EA007548B1 - House set for a frame-panel unit-built building - Google Patents

Abstract

The invention relates to building construction and can be used for building new and reconstruction old buildings. The inventive set comprises wooden pillars embodied in the form of a beam provided with a metal core inside thereof and lined with wooden plates which are connected to said core by means of metal wall dowels provided with holes for connecting elements. Said set also comprises wooden beams, posts and girders provided with metal core in the form of a flange beam, fencing panels, floor panels, coverings embodied in the form of cells which are filled with vapour-insulating and heat-insulating material and arranged between two boards, a wooden frame embodied in the form of longitudinal and transversal boards which are treated with anticeptic and fire-retardant and interconnected in such a way that they form one piece by means of two metal elements having U-, or T-, or L-shaped cross section, repeating the frame configuration and embracing the frame panels on two sides thereof. In addition the covering and floor panels are provided with supporting metal plates connected to the top and lower ends of the U-, or T-, or L-shaped metal elements.

Description

The invention relates to the field of construction and can be used in the construction of new, in the reconstruction of existing buildings and for the construction of attic superstructures above buildings.

A known construction of the attic, containing a frame consisting of beams, racks, rafters, girders and struts, closed with panels on the outside. Cross rafter beams are interconnected and with struts using overlays. The auxiliary transverse run and the vertical strut are also connected to the rafters by means of overlays (see French Patent 2547340, Method for equipping roof structures and living quarters obtained with this method, Е04С23 / 02, Е04В7 / 04 publ. 12/14/1984).

The frame is made of wood, it does not have sufficient strength, is lightweight, and this leads to the fact that the design can not withstand extreme external forces, as a result of which the superstructure on the existing building can be carried out only one-story.

Closest to the proposed technical solution is the home kit frame-panel building, including (see US patent 4265061 Building construction E04B1 / 00, published in 1981) wooden racks, beams, rafters, crossbars, ridge beam with a reinforcing element, waterproof coating panels and fencing panels with reinforcing element, connecting metal elements, sealing elements. In this case, the reinforcing element of the frame parts is a wooden beam located parallel to the reinforced part and attached to it with brackets, bolts, nails, passed through holes in the connecting metal elements located between the connected parts and made in the form of cross-shaped planar or spatial structures.

The connecting elements mainly perform the function of local stiffness elements and do not effectively transfer the load flow (cutting forces and moments both in the load plane and from the disturbing forces acting from the plane of the main load flows).

The disadvantage of this technical solution is the low strength of the building due to the presence of only hinged nodes in the building structure, which leads to an increase in the acting stresses in the beams and racks, as a result of which the building cannot be made more than two-story, and in some cases it cannot be two-story due to insufficient rigidity of the nodes. In addition, the installation of compounds of elements in the form of cross-shaped structures inside the connected parts of the frame is complicated and increases the complexity of the Assembly and the cost of installation.

The objective of this technical solution is to create a building structure with ease of assembly with high accuracy of assembly units, strength, lightness, which can be used for mass reconstruction of existing buildings and with new construction, reducing the cost of construction, creating frame-panel buildings with high floors, comfort.

The technical result of the proposed technical solution is the creation of prefabricated frame and panel buildings of increased number of storeys having lightness, strength, ease of assembly with high accuracy of the assembly units, low cost of construction and the necessary fire resistance.

The specified technical result is achieved by the fact that in the well-known house kit of a frame-panel building, including reinforced wooden frame parts in the form of racks, beams, rafters, girders, ridge beams, fencing panels and floor panels with a reinforcing element, connecting metal elements and sealing elements, there are differences, namely: reinforced wooden racks are made in the form of a bar containing inside a metal core protected by a corrosion-resistant coating in the form of a rectangular tube, fu wood lining around the perimeter treated with an antiseptic and flame retardant, connected with a metal core with metal pins with holes for connecting elements, while the boundaries of the connection between the metal and the tree are filled with material that has adhesive ability and increased fire resistance, protecting the metal from corrosion and filling voids and bumps reinforced wooden beams, rafters, girders are made with a metal core treated with an anti-corrosion coating in de I-beams made of two profiles of T-section or Tauri made up of two corners, with a sheet welded between them of a smaller section than the wall of the brand, and the ratio of the thicknesses of the shelf of the brand, wall of the brand and welded sheet is 10: 12-6: 2- 3, while the core is lined around the perimeter with wooden linings treated with an antiseptic and flame retardant, connected to the metal core with metal pins with holes for connecting elements, while the boundaries and connections between the metal and the tree filled with a material having adhesive capacity and increased fire resistance, protecting the metal from corrosion and filling voids and bumps, fencing panels, overlapping and coating panels are made in the form of heat-insulating material filled between two claddings with vapor barrier cells of a wooden frame formed from longitudinal and transverse boards treated with an antiseptic and a flame retardant and joined together using two metal elements repeating the configuration of the frame P-, or T-, or G-o cross-section, covering on both sides of the frame board and mechanically attached to them, while the coating and overlapping panels additionally contain supporting metal plates

