RU80486U1 - ENERGY EFFICIENT AND ENVIRONMENTAL BUILDING - Google Patents

Abstract

The utility model relates to the field of construction, namely, to the construction of building elements, and can be used in the construction of social facilities, housing and industrial purposes. The technical task of the proposed utility model is the creation of an energy-efficient and environmentally friendly building, which uses natural, natural materials and their waste, processed under certain elements of the building, or used in their pure form, reducing the weight of the building and the consumption of natural solid wood. This is possible due to lumber made, for example, from glued, spliced beams, boards; based on a metal frame of light steel thin-walled structures; due to the recycling of waste from the woodworking and pulp industries; due to the partial use of materials made from waste. The stated technical problem is solved in that in the proposed solution, the base panel is fixed directly to the foundation, and the wall panels are connected to the base panel, and the base, wall, floor panels, roof and roof elements are made of unified elements and interconnected by fasteners that are installed in the groove-tongue connection at a predetermined distance from each other, and the ventilation and heating system is combined. 1 N.C., 10 C.P. f-ly, 7 ill ..

Description

The utility model relates to the field of construction, namely, to the construction of building elements, and can be used in the construction of social facilities, housing and industrial purposes.

Known wooden structure from prefabricated panels according to the patent of the Russian Federation No. 2135708, class. ЕВВ 1/10, 1999. It is built of prefabricated panels made of self-locking horizontal or vertical profiled logs or timber and mounted on a foundation, in which the walls and roof are made of panels fastened together using grooves and spikes made on the ends of the panels, and metal rods and screeds, and the panels are equipped with openings for windows, doors and hatches. Walls are fastened directly to the foundation, and floor panels that are not connected with wall panels are mounted on logs installed on special projections of the foundation, and metal profiles are installed in window and door openings and in hatches in the plane of the walls at the vertical ends. On the finished foundation with floor anchors and with special protrusions, floor logs are laid. Between the wall and the floor panels leave a gap, sealed and covered by the baseboard. In the grooves of the grooves located in the log or beam, at the joints of the nodes, a heater-sealant is inserted from a material selected from the group: basalt mineral wool or rubber. To overlap the ceiling, ceiling panels are installed and mounted on load-bearing beams made of timber after the installation of the walls of the first floor.

In this building, solid wood elements were used: profiled logs or timber, which not only complicates the structure, but also leads to a considerable consumption of natural wood. In combination with other materials used, the building does not fully meet the conditions of environmental friendliness and energy efficiency.

Known building on the patent of the Russian Federation No. 2287643, class. ЕВВ 1/10, Е04Н 1/00, 2005, adopted by the applicant for the prototype. It contains external walls, internal walls, floor slabs and roof plates, which consist of wood-based panels containing at least one inner panel and at least one outer panel that are held apart from each other by spacers, interconnected and made in at least one direction entirely solid. The plates are prefabricated with the required dimensions and with the required edge finish. Between indoor and outdoor panels

plates there are cavities that contain connections to a heating device or to a cooling device. The cavities in the external wall plates, internal wall plates, floor slabs and / or roof plates are interconnected, for which, on the one hand, in the interface zone of the floor slab with the external wall in the edge zone of the floor slab there are holes that connect the cavities in the floor slab with cavities in the outer wall, and for which, on the other hand, in the overhang between the outer wall and the roof, holes are provided in one panel of the roof plate to connect the cavities in the outer wall with the cavities in the roof plate.

The main disadvantage of this building is the use of walls, ceilings and roof panels in its construction, consisting of two panels: internal and external, which not only increases the weight and consumption of materials, but also increases the labor costs for their assembly and, as a result, the cost.

The technical task of the proposed utility model is the creation of an energy-efficient and environmentally friendly building, which uses natural, natural materials and their waste, processed under certain elements of the building, or used in their pure form, reducing the weight of the building and the consumption of natural solid wood. This is possible due to lumber made, for example, from glued, spliced beams, boards; based on a metal frame of light steel thin-walled structures; due to the recycling of waste from the woodworking and pulp industries; due to the partial use of materials made from waste.

