with bolts. On the wall panel 7, the overlapping panel 8, the coating panel 9, the brackets 34 are installed and fixed to the panels with self-tapping screws for concrete installed in the holes of the brackets.

Carry out the installation of roof elements. Install the rafters 4, pairwise placing them under the necessary slope on the roof ridge and fastening them with bolts installed in the holes of the invoice plate 54 (see Fig.6). The fastened rafters are fixed on the intermediate beam 5 with bolts installed in the holes of the rafters and the intermediate beam 5. In the cutouts 21 of the ridge beam 6, intermediate beams 5 are assembled with the rafters 4. To connect the ridge 6 beam to the intermediate beams 5, use the bracket 55, installing it with the sides of the board on the beams 5, 6 and fixing with self-tapping screws installed in the holes of the bracket 55. When building a building with a wide roof, the rafters are additionally fixed on the intermediate ridge beams 22 (see Fig. 6), supporting they are on the floor beams through an additional support 78 (see Fig.27). To connect the rafters 4 with the beams located around the perimeter of the building, and with the beams of overlap, a bracket 56 is used, fixing it to the beam located around the perimeter of the building, using bolts installed in its holes 62 and in the holes on the beam. To connect the rafters 4 with the corner posts 1, a bracket 63 is used, fixing the rafter with bolts installed in the holes 64 on the shelves of the bracket 63 and in the holes of the rafters. Then install and fix on the rafters 4 runs 79 and completely cover the roof with slate or any other material. Install additional racks 2. To connect additional racks 2 of the lower and upper floors with beams located around the perimeter of the building, and with floor beams, use brackets 43, fixing them to the beam located around the perimeter of the building with bolts installed in the holes 50 of the bracket and the holes of the beam. To connect an additional rack 2, floor beams, beams located along the perimeter of the building below on the first floor, use the bracket 51, fixing it to the beam located around the perimeter of the building, bolts installed in the holes 62 of the bracket and the holes of the beam. To connect an additional rack 2 of the upper floor with a beam located around the perimeter under the roof, a bracket 65 is used, fixing it to the beam with bolts installed in the holes 66 of the bracket and beam.

Wall panels 7 are installed and connected “to the lock” by placing the protrusion 32 of the lower partition of one panel in the groove of the upper partition 33 of the other panel. To fix the wall panels 7 to additional racks 2, brackets 34 are used, mounted on the panel. Place the bent portion 37 of the bracket on the outer shelf of the additional rack 2 (see Fig. 25) and fix the wall panel on the additional rack 2 with self-tapping screws installed in the holes 39 of the bracket. The resulting gap between the wall panels (see Fig. 28) in the area of the beam located around the perimeter of the building is covered with a heat-insulating material 80, for example, basalt. Similarly, the floor panels 8 and the cover panels 9 are installed (see Fig. 29), connecting them “into the lock”, and fixed with self-tapping screws on the floor beams. The gaps formed around the perimeter of the panel are removed with foam. The wall panels 7 are externally coated with a heat-insulating material 81, for example, basalt, which is closed with any facing material, for example, Japanese panels, siding, chipboards, etc. (conditionally not shown).

The frame-panel building of lightweight and accelerated assembly of standardized elements with high thermal properties and a robust construction will find application in construction.

Claims (4)