- 1 007548 bars attached at the ends of the lower or upper metal element of the P-, or T-, or G-shaped section, and the connecting metal elements are made in the form of brackets containing holes coaxial with the holes of the plugs of the connected elements of the frame parts for skipping fasteners, while the bracket in the node connecting the floor beams and racks is a welded structure consisting of three vertical plates forming the letter H in plan and a fourth support plate attached horizontally and perpendicular to the lower ends of two parallel vertical plates to the left or right of the crossbar, and in the vertical parallel plates of the bracket part that does not have a horizontal plate, there are holes coaxial with the holes of the frame rack nails, and in the vertical parallel plates of the bracket part having a horizontal plate there are holes , coaxial to the holes of the dowels of the floor beams, or a welded structure formed of three vertical plates, of which two are parallel to each other and located from each other at a distance equal to the width of the beam, and attached perpendicularly to the third plate, and the fourth support plate attached horizontally from the bottom to the ends of the vertical parallel plates, while the vertical parallel plates have holes that are aligned with the holes of the nails of the sides of the floor beams, and the holes in the third vertical plate coaxial with the holes of the stud racks, the bracket in the node connecting the ridge beam and rafters is a welded structure of two polygonal parallel vertical plates and a third plate located mainly horizontally and attached perpendicularly to the upper faces of the vertical plates, while two parallel vertical plates are spaced perpendicularly to the third plate, spaced from each other at a distance equal to the width of the ridge beam, and polygonal vertical plates are made with holes, coaxial holes of the rafters, and reinforced with ribs perpendicular to these plates, and holes on the vertical plates for fastening to gantry beams are coaxial with the holes of the ridge of the ridge, and these vertical plates are reinforced with stiffeners, and the horizontal plate has holes for fasteners or a welded structure consisting of a plate with holes coaxial with the rafters and two parallel plates perpendicular to it, spaced at a distance equal to the thickness of the ridge beam, the holes in which are coaxial with the holes of the ridge of the ridge beam, the bracket in the node connecting the rafters and the girder is made in the form of a plate with holes, coaxial holes of the rafters, to the surface of which an inverted U-shaped table is attached, in the walls of which there are holes coaxial with the holes of the run, the bracket in the node connecting the rafters and the floor beams and the floor or cover panel is made in the form of a flat plate with holes coaxial the holes of the dowels of the connected parts of the frame, to which a stiffener is perpendicularly attached, which is at the same time an abutment element for the floor panel, the bracket in the connection node sludge or floor beams and floor panels (cover), the upper edges of which are located above the upper edge of the rafters, is made in the form of a plate with holes for a threaded connection, through which the ends of the threaded rods are passed, tightened with a nut, while the rods cover the beam from the sides and welded to supporting angles attached to the bottom of the rafter beam, the bracket in the junction of the vertical and inclined racks or rafters is a welded structure consisting of two polygonal parallel plates located at a distance equal to the thickness of the rack, perpendicular to which a horizontal and inclined plate are attached, forming an acute angle between each other, connected by a stiffener, perpendicular to them and parallel to polygonal plates, and the holes in the upper parts of the polygonal plates are aligned with the holes of the nails inclined racks or rafters, and the holes in the lower parts of the polygonal plates are aligned with the holes of the nails of the vertical rack, and attached to the coating beam or rafter flax fastening elements, passed through the hole of the dowels of the beam or rafters, support corner.

In addition, in the panels of coating, overlapping and fencing, the joints between metal and wood can be filled with material having adhesive ability and increased fire resistance, protecting the metal from corrosion and filling voids and irregularities, and metal elements P-, or G-, or T-shaped sections at the intersection of the boards of the frame are equipped with stiffeners.

In addition, racks or rafters are additionally equipped with metal flanges at the ends.

The implementation of the frame parts in the form of the proposed metal-wooden structures with thin-walled metal cores allows to increase the strength of prefabricated frame-panel buildings while maintaining their lightness, which allows to increase the spatial rigidity of the building, and, consequently, the number of floors in the building. In addition, the implementation of the connecting metal elements in the form of brackets, reducing the possibility of rotation of the supporting parts of the connected parts of the frame, allows you to effectively perceive and transfer loads, which additionally leads to an increase in the strength and rigidity of the prefabricated building.

Unification and constructive consistency of docking assemblies for various connected frame parts in combination with the lack of marking for fasteners due to the presence of holes

- 2,007,548 in tubular pins make it easy, accurate and quick to assemble a building, which reduces the cost of construction. At the same time, technological holes in the beams will, if necessary, be fastening elements for suspended ceilings and utilities.

Filling the boundaries of the connection between metal and wood with material that ensures the filling of voids and bumps increases the fire resistance of the building, because protects the metal from the effects of fire, which increases the strength of the building at elevated temperatures.

The choice of the cross section of the metal core of the uprights, beams, girders and rafters depends on the level of strength that must be ensured. Racks with a section in the form of a square tube and beams with a section in the form of an I-beam made up of two profiles of a T-section with a sheet welded between them of a smaller section than the wall of the brand have the maximum strength, and the ratio of the thicknesses of the shelf of the brand, wall of the brand and welded sheet 10:12 -6: 2-3 provides the necessary level of strength while saving metal and, therefore, lower cost. The necessary level of strength is achieved with all variants of the cross section of metal racks and beams, and their choice, ultimately, depends on the cost of manufacturing cores. An additional supply of racks at the ends with metal flanges facilitates the height of the racks. A similar implementation of rafters with metal flanges at the ends facilitates their installation.