The stated technical problem is solved in that in the proposed solution, the base panel is fixed directly to the foundation, and the base is frame and multilayer, at least of a facing layer, a sound insulation layer and a heat insulating layer, and the supporting element of the base frame is made in the form of a beam or wooden, or metal, the facing layer of the base is made of either plywood, or wood-particle board, or cement-particle board, or asbestos-cement plate, and the heat-insulating layer is made either from cellulose insulation, or from mineral wool, or from polyurethane foam, or from basalt fiber, and the ventilation and heating system is combined.

In addition, the foundation is made in the form of piles, which are interconnected around the perimeter of the strapping beam.

In addition, the strapping beam is made in the form of a grillage made of metal, or concrete.

In addition, the pile is made of screw from a metal pipe, and the screw element is made of sheet steel, or cast from cast iron.

In addition, the facing layer and the supporting elements of the base frame are interconnected by means of glue and additionally fastened by fasteners, which are placed with a calculated step.

In addition, the beam is made either with an integral connecting wall or with a collapsible one, the integral connecting wall being perforated and a collapsible made of a set of flat elements that are placed with a design pitch and made in the form of flat geometric shapes.

In addition, the heating system is made air in the form of an air conditioner and water in the form of a warm baseboard, fresh air ventilation is located in the floor, and exhaust ventilation is located in the ceiling.

In addition, the warm baseboard is made in the form of a mini-heater, which is equipped with elements of automatic temperature control in the room.

Figure 1 shows a front view of a building with a foundation of screw piles;

figure 2 is a fragment of a wall with a strapping beam along the upper and lower ends of the panel;

figure 3 is a fragment of the middle part of the wall, a top view without a strapping beam;

figure 4 - the angular part of the wall with the end strapping beam;

figure 5 shows the typesetting beam;

figure 6 - connecting the wall of the beam, made of typesetting of flat geometric shapes;

7 is a warm baseboard in the form of a mini-heater.

The inventive building contains a foundation, which is made of screw piles 1 and a tie beam 2, which in turn connects screw piles installed in the ground around the perimeter 1. The tie beam 2 is made in the form of a grillage made of metal or concrete, and screw pile 1 is made of a metal pipe, and the screw element 3 itself is made of sheet steel, or cast iron.

The building also contains a base 4, which is mounted directly on the strapping beam 2. Base 4 is made of frame and multi-layer and consists of

a facing layer 5, a sound-insulating layer and a heat-insulating layer 6, and the supporting element of the base frame 4 is made in the form of a beam 7 or wooden, or metal and connecting element 8 of a full-body or box-shaped hollow section.

The facing layer 5 of the base 4 is made of either plywood, or of a particleboard, or fiberboard, or cement-particle board, or asbestos-cement plate.

The heat-insulating layer 6 is made either of cellulose insulation, or of mineral wool, or of expanded polystyrene, or of basalt fiber.

The facing layer 5 and the supporting elements of the frame - beams 7 are interconnected by means of glue and additionally fastened by fasteners 9, which are placed with a calculated step.

The beam 7 is made either with a solid connecting wall 10, or with a typesetting. The one-piece connecting wall 10 is perforated, and the one-piece is made of a set of flat elements 11, which are placed with a design pitch and made in the form of flat geometric shapes.

The panels of the walls 12 are connected with the panel of the base 4, the panels of the base 4, walls 12, floor 13, the elements of the roof and roof 14 are made of unified elements and are interconnected by fasteners 15, which are installed interconnected in a groove - spike at a given distance apart from each other.

In addition, the building contains a ventilation and heating system, which is made combined. The heating system is made air in the form of an air conditioner 16 and water in the form of a warm skirting 17. Supply air 18 is located in the floor, and exhaust 19 is located in the ceiling 13. The warm skirting 17 is made in the form of a mini-heater-radiator 20 with two tubes 21 for the coolant and closed by a protective casing 22 with circulation holes 23.

An energy-efficient and environmentally friendly building is being constructed as follows.

A foundation is being erected on the selected and marked area, for which screw piles 1 are installed in the indicated places, exposing them at the same level. Then, to create a single foundation, all screw piles 1 are connected to each other by a strapping beam 2, either metal or concrete.

