RU162625U1 - ENERGY-SAVING HOUSE - Google Patents

Abstract

An energy-saving house containing an intermittent foundation made of transverse reinforced concrete blocks, each of which is located in a fixed wooden box, insulated walls and floors made of separate modules formed by wooden insulated rectangular frames 1200 mm wide, a roof and a heating system, characterized in that insulated walls are formed by wooden insulated rectangular frames, which are installed in two rows with the formation of external and internal contours on wooden crossbars and linen wooden beams forming a supporting frame located on a discontinuous foundation, while wooden insulated rectangular frames are installed with vertical gaps between them equal to 80 mm, and wooden insulated rectangular frames of the outer contour from the outside of the house are fastened together by vertical wooden overhead boards to form the last U-shaped pillars with vertical posts of the above adjacent frames, wooden insulated rectangular frames of the inner contour and The vertical gaps between them are lined with gypsum fiber sheets GVLV-10PK from the inside of the house, and inside the above frames along the gypsum sheets are filled with techno-nicol to form a layer 50 mm thick, in which pipes of 3/4 ″ heating radiators are located, on the opposite side are wooden insulated rectangular the internal contour frames are sheathed with isospan and a nylon mesh to form an air gap with a techno-nikol layer, the wooden insulated rectangular external contour frames are sheathed from the outside and zospan and

Description

The utility model relates to ground construction, namely, low-rise buildings with improved thermal insulation.

A well-known house containing a strip foundation, a basement, external insulated walls, ceilings, roofing and utility networks (see patent RU No. 2369707, class Е04Н 1/00, publ. 10.10.2009).

However, the design of this house does not provide the required thermal insulation and, as a result, requires the costs of relatively high costs of thermal energy for heating the house.

Closest to the utility model is an energy-saving house containing a discontinuous foundation made of transverse reinforced concrete blocks, each of which is located in a fixed wooden box, external insulated walls and ceilings made of separate modules formed by wooden insulated rectangular frames 1200 mm wide, a roof and heating system (see patent for utility model RU No. 131039, class Е04Н 1/00, publ. 08/10/2013).

The disadvantages of the famous house are heat loss in the vertical and horizontal dry joints of modular frames, which are cold bridges and, as a result, additional heat energy is required for heating the premises.

The objective of the utility model is to eliminate these drawbacks.

The technical result consists in the possibility of increasing the energy efficiency of thermal insulation by creating an almost continuous layer of thermal insulation from ecowool and protecting the latter from atmospheric precipitation while creating a ventilated gap between the ventilation facade and the wooden insulated rectangular frames of the external contour from the outside of the house, which helps to prevent the accumulation of condensation moisture in thermal insulation from ecowool and the creation of a heating system almost along the entire interior the surface of the walls formed by wooden insulated rectangular frames of the internal contour, which allows to maintain dry thermal insulation and thereby maintain its high thermal insulation properties.

This problem is solved, and the technical result is achieved due to the fact that the energy-saving house contains an intermittent foundation made of transverse reinforced concrete blocks, each of which is located in a fixed wooden box, insulated walls and ceilings made of separate modules formed by wooden insulated rectangular frames with a width 1200 mm, the roof and the heating system, the insulated walls are formed by wooden insulated rectangular frames, which are installed in two rows with the formation of the bunk of internal and external contours to wooden crossbars and longitudinal wooden beams forming a support frame located on a discontinuous foundation, while wooden insulated rectangular frames are installed with vertical gaps between them equal to 80 mm, and wooden insulated rectangular frames of the external contour from the outside of the house are fastened between a vertical wooden overhead boards with the formation of the last U-shaped pillars with vertical posts of the above adjacent frames, wooden insulated rectangular frames of the inner contour and vertical gaps between them on the inside of the house are sheathed with gypsum-fiber sheets GVLV-10PK, and inside the above-mentioned frames along the gypsum-fiber sheets are filled with techno-nikol with the formation of a layer 50 mm thick, in which pipes 3/4 ″ heating radiators on the opposite side, wooden insulated rectangular frames of the inner contour are sheathed with isospan and nylon mesh to form an air gap with a layer of techno-nikol, wooden insulated rectangles The outer frame outer frames are lined with isospan and nylon mesh, the space between the isospan lining and the space inside the U-shaped posts is filled with ecowool, and on the vertical wooden overhead boards the U-shaped posts are fixed with an air gap with isospan and nylon mesh lining ventilation facades, each of which is formed by a contour steel frame with a flat wooden base, facing the side of the isospan and nylon mesh and sheathed glued to it with a hundred one sided foil facing the isospan and nylon mesh sheathing, the inner space of the contour steel frame is filled with high-strength concrete with the formation of the outer surface, the contour metal frame is mounted on vertical wooden overhead boards using a metal flange using fasteners.