The construction of the coating, flooring, fencing panels used in the building provides not only the required level of thermal insulation, fire resistance, strength of the panel itself, but also in combination with the proposed structures of racks, beams, brackets, significantly improves the operation of the building frame as a whole, due to the presence of the panels themselves two - upper and lower - metal elements of П-, or Т-, or Г-shaped section, separated by height in wooden longitudinal and transverse boards of the panel frame, repeat constituents carcass configuration and connecting the frame panel together. If necessary, P-, or T-, or L-shaped elements at the intersection of the boards of the frame are equipped with stiffening elements. The design of the panels and the design of the brackets in the nodes of the connection between the panels and the frame provide the rigidity of the floor and cover disk of the building, which redistributes the loads from the panel to the building frame, making it work, while reducing deformation, both in individual elements of the frame and in the building as a whole.

The implementation of the connecting metal elements in the form of brackets covering the connected frame parts in most cases from three sides, can significantly reduce the possibility of rotation of the connected frame parts, improves the operation of the building as a whole, increasing its strength, while reducing the weight of the used frame parts.

The bracket at the junction of the floor beam and the rack is a welded structure consisting of three vertical plates forming the letter H in plan and a fourth support plate attached horizontally and perpendicularly to the lower ends of two parallel vertical plates to the left or right of the crossbar, and in vertical there are holes parallel to the plates of the bracket part that does not have a horizontal plate, coaxial with the holes of the frame rack nails, and parts of the crowns in the vertical parallel plates Thane, having a horizontal plate has openings aligned dowel holes joists.

The bracket at the junction of the floor beam and the strut can also be a welded structure formed of three vertical plates, of which two are parallel to each other and are located at a distance equal to the width of the beam, and are attached perpendicular to the third plate, and the fourth base plate attached horizontally from the bottom to the ends of the vertical parallel plates, while the vertical parallel plates have holes coaxial with the holes of the nails of the sides of the floor beams, and tions in the third vertical plate are aligned dowel holes rack.

The bracket in the junction of the ridge beam and rafters is a welded structure of two polygonal parallel vertical plates and a third plate, located mainly horizontally and attached perpendicularly to the upper faces of the vertical plates, while two parallel vertical plates located perpendicularly attached to the third plate at a distance equal to the width of the ridge beam, and polygonal vertical plates are made with holes coaxial tiyam pegs rafters, and reinforced ribs perpendicular to these plates and the holes on the vertical plates for mounting a ridge aligned dowel holes ridge beam, these vertical plates reinforced ribs, and has holes for fixing elements in the horizontal plate. The bracket in this joint can also be a welded structure consisting of a plate with holes aligned with the rafters and two parallel plates perpendicular to it, spaced from each other at a distance equal to the thickness of the ridge beam, the holes in which are aligned with the holes of the ridge of the ridge beam.

The bracket in the node connecting the rafters and the girder is made in the form of a plate with holes coaxial with the rafters of the rafters, to the surface of which an inverted U-shaped table is attached, in the walls of which there are holes coaxial with the holes of the girders.

The bracket in the connection unit for the rafters, floor beams and floor or cover panels you

- 3 007548 is filled in the form of a flat plate with holes, coaxial holes of the dowels of the frame parts to be connected, to which a stiffener is perpendicularly attached, which is also a support element for the floor panel.

The bracket in the junction of the rafters or floor beams and floor panels (cover), the upper edges of which are located above the upper edge of the rafters, is made in the form of a plate with holes for a threaded connection, through which the ends of the threaded rods are passed, tightened with a nut, while the rods cover beam from the sides and welded to the reference corners attached to the bottom of the rafter beam.

The bracket in the junction of the vertical and inclined racks or rafters is a welded structure consisting of two polygonal parallel plates located at a distance equal to the thickness of the rack, perpendicular to which the horizontal and inclined plates are attached, forming an acute angle, interconnected a stiffener perpendicular to them and parallel to the polygonal plates, and the holes in the upper parts of the polygonal plates are aligned with the holes of the dowels of the inclined steel racks or rafters, and the holes in the lower parts of the polygonal plates are coaxial with the holes of the uprights of the vertical rack, and the support corner is attached to the coating beam or rafters by fastening elements passed through the hole of the rails of the beam or rafters.

In the case of a small angle of inclination of the roof, the bracket in the junction of the ridge beam and rafters is a welded structure consisting of a plate with holes coaxial with the rafters and two plates perpendicular to it, spaced from each other at a distance equal to the thickness of the ridge beam, the holes in which coaxial to the holes of the ridge of the ridge beam.

A ridge beam can also be made with a metal core made up of two profiles of the T-section or Taurus of two corners with a sheet welded between them of a smaller section than the wall of the brand, with a ratio of the thicknesses of the shelf of the brand, wall of the brand and welded sheet and 10: 12-6 : 2-3 provides the necessary strength and lightness of the ridge beam, which allows roofs with a small angle of inclination.

The supply of fencing panels, cover panels and floor slabs improves the performance of panel joints and their installation.

In FIG. 1 shows a vertical section of a building (frame diagram).

In FIG. 2 shows a view of the building from above (without coating panels).

In FIG. 3 shows the construction of a stand with a metal core in the form of a square tube.

In FIG. 4 shows a section AA in FIG. 3.

In FIG. Figure 5 shows the construction of a stand with a metal core in the form of a rectangular tube.

In FIG. 6 shows a section AA in FIG. 5.