The base 4 is mounted on the erected foundation, collecting it from three layers, while the base panel is fixed directly to the foundation. After that, walls are erected, the panels 12 of which are connected to the base panels 4. Inside the walls, beams 7 are installed, connecting them together by a connecting element 8 and

fasteners 9. The voids between the ordinary beams 7 are filled with insulation 6. And the corner of the wall, where the beam 7 and the wall panels 12 are also located, is connected by an end connecting element 8. To give a certain rigidity to the building, the lower and upper ends of the assembled walls are connected by a strapping beam.

Then mount the ceiling 13, also made of standardized panels, laying them on the assembled walls and connecting with the strapping beam. After that, the elements of the roof and roof are erected 14. The building is assembled. They begin to finish the interior, including installing a ventilation and heating system, which includes a warm baseboard 17. It is installed around the perimeter of the room. The heat emanating from it quickly heats the floor and walls of the room and maintains a constant temperature throughout its height.

Using the proposed technical solution allowed to create an energy-efficient and environmentally friendly building, thanks to the use of natural, natural materials and their waste in it due to lumber made, for example, from glued, spliced bars and boards; due to the recycling of waste from the woodworking and pulp industries; due to the partial use of materials made from waste.

In addition, the technology used in the construction of the proposed building: frame-panel, is an expedient and effective solution that gives significant savings. One of the components of which is the use of a wooden and metal frame based on light steel thin-walled structures. And also the use of the foundation with the use of screw piles: it is economical, allows you to completely abandon earthworks. Work can be carried out at any time of the year, even in winter. Foundations using screw piles can significantly save construction time, significantly reduce costs by 30-50%, and it is much more rational to solve environmental issues.

In addition, the wall design meets the basic requirements of future home owners - warm, economical, reliable and quick-build. High energy-saving characteristics of the house from heat-insulating panels are achieved through the use of modern materials and a warm baseboard. It creates a climate that positively affects human health:

- evenly distributes heat in the room;

- heats the floor and walls;

- saves up to 40% of energy;

- easy to install;

- allows you to quickly change the temperature, including using modern automation.

In general, the proposed frame-panel construction technology has the following advantages:

- high rates of construction;

- the possibility of construction at any time of the year without loss of quality and increase in the cost of work;

- manufacturing of building components with high factory training and accuracy;

- during the construction process, special equipment is not required, since parts of the frame are small and light, the house is assembled by the efforts of a team of 4-5 people;

- the ability to keep the landscape of the area and the vegetation available on the site intact;

- high heat and sound insulation properties of the structure;

- environmental friendliness of the materials used;

- A wide variety of architectural and planning solutions and interior decoration, the ability to use any materials for finishing the facade of the house.

Claims (8)

1. An energy-efficient and environmentally friendly building, in which the base, walls, floor, roof are made of panels bonded to each other and mounted on the foundation, the facing layer of which is made of wood chipboards, having a ventilation and heating system, characterized in that the base panel fixed directly to the foundation, and the base is frame and multi-layer, at least of a facing layer, a sound insulation layer and a heat-insulating layer, and the bearing element of the base frame is made in de beams of either wooden or metal, the facing layer of the base is made of either plywood, or wood-particle board, or cement-particle board, or asbestos-cement plate, and the heat-insulating layer is made either of cellulose insulation, or of mineral wool, or of polystyrene foam, or basalt fiber, and the ventilation and heating system is combined. 2. The building according to claim 1, characterized in that the foundation is made in the form of piles, which are interconnected around the perimeter of the strapping beam. 3. The building according to claim 1, characterized in that the strapping beam is made in the form of a grillage of metal or concrete. 4. The building according to claim 2, characterized in that the pile is made of screw from a metal pipe, and the screw element is made of sheet steel or cast from cast iron. 5. The building according to claim 1, characterized in that the facing layer and the supporting elements of the base frame are interconnected by means of glue and additionally fastened by fasteners that are placed with a calculated step. 6. The building according to claim 1, characterized in that the beam is made either with a solid connecting wall, or with a built-in, moreover, the integral connecting wall is perforated, and a built-in made of a set of flat elements that are placed with a design step and made in the form of flat geometric figures. 7. The building according to claim 1, characterized in that the heating system is made air in the form of an air conditioner and water in the form of a warm baseboard, fresh air ventilation is located in the floor, and exhaust ventilation is located in the ceiling. 8. The building according to claim 7, characterized in that the warm plinth is made in the form of a mini-heater, which is equipped with elements of automatic temperature control in the room.