The use of ecowool, which forms an almost continuous layer of thermal insulation of the walls and floors of the house and has a heat capacity of 33 W × h / m ² × ° C in combination with the fact that U-shaped posts are fixed on vertical wooden overhead boards with the formation of an air gap with isospan ventilation panels and, in addition, it provides contact heating of the techno-nikol layer through nested pipelines with a diameter of 3/4 ″ from the electric boiler and heating the ecowool from the heated techno-nikol layer, eliminates vapor condensation in the ecowool and at the same time etsya convective heating of the room due to the heated surface GVLV PC-10 gypsum sheets that eventually allow for a dramatic reduction in heat loss.

In FIG. 1 shows a schematically described energy-saving house.

In FIG. Figure 2 shows a top view of the foundation of an energy-efficient home.

In FIG. 3 is a side view of one transverse reinforced concrete block.

In FIG. 4 is a cross-sectional view of one of the transverse reinforced concrete blocks.

In FIG. 5 is a top view of the lower floor of individual modules formed by wooden insulated rectangular frames with a width of 1200 mm and a length equal to the center distance between the transverse reinforced concrete blocks.

In FIG. 6 shows a section through a wall insulated at the location of a U-shaped column.

In FIG. Figure 7 shows the ventilation facades intended for fastening to U-shaped posts.

The energy-saving house contains an intermittent foundation 1 made of transverse reinforced concrete blocks 2, each of which is located in a fixed wooden box 3, insulated walls 4 and upper and lower floors 5 made of separate modules formed by wooden insulated rectangular frames with a width of 1200 mm, roof 6 and heating system.

The insulated walls 4 are formed by wooden insulated rectangular frames 7, which are installed in two rows with the formation of the outer 8 and inner 9 contours on the wooden crossbars 10 and the longitudinal wooden beams 11, which form the supporting frame located on the discontinuous foundation 1.

Wooden insulated rectangular frames 7 are installed with vertical gaps 12 between them equal to 80 mm.

Wooden insulated rectangular frames 7 of the outer contour 8 on the outside of the house are fastened together by vertical wooden overhead boards 13 with the formation of the last U-shaped posts with vertical posts 14 of the above adjacent frames 7.

The wooden insulated rectangular frames 7 of the inner contour 9 and the vertical gaps 12 between them are lined with gypsum-fiber sheets 15 of the GVLV-10PK grade from the inside of the house, and inside the above-mentioned frames 7 along the gypsum-fiber sheets 15 are filled with techno-nicol 16 to form a 50 mm thick layer in which pipes 17 heating radiators with nominal bore 3/4 ″.

On the opposite side, the wooden insulated rectangular frames 7 of the inner contour 9 are sheathed with isospan 18 and a nylon mesh (not shown in the drawing), which is a reinforcing element, with the formation of an air gap 19 with a layer of techno-nickel 16.

The wooden insulated rectangular frames 7 of the outer contour 8 are lined with isospan 20 and a nylon mesh (not shown) from the outside, and the space between the isospan claddings 18 and 20 and the space inside the U-shaped posts is filled with ecowool 21.

The inner space of wooden insulated rectangular frames that form floors 5 is filled with ecowool, and from below, wooden insulated rectangular frames that form floors 5 are hemmed with gypsum-fiber sheets GVLV-10PK.

Pipes 17 of heating radiators with a conditional passage 3/4 ″ are connected to the Koterm-1M heating electric boiler (not shown), and a channel air heater CBM 100-0.6 is installed in the house and supply and exhaust fans, respectively, supply and exhaust ventilation (not shown in the drawings).

On the vertical wooden overhead boards, 13 U-shaped posts are fixed with the formation of an air gap 22 with isospan sheathing 20 and a nylon mesh of the ventfacade plate 23, each of which is formed by a contoured steel frame 24 with a flat wooden base 25 facing the isospan sheathing 20 and nylon mesh and glued onto it from the side facing the isospan shell 20 and nylon mesh with foam foil 26 with one-sided foil, the inner space of the contour steel frame 24 is filled with high-strength concrete 27 with the formation of the outer surface, and the contour metal frame 24 is mounted on vertical wooden overhead boards 13 using a metal flange 28 by means of fasteners 29.

An energy-saving house (Fig. 1) is being built on a discontinuous foundation made of transverse reinforced concrete blocks 2 (Fig. 2) located at a pitch of 3600 m, on which beams 150 × 150 mm are installed for the device of the lower floor 5 and the assembly of crossbars 10 and longitudinal wooden beams 11, forming a support frame, on which wooden insulated rectangular frames are installed in two rows, forming the inner 9 and outer contour 8 of the insulated wall 4. Suspension of the upper floor 5 to the beams that form the roof 6, allows to solve the problem of free floor planing. Engineering networks (heating, ventilation) are solved together with the layout of the premises (not shown in the drawings).