In FIG. 7 shows the construction of a stand with a metal core in the form of a square tube and with a flange at the end.

In FIG. 8 shows a section AA in FIG. 7.

In FIG. 9 shows a section BB in FIG. 7.

In FIG. 10 shows the construction of a beam with a metal core in the form of an I-beam, made up of two profiles of T-section with a sheet welded between them of a smaller section than the wall of the brand.

In FIG. 11 shows a section AA in FIG. 10.

In FIG. 12 shows the construction of the rafters of a beam with a core in the form of an I-beam made of Tauri composed of two corners with a sheet welded between them of a smaller cross section than the Tauri wall.

In FIG. 13 shows a section AA in FIG. 12.

In FIG. Figure 14 shows the construction of a rafter with a core in the form of an I-beam, composed of two profiles of a T-section with a sheet welded between them of a smaller section than the wall of the brand with a flange at the end.

In FIG. 15 shows section AA in FIG. 14.

In FIG. 16 shows a section BB in FIG. 14.

On Fig. 17 shows the design of the panel fencing without sheathing and thermal insulation.

In FIG. 18 shows a section AA in FIG. 17 in the case of performing connecting the plank frame of the metal elements with a U-shaped cross-section, but also shown sheathing and thermal insulation.

In FIG. 19 shows a section AA in FIG. 17 in the case of the execution of connecting the plank frame of the metal elements with a L-shaped cross section, but also shown sheathing and thermal insulation.

In FIG. 20 shows section AA in FIG. 17 in the case of the execution of the connecting boards of the frame of the metal elements with a T-shaped section, but also shown sheathing and thermal insulation.

In FIG. 21 shows the design of the cover and floor panels without sheathing and thermal insulation.

In FIG. 22 shows a section AA in FIG. 21 in the case of connecting boards of the frame me

- 4 007548 thallium elements with a U-shaped cross-section, but also shown cladding and thermal insulation.

In FIG. 23 shows section AA in FIG. 21 in the case of the execution of connecting the plank frame of the metal elements with a L-shaped cross section, but also shown sheathing and thermal insulation.

In FIG. 24 shows a section AA in FIG. 21 in the case of the execution of the connecting boards of the frame of the metal elements with a T-shaped section, but also shown sheathing and thermal insulation.

In FIG. 25 shows a node connecting two guard panels to each other without an intermediate rack.

In FIG. 26 shows the attachment point of two guard panels to a corner post.

In FIG. 27 shows the mount of the rack to the monolithic belt with a cut along the line of attachment (front view).

In FIG. 28 shows the mount of the rack to the monolithic belt (top view).

In FIG. 29 shows a node for interfacing racks with flanges with each other.

In FIG. 30 is a view A of FIG. 29.

In FIG. 31, 32, 33 shows the bracket in the form of the letter P, used to connect the floor beams and racks, respectively, the view is straight, side and top.

In FIG. 34, 35 shows the attachment point of the floor beam and the rack of rectangular cross-section using a bracket in the form of the letter P, respectively, a view directly and from above.

In FIG. 36 shows the support unit of the floor panel to the beam.

In FIG. 37 is a view A of FIG. 36.

In FIG. 38 shows the support unit of the guard panel on an ordinary column (horizontal section).

In FIG. 39 is a view A of FIG. 38.

In FIG. 40, 41, 42, a bracket is shown in the form of the letter H, used to fasten the coating beam or floor to the rack, respectively, a straight, side and top view.

In FIG. 43, 44 shows the attachment site of the coating beam or floor to the rack, respectively, a straight and top view.

In FIG. 45, 46, 47 shows the bracket used to connect the ridge beam to the rafter (option 1), respectively, a view directly, side and top.

In FIG. 48, 49, 50 show the connection point of the ridge beam with the rafter using the bracket shown in FIG. 43, 44, respectively, the view is straight, side and top.

In FIG. 51, 52, 53 shows a U-shaped bracket without a support shelf, used to connect the ridge beam to the rafter (option 2), respectively, a straight, side and top view.

In FIG. 54, 55 shows the connection node of the ridge beam with the rafter using the bracket shown in FIG. 51, 52, 53, respectively, the view is straight, side and top.

In FIG. 56, 57 shows a bracket for connecting the rafters and girders, respectively, a straight view, side view.

In FIG. 58 shows the rafter and girder connection assembly using the bracket shown in FIG. 56, 57.

In FIG. 59 shows the connection node rafters, run and panel.

In FIG. 60, 61 shows the connection node of two rafters or panels and a beam using an arm with rods, respectively, a straight and top view.

In FIG. 62, 63 shows a bracket for connecting a vertical rack and an inclined rack or rafter, respectively, a top view and a side view.

In FIG. 64 shows the connection node of two racks - vertical and inclined between each other or vertical racks and rafters.

In FIG. 65 shows the attachment point of two floor panels to each other.

The home kit of a prefabricated frame-panel building includes (see Fig. 1, 2) racks 1, beams 2, rafters 3, girders 4, ridge beam 5, fencing panels 6, cover panels 7 and overlapping panels 8, connecting metal elements ( not shown in these figures) and sealing elements (not shown).