1. Frame-panel building, including the foundation, frame parts in the form of racks from a metal pipe of rectangular cross section with connecting elements rigidly fixed to them, beams, rafters, ridge beams, wall panels, floor panels, floor panels, containing external and internal cladding and a heat-insulating layer placed between them, connecting metal elements in the form of brackets with holes for fasteners, sealing elements, characterized in that the connecting elements of the racks are made in in the form of metal end inserts of rectangular cross section with open slots on two opposite side faces and with holes for fasteners on two other faces, while the brackets for connecting the rack to the beam located along the perimeter of the building are rigidly fixed on the end inserts of the racks, made in the form of a metal profile U-shaped section with a distance between the shelves equal to the thickness of the beam, and holes on the shelves, coaxial holes on the beam, for fasteners, building frame details contain an additional rack for mounting wall panels on it, made of two mirror-mounted metal Z-shaped profiles, joined by upper shelves and reinforced by a board rigidly connected to the profiles, placed inside the profiles for their entire length and protruding by less than 10 mm beyond the edge their outer shelves, and on an additional rack made cutouts for the thickness and width of the beam; beams located around the perimeter of the building, intended for fastening floor beams, are made of a metal profile of a U-shaped section or a U-shaped section with a bend of one of the shelves at right angles to the second shelf, reinforced by an insert from a board placed along the profile wall along its entire length length and rigidly bonded to a metal profile or bonded to a metal profile with the placement of the bend of its shelf in the groove of the board, and the beams located around the perimeter of the building, designed for mounting on them panels of overlap or and coating panels, additionally equipped with a support platform, rigidly fixed in the lower part of the metal profile of the beam; the frame beams additionally contain a horizontal intermediate beam connecting the ridge beam to the rafters, while the ridge beam, horizontal intermediate beam, and rafters are made of a Z-shaped metal profile reinforced by an insert made of a board placed along the profile wall for its entire length and protruding at least than 10 mm beyond the edge of its outer shelf, and on the ridge beam cuts are made for horizontal intermediate beams connecting it to the rafters; wall panels, floor panels, coating panels are made with reinforcing elements in the form of inserts from a metal profile of a U-shaped cross-section or from a board with fastening of the skin on the shelves of the metal profile or on the side surface of the board, and the inserts are placed at the ends of the panel and then evenly throughout its volume and in the middle of the panel are made with perforation, on the other two sides of the panel contain partitions made of boards or metal, one of which with a groove, and the other with a protrusion of the size of the groove for connecting the panels “into the lock” and this heat-insulating layer inside the panel consists of three layers, two of which are rigidly fixed to the inner surfaces of the skin and made of non-combustible foamed polymer, and the third layer is placed between them and made of mineral material, while the wall panels, floor panels and coating panels contain brackets made in the form of a plate with installation bends at the edges and in the middle part and with holes for fasteners for fixing them on the end inserts of the panels and with holes on the protruding beyond inu panels of the bracket part for fasteners for mounting wall panels on additional racks, floor panels and coating panels on floor beams; connecting metal elements in the form of brackets are made with holes for fasteners, coaxial holes of the parts to be connected, while the bracket in the node for connecting additional racks of the lower and upper floors with a beam located along the perimeter of the building and with the floor beam consists of two U-shaped metal profiles sections with distances between the shelves equal respectively to the thickness of the additional rack and the thickness of the floor beams placed by the walls at right angles to each other and rigidly connected between each other with openings on the shelves, coaxial openings of the additional pillar and floor beams and one metal profile of a U-shaped section, which is mirrored to the U-shaped profile, for fixing an additional rack of the upper floor with its offset from the wall perpendicular to the U-shaped profile by thickness beams located around the perimeter of the building; the bracket in the connection node of the additional rack at the top of the upper floor with the beam located along the perimeter of the building under the roof is made in the form of a metal plate with holes at the edges for mounting it on the beam and the profile of the U-shaped section with a distance between the shelves equal to the thickness of the additional rack fixed rigidly along the wall in the center of the plate with holes on the shelves, coaxial holes of the additional rack; the bracket in the connection node of the additional rack at the bottom of the first floor with the floor beam and the beam located along the perimeter of the building is made of two U-shaped metal profiles located by walls at right angles to each other and rigidly interconnected with a distance between the shelves, respectively the width of the additional rack and the width of the floor beams with holes on the shelves, the coaxial holes of the additional rack and floor beams, and with the holes on the vertical wall, the coaxial holes on Alcaeus, located along the perimeter to secure the bracket; the bracket in the node connecting the ridge beam with the horizontal intermediate beam is made in the form of a metal profile of an L-shaped section with holes on the shelves for fasteners; the bracket in the junction of the rafters, floor beams and beams located around the perimeter of the building is made of two U-shaped profiles with a distance between the shelves equal to the width of the rafters and the width of the floor beams, located at right angles to the walls, rigidly connected between themselves along the wall and plates placed along the shelves of the profiles; the bracket in the junction of the rafter and the corner post is a metal profile of a U-shaped section with a distance between the shelves equal to the thickness of the rafter, rigidly fixed by the wall at the end of the end insert of the rack with holes on the shelves for fasteners; the foundation is made of wall panels with external and internal cladding of cement-wood boards and an internal heat-insulating layer of heavy foam concrete or concrete, while the panels are rigidly interconnected by end reinforcing inserts and reinforced with reinforcing bars installed in the holes of the perforation of the inserts. 2. The frame-panel building according to claim 1, characterized in that the wall panels include an inner lining fixed to the end surfaces of the reinforcing inserts with a heat-insulating layer of foamed polymer rigidly fixed to its inner surface, and a heat-insulating layer of trehran, occupying the rest of panel volume. 3. Frame-panel building according to any one of the paragraphs, characterized in that the bracket in the node connecting the rack with a beam located along the perimeter of the building, in the form of a metal profile of a U-shaped section, is made with a support shelf for placing the beam on it. 4. The frame-panel building according to claim 1, characterized in that the wide roof frame is additionally equipped with intermediate ridge beams located parallel to the ridge beam with cutouts for rafters and with supports supported on floor beams, the intermediate ridge beams and supports made of metal profile Z-shaped section, reinforced by an insert from a board rigidly connected to it, placed along the wall of the profile for its entire length and protruding at least 10 mm beyond the edge of its outer shelf.

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