The proposed energy-efficient house refers to buildings assembled by quick dry assembly.

Recesses of 200 × 600 × 3000 mm are made under the building area under transverse shallowly reinforced concrete blocks 2, forming a foundation with horizontal alignment and installing protective fixed wooden boxes 3 with wooden beams 30 with a cross section of 150 × 150 mm along the upper part of the boxes 3 and laying concrete mixture with the formation after solidification of the last reinforced concrete blocks 2. The above-mentioned wooden beams 23 are supported by modules of the lower floor 5, and the lower crossbars 10 and the longitudinal are fastened around the perimeter of the latter e wooden beams 11 under the insulated walls, formed by wooden insulated rectangular frames 7 installed with vertical gaps between the vertical posts 14 and reinforced by vertical patch boards 13, creating U-shaped posts along the outer contour 8, fastened to the upper crossbars on which the transverse roof frames are mounted 6 with a pitch of 1200 mm with a suspended upper modular ceiling 5.

The design of the roof 6 allows using a honeycomb translucent polycarbonate sheets to create a greenhouse.

After the assembly of the floor modules 5, vertical tightening is performed with metal studs for one-story buildings in 2 levels (upper and lower), respectively, with lower crossbars 10 and upper crossbars.

After the building frame is completed, ecowool 21 is injected into the vertical cavities between the isospan layers 18 and 20 and in the ceilings 5, and then the plates 23 are installed with the formation of the veneer facade.

Next, facade work (windows, doors, basement, etc.) is performed on the basis of an architectural design (not shown in the drawings).

To ensure the architectural requirements for the building envelope, it is made of modules with design features (corner, ordinary, with an opening for the door, with an opening for the window).

To protect the ecowool, the outside of the frame 7 is covered with isospan 18 and 20, reinforced with a nylon mesh 2 × 2 mm.

The insulated walls are formed by wooden insulated rectangular frames 7, which provide a pair of racks with transverse overlays, reinforced with a diagonal and connected with the upper and lower lintels, into which insulation sheets - techno-nikol 16 with pipes 18 are laid. Balconies and facade elements are attached to the U-shaped posts .

As a result of the proposed structural and technological solutions, it is possible to obtain the thermal resistance of the insulated walls of 6.8 m ² ° C / W. at the normative value for the second climatic zone 3.16 m ² ° C / W. in accordance with SNiP 23-01-99 (building climatology).

Thus, the proposed utility model as a whole through the use of four-layer insulation using ecowool and the implementation of the veneer façade can significantly improve the thermal insulation properties of the house and increase the productivity of construction.

Claims (1)

An energy-saving house containing an intermittent foundation made of transverse reinforced concrete blocks, each of which is located in a fixed wooden box, insulated walls and floors made of separate modules formed by wooden insulated rectangular frames 1200 mm wide, a roof and a heating system, characterized in that insulated walls are formed by wooden insulated rectangular frames, which are installed in two rows with the formation of external and internal contours on wooden crossbars and linen wooden beams forming a supporting frame located on a discontinuous foundation, while wooden insulated rectangular frames are installed with vertical gaps between them equal to 80 mm, and wooden insulated rectangular frames of the outer contour from the outside of the house are fastened together by vertical wooden overhead boards to form the last U-shaped pillars with vertical posts of the above adjacent frames, wooden insulated rectangular frames of the inner contour and The vertical gaps between them are lined with gypsum fiber sheets GVLV-10PK from the inside of the house, and inside the above frames along the gypsum sheets are filled with techno-nicol to form a layer 50 mm thick, in which pipes of 3/4 ″ heating radiators are located, on the opposite side are wooden insulated rectangular the internal contour frames are sheathed with isospan and a nylon mesh to form an air gap with a techno-nikol layer, the wooden insulated rectangular external contour frames are sheathed from the outside and zospan and kapron mesh, the space between the isoscane lining and the space inside the U-shaped pillars is filled with ecowool, and on the vertical wooden overhead planks the U-shaped pillars are fixed with the formation of an air gap with isospan and nylon mesh lining of the ventilation panel, each of which is formed by a contour steel frame with a flat wooden base facing the side of the isospan and kapron mesh sheathing and glued to it from the side facing the sheath of the isospan and kapron mesh penofol Ohm with one-sided foiling, the inner space of the contour steel frame is filled with concrete with the formation of the outer surface, the contour metal frame is mounted on vertical wooden overhead boards using a metal flange using fasteners.

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