Racks 1 (see Fig. 3, 4, 5, 6) are made in the form of a bar containing inside protected by an anticorrosive coating (for example, primer, paintwork, cadmium plating, galvanizing, etc.) a metal core in the form of a square tube 9 (see Fig. 4), pipes of rectangular cross section 10 (see Fig. 6), lined around the perimeter with treated antiseptic and flame retardant, for example, a composition based on ammonium, phosphorus, magnesium salts, wooden plates 11 connected to a metal core by tubular metal pins 12 s hole by fasteners (not shown). At the same time, the boundaries of the connection between metal and wood can be filled with material that ensures the filling of voids and irregularities, protection of the metal from corrosion, increased fire resistance and adhesive ability. As such material, the composition GARANT-PLUS (TU 5772-002-39930146-99), sealing and adhesive mastic based on liquid glass or cement-sand mortar can be used. The choice of rack design is determined by the magnitude of the load. Racks with a core in the form of a square tube are used in cases of the highest loads acting on the racks during the construction of two-three-story buildings.

To increase the height of the building, racks 1 can be made with metal flanges

- 5 007548 at the ends (see Fig. 7, 8, 9) with holes 14 for fasteners. The flange 13 is welded to the metal core 9 of the pillar 1. The wood paneling does not reach the flanges. As fasteners, bolts, screws, riveted joints are used.

Beams 2, rafters 3, runs 4 (see Fig. 10, 11) can be made with a metal core in the form of an I-beam 15, formed from two profiles of a T-section with a sheet welded between them of a smaller section than the wall of the brand, and the ratio of the thicknesses of the shelf brand, wall brand, welded sheet is 10: 12-6: 2-3. The core 11 is treated with an anticorrosive coating and lined around the perimeter with antiseptic and flame retardant treated wooden plates 11 connected to the metal core with metal pins 12 with holes for fasteners, while the boundaries of the connection between the metal and the tree are filled with material to fill voids and bumps, protecting the metal against corrosion, increased fire resistance and adhesive ability. As such material can be used, for example, sealing and adhesive mastic GARANT-PLUS.

Beams 2, rafters 3, girders 4 (see Fig. 12, 13) can be made with a metal core 16 in the form of an I-beam, formed from two Tauri, made up of two corners, with a sheet of a smaller section welded between them than the wall of the Taurus, moreover, the ratio of the thicknesses of the shelf of the brand, the wall of the brand and the welded sheet is 10: 12-6: 2-3.

Rafter 3 can also be performed with a metal flange 13 (see Fig. 14, 15, 16), welded to a metal core 15 at the ends of the rafter 3. Flanges 13 are provided with holes 14 for fasteners.

The fencing panels 6 (see Figs. 17, 18) have a wooden frame 17 treated with an antiseptic and flame retardant, formed by longitudinal 18 and transverse 19 boards and joined together and located between two U-shaped metal elements that repeat the configuration of the frame, repeating the configuration of the frame, mechanically connected to the wooden frame 17, while the boundaries of the connection between metal and wood for greater strength and fire resistance can be filled with a material having adhesive ability and increased th fire, providing protection against the corrosion of metal and the filling of voids and irregularities. As such material can be used, for example, sealing and adhesive mastic GARANTPLYUS or cement-sand mortar.

Embodiments of the fencing panels with the connecting metal elements 20 of the G- and T-section are shown in FIG. 19, 20.

The metal elements 20 at the junction of the cells of the frame 17 may be further provided with stiffeners 21, as shown in FIG. 17, or run without them. Metal elements 20 can be attached to the wooden frame using bolts, screws, riveted joints 22. Sheathing - the outer 23 and inner 24 - are fixed to the frame 17 using standard fasteners, for example, self-tapping screws (not marked), etc.

Sheathing is made - outer 23 of waterproof material, such as fiber cement boards, metal or plastic siding, inner 24 of individual materials at the request of the customer.

The space between the skins 23 and 24 is filled with a heat insulating material 25 with a vapor insulating coating 26. As a heat insulating material 25, poroisol, mineral wool, etc. can be used as a vapor insulating coating 26, polyethylene film, alluminated paper, etc.

The cover panels 7 and overlap 8 (see Fig. 21, 22, 23, 24) have a similar design as the fence panels, but additionally contain metal support plates 27 attached at the ends of the lower metal element 20 by welding or self-tapping screws (not marked).

Fence panels 6 can also be made autumn symmetric, have door and / or window openings.

To connect the two panels of the fence 6 with each other (see Fig. 25), each of the panels 6 on one of its sides, opposite the rack 1, is additionally equipped with a beam 28, which is adjacent to the beam 28 of the adjacent panel through a seal 29, which can be used rubber cord or other elastic sealing element. The panels 6 are interconnected by bolts 30.

For fastening two panels of the fence 6 to the corner post 1 (see Fig. 26), a connecting corner 31 is used, which is attached to the panel of the fence 6 with a fastening element — bolt 32 to the panel of the fence 6 — by means of a wooden beam 28 and then fastened to the rack 1 with a fastener - a bolt (not indicated) through the holes of the plug to the rack 1.

Between the wooden beam and the casing of the rack 11 there is a sealing element 29 made of porous rubber, which serves to protect the joint from moisture and outside air.

The attachment site of the guard panel 6 to the ranked post 1 is shown in FIG. 38, 39. The connecting corner 31 by means of a wooden beam 28 is attached to the panel of the fence 6 by a fastening element - a bolt 32, passed through the hole of the Nagel panel of the fence, and then fixed to the rack 1 by a fastening element - a bolt (not marked) through the holes of the rail 12 to the rack 1 .

- 6 007548

Between the wooden beam 28 and the casing of the rack 11 is placed a sealing element 29 made of porous rubber, which serves to protect the joint from moisture and external air.

The racks 1 of the prefabricated frame building are attached to the monolithic belt by means of anchor bolts 33, passed through the holes 14 in the flanges 13 of the racks 1 (see Fig. 27, 28).

To connect the struts 1 of the frame with the flanges 13 to each other, bolts 34 can be used, passed through the holes 14 of the adjacent flanges 13 (see Fig. 29, 30), or other fasteners.

To connect the rack 1 and the floor beams 2 can be used bracket 35 (see Fig. 31, 32, 33). The bracket 35 in the node connecting the floor beam 2 and the rack 1 is a welded structure formed of three vertical plates, of which two - 36 and 37 - are parallel to each other and are located at a distance equal to the width of the beam 2, and are attached perpendicular to the third plate 38 and the fourth support plate 39, attached horizontally from the bottom to the ends of the vertical parallel plates 36 and 37. In the vertical parallel plates 36 and 37 there are holes 40, coaxial with the holes of the pins 12 of the sides of the cross beams ment 2 and the openings 41 in the third vertical plate 38 are coaxial holes 12 pegs rack 1.

In FIG. 34, 35 shows the attachment site of the floor beam 2 to the rack 1 using the bracket 35. The bracket 35 is fixed to the rack 1 by means of bolts 42 passed through the holes of the pins 12 of the rack 1 and the hole 41 in the bracket 35 on its vertical plate 38. The floor beam 2 is supported on the horizontal plate 39 and is fixed by a bolt 32, passed through the hole 40, coaxial hole of the Nagel beam beams 2.

The floor panels 7 and the cover 8 are supported on the floor beam 2 (see FIG. 36, 37) using metal connecting angles 43, which are fixed to the beam 2 using fasteners. The cover panel 7 or floor 8 is supported on the connecting corner 43 using the plate 27 of the floor panel 7 or cover 8, and the panel is fixed using fasteners, such as rivets.

The bracket 44 can also be used in the node connecting the floor beam 2 and the strut 1 and is a welded structure (see Fig. 40, 41, 42), consisting of three vertical plates 45, 46, 47, forming the letter H in the plan and the fourth a support plate 48, attached horizontally and perpendicularly to the lower ends of two parallel plates 45 and 46 to the left or right of the crossbar 47. In the vertical parallel plates 45 and 46 in that part of the bracket 44, which is devoid of the horizontal plate 48, there are holes 49 coaxial with the holes of the nails racks 1 of the frame, and in the vertical parallel plates 45 and 46 of the part of the bracket 44 having the horizontal plate 48, there are holes 50 coaxial with the holes of the pins of the floor beam 2.

In FIG. 43, 44 shows the attachment point of the floor beam 2 to the rack 1 using the bracket 44. The bracket 44 is mounted on the rack 1 by means of bolts 32 passed through the holes of the rack 1 and the hole 49 of the bracket on the vertical plates 45 and 46. The floor beam 2 is supported on a horizontal the plate 48 of the bracket 44 and is secured with bolts 32 passed through the holes 50 of the plates 45 and 46 and the holes of the girders of the floor beam 2.

The bracket 51 at the junction of the ridge beam 5 and the rafter 3 (see Fig. 45, 46, 47) is a welded structure of two polygonal parallel vertical plates 52 and a third support plate 53, located mainly horizontally and attached perpendicular to the upper faces of the vertical plates 52, two vertical plates 54 perpendicularly attached to the third plate 53, spaced apart from each other at a distance equal to the width of the ridge beam 5. In vertical polygonal plates 53 are made 55, coaxial with the holes of the rails 12 of the rafters 3. Polygonal plates 52 have stiffeners 56 perpendicular to these plates 52. The stiffeners 57 are perpendicularly welded to the vertical plates 54, and the plates 54 have holes 58 that are coaxial with the holes of the pins 12 of the ridge beam 5. On the base plate 53 there are holes 59.

The junction of the ridge beam 5 with the rafter 3 using the bracket 51 is shown in FIG. 48, 49, 50. The bracket 51 is fixed to the rafters 3 by means of fasteners - bolts 32 (not shown), passed in the base plate 53, as well as fasteners 32 (not shown), passed through the holes 55 in two polygonal parallel plates 52. The ridge beam 5 rests on the support plate 53, and is placed between two vertical plates 54, and is attached to them by fasteners 32 (not shown), passed through the holes 58 of the plates 54 of the bracket 51.

Used in the case of a small slope of the roof, the bracket 60 of the connection node of the ridge beam 5 and rafters 3 is a welded structure (see Fig. 51, 52, 53), consisting of a plate 61 with holes 62, coaxial with the pins 12 of the rafters 3, and two perpendicular parallel plates 63 located at a distance equal to the thickness of the ridge beam 5, in which the holes 64 are aligned with the holes of the pins 12 of the ridge beam 5.

The junction of the ridge beam 5 and rafters 3 using the bracket 60 is shown in FIG. 54, 55. The plate 61 is fixed to the rafters with fasteners 32, passed through the holes 62, and

- 7 007548 ridge beam 5 is placed between the vertical plates 63 and is attached by bolts 32, passed through the holes 64.

An bracket 65 for the rafter joint 3 and the run 4 is shown in FIG. 56, 57. The bracket 65 is a plate 66 with holes 67, coaxial holes of the pins 12 of the rafter 3, to which an inverted U-shaped table is attached - a metal profile in the form of an inverted letter P, formed from two vertical parallel plates 68 and one horizontal plate 69 In the vertical plates 68 there are holes 70, coaxial with the holes of the pins 12 of the run 4. The vertical parallel plates 68 are spaced one from the other by a distance equal to the width of the run.

The bracket 65 plate 66 is attached by fasteners (not indicated) through the holes 67 to the rafter 3 (see Fig. 58). Run 4 rests on a horizontal plate 69 and is mounted on vertical parallel plates 68 with bolts 32 passed through holes 70 of the plates 68.

The bracket 71 in the connection node of the rafter 3, the floor beams 2 and the cover panel 7 is (see Fig. 59) a flat plate 72 with holes 73, the coaxial holes of the nails 12 of the rafters 3 and the floor beams 2, to which the stiffener 74 is perpendicularly attached which is a support element for the floor panel 7 (not shown).

The bracket 75 (see Fig. 60, 61) is used if the upper faces of the cover panels 7 or floors 8 are located above the upper faces of the rafters 3 or beams 2, and in this case is a plate 76 with holes 77 through which the ends are passed threaded rods 78 tightened by nut 79, the rods being located on the sides of the beam and passed through holes in the abutment angles 43.

The bracket 80 (see Fig. 62, 63) is a welded structure consisting of two polygonal parallel plates 81 located at a distance equal to the thickness of the rack 1 with holes 82, coaxial holes of the nails 12 of the rack 1. A horizontal plate 83 is welded between the plates 81 and an inclined plate 84, which is a support for the inclined rack 1 or rafters 3, and the plates 83 and 84 form an acute angle between themselves and a stiffener 85 is vertically welded between them.

The bracket 80 (see Fig. 64) is bolted 32 to the vertical post 1. The inclined post 1 or rafter 3 is supported by the support plate 84 of the bracket 80 and secured by bolts 32 passing through the holes 82, aligned with the holes of the pins of the inclined post 1 or rafters 3.

To ensure the rigidity of the floor or cover disk, each of the floor panels 8 or cover 7 is additionally equipped at the bottom of the joint with a wooden beam 28 (see FIG. 65) attached to the outer longitudinal board 18 of the cover panels 7 or floor 8 with fastening elements, for example self-tapping screws (not shown). The beam 28 is adjacent to the beam 28 of the adjacent panel through the sealing element 29, which can be used as a rubber cord or other elastic sealing element. The space above the sealing element is filled with a sealing compound 86, for example cement mortar, which has the ability to expand upon hardening, with a heat-insulating material 25, for example poroizol, and is covered by a board 87 from above.

To erect a building using the proposed house kit, the following is carried out. Attach racks 1 to the monolithic belt by means of anchor bolts 33, passing them through the holes 14 in the flanges 13 of the racks. On racks 1, brackets 35 or 44 are fixed using bolts 42 or 32, respectively. Floor beams 2 are supported on horizontal plates of brackets 35 or 44 and secured with bolts 32. Floor panels 7 or coatings 8 are supported on beams 2 by means of metal connecting angles 43 with the plates 27 of the overlap panel 7 or the cover 8 and are fixed with one-sided blind rivets. The racks 1 are connected to each other in height by means of bolts 34, passed through the holes 14 of the adjacent flanges 13 of the racks 1. The inclined rack 1 or rafter 3 can also be connected to the vertical rack 1 through the bracket 80. To connect the ridge beam 5 and the rafter 3, use the bracket 51 , which is fixed to the rafters 3 by means of bolts 32 through the holes of the bracket 51. The ridge beam 5 is supported by the support plate 53 of the bracket 51 and is attached by bolts 32 to its vertical plates 54.

In the case of a small slope of the roof, a bracket 60 is used to connect the ridge beam 54 and the rafter 3. The plate 61 of the bracket 60 is fixed to the rafters 3 with fasteners 32, and the ridge beam 5 is bolted 32 to the vertical plates 63 of the bracket 60.

To connect the rafters 3 and run 4, an arm 65 is used, which is fixed with its plate 66 with fasteners to the rafter 3. Run 4 rests on the horizontal plate 69 of the bracket 65 and is fixed to the vertical plates 68 of the bracket 65 with bolts 32.

Rafter 3, floor beam 2 and the cover panel are connected using brackets 71. The bracket 71 is fixed with fasteners with its vertical plate 72 to the rafter 3 and floor beam 2, and its stiffener 74 serves to support the cover panel.

If the upper faces of the floor panels 7 or coatings 8 are higher than the upper edges of the rafters 3, use the bracket 75 in the form of a plate 76 with holes 77 through which the rods 78, covering the beam 2 or rafters 3 from the sides with a threaded thread, are tightened with a nut 79, rods 78 are passed through holes in the reference corners 43.

Claims (3)

CLAIM 1. Domokomplekt frame-panel building, including reinforced wooden parts of the frame in the form of racks, beams, rafters, girders, ridge beam, fencing panels and floor panels with reinforcing element, connecting metal elements and sealing elements, characterized in that the reinforced wooden racks are made in the form of a bar containing inside a metal core protected by an anticorrosive coating in the form of a tube of rectangular section, lined around the perimeter with an antiseptic and fire retardant treated new plates connected to the metal core by metal dowels with holes for connecting elements, while the boundaries of the connection between the metal and the tree are filled with a material having adhesiveness and high fire resistance, protecting the metal from corrosion and filling voids and irregularities, reinforced wooden beams, rafters, the girders are made with a metal core in the form of an I-beam treated with an anticorrosive coating, made of a composite of two T-section profiles or tauri composed of two corners, with a sheet of smaller cross section welded between them than the wall of the brand, and the ratio of the thickness of the flange of the brand, the wall of the brand and the welded sheet is 10: 12-6-3, while the core is lined around the perimeter with antiseptic-treated and fire retardant wooden plates, connected to the metal core by metal pins with holes for connecting elements, while the boundaries and connections between the metal and the tree are filled with material having adhesiveness and increased fire resistance Capacity to protect metal from corrosion and fill voids and irregularities, fencing panels, floor panels and coatings are made in the form of wooden frame formed between longwalls and heat insulating material with steam insulation, formed from longitudinal and transverse boards, treated with antiseptic and fire retardant materials and joined together using two metal elements of a P-, or G-, or T-shaped section, repeating the configuration of the framework, covering the framework boards from both sides and attaching mechanically, the coating and floor panels additionally contain supporting metal plates attached to the ends of the lower or upper metal element of a P-, or G-, or T-shaped section, and the connecting metal elements are made in the form of brackets containing holes coaxial to the holes bolts of the connected elements of the frame parts for the passage of fasteners, while the bracket in the node connecting the floor beam and the rack is a welded structure consisting of three verts plates, forming in terms of the letter H, and a fourth support plate attached horizontally and perpendicular to the lower ends of two parallel vertical plates to the left or right of the crossbar, and in the vertical parallel plates of the bracket that does not have a horizontal plate, there are holes coaxial to the holes of the dowels stand of the frame, and in the vertical parallel plates of the part of the bracket having a horizontal plate, there are holes coaxially with the holes of the floor beams, or welded to The instruction, formed of three vertical plates, of which two are parallel to each other and spaced from each other at a distance equal to the width of the beam, and attached perpendicular to the third plate, and a fourth support plate, horizontally attached to the ends of the vertical parallel plates, while the vertical the parallel plates have holes coaxial with the holes of the pins of the sides of the floor beams, and the holes in the third vertical plate are coaxial with the holes of the pins of the stand; the bracket in the assembly is connected A ridge beam and rafter is a welded structure consisting of two polygonal parallel vertical plates and a third plate, which is predominantly horizontal and attached perpendicularly to the upper edges of the vertical plates, while two parallel vertical plates spaced apart from each other to the third plate, equal to the width of the ridge beam, and the polygonal vertical plates are made with holes coaxial with the holes of the rafters, and the ribs perpendicular to these plates are strong, and the holes on the vertical plates for fastening the ridge bar are coaxial with the holes of the ridge bar, and these vertical plates are reinforced with stiffening ribs, and in the horizontal plate there are holes for fasteners or a welded structure consisting of a plate with holes coaxially dowels rafters, and two parallel plates perpendicular to it, spaced from each other at a distance equal to the thickness of the ridge bar, the holes in which are coaxially drilled tiyam nagel skate beam, the bracket in the node connecting the rafter and the girder is made in the form of a plate with holes coaxial with the holes of the rafters attached to the surface of which is an inverted P-shaped little table, in the walls of which there are holes coaxial with the holes of the girder of the girder, the bracket at the connection of the rafter and the beam the overlapping and the overlapping or coating panels are made in the form of a flat plate with holes coaxial with the holes of the dowel of the frame components to be connected, to which a stiffener is perpendicularly attached STI, which is simultaneously an element bearing for the ceiling panels, the bracket assembly compound rafters or ceiling joists and ceiling panels (coating), the upper faces of which are located above the upper face of the rafter, is formed as a plate with holes for screw connection, through which pass the ends of the rods - 9 007548 threaded thread, tightened with a nut, with the rods covering the beam from the sides and welded to the support corners attached to the lower part of the truss beam, the bracket in the junction of the vertical and inclined stand or rafter is a welded structure consisting of two polygonal parallel plates that are at a distance from each other equal to the thickness of the rack, to which the horizontal and inclined plates are attached perpendicularly, forming an acute angle between them, interconnected by a perpendicular with a stiffener, parallel to them and parallel polygonal plates, the holes in the upper parts of the polygonal plates are coaxial with the holes of the inclined racks or rafters, and the holes in the lower parts of the polygonal plates are aligned with the holes of the vertical rods, and fastening elements through the hole are attached to the covering beam or rafter hemmed beams or rafters, supporting corner. 2. Domokomplekt according to claim 1, characterized in that in the panels of overlap, coating and fencing the border of the connection between metal and wood are filled with material having adhesiveness and high fire resistance, protecting the metal from corrosion and filling voids and irregularities, and metal elements P -, or G-, or T-shaped section at the intersection of the frame boards are equipped with stiffening elements. 3. Domokomplekt on PP.1, 2, characterized in that the racks or rafters are additionally provided at the ends with metal flanges.