RU61760U1 - ENERGY EFFECTIVE HOUSE - Google Patents

Abstract

The utility model “Energy Efficient House” refers to the energy sector in public buildings built on the basis of old abandoned civil or agricultural facilities and other facilities. Capital costs for construction and installation of an energy-efficient house are reduced by 25-30% due to the full use of all structural elements of the old building without disassembling it, and operating costs are reduced due to the use of renewable energy from the sun and wind - up to 25% in the spring-autumn period and up to 15% in the winter. An autonomous power supply system for an energy-efficient house based on a wind power installation and solar photovoltaic panels allows you to use environmentally friendly energy sources in former abandoned buildings.

Description

The utility model relates to energy in communal buildings, and more specifically to applications in remote settlements that are not provided with centralized power lines

An analogue is known from the prior art — a residential building constructed using complex reconstruction (application for invention No. 97117693, patent publication number 2140509 according to IPC 6), containing the frame of an old house with a superstructure from factory-made blocks and insulation of the external walls.

The prototype of the utility model that is close in the set of essential features is a house containing solar photovoltaic panels (FSM-30.40, BSR-30, BSP-10) and wind power plants (VEU-2, VEU-3 and our VEU-5-4).

The disadvantage of the first analogue is significant costs for the construction of the energy-efficient building itself, including its dismantling.

The disadvantage of the second is also the significant cost of building the building itself and the cost of solar panels and a wind power installation.

The objective and goal laid down in the proposed utility model is to reduce the cost of installing a building and using a complex of renewable energy sources independent of centralized energy supply.

The indicated goal of this utility model is solved and achieved as follows: any old, abandoned structure is reconstructed (Fig. 1), between the existing walls and the fast-built metal siding mounted on the thermal profile 200 mm from the wall, polystyrene foam concrete is poured, which performs both fixing and insulating function; solar photovoltaic panels are installed on the restored building, and a wind power installation is installed and mounted on the adjacent territory.

When implementing the utility model, the following technical results were obtained: reduction of costs for construction and installation works by 25-30%, reduction of operating costs due to the use of renewable energy by 25% from spring to autumn and by 10% -15% in winter .

An energy-efficient house (Fig. 4) is being built on the basis of an already abandoned building: a former poultry house, a barn (Fig. 1), a warehouse, a barracks, an industrial facility, during the reconstruction of which (Fig. 2,3), up to 25-30% of financial costs are saved ; at the same time, a wind power installation with a capacity of up to 4 kW (Fig. 3,6) and photovoltaic panels on the roof of the building and above the windows (Fig. 4) are installed on the territory at the rate of 300 W peak power per room. Produced by

energy is stored in 4 gel batteries with a capacity of 180 Ah and is spent on lighting, radio, the work of the refrigerator, TV, alarm.

An autonomous energy supply system based on a wind generator and solar photovoltaic panels consists of environmentally friendly sources related to renewable energy sources.

Analysis of the known technical solutions allows us to conclude that the claimed utility model is not known from the level of the technology being studied, which indicates its compliance with the criterion of "novelty."

The possibility of using the proposed facility in domestic industry allows us to conclude that it meets the criterion of "industrial applicability".

Claims (1)

An energy-efficient house based on an old building with wall insulation, characterized in that it is equipped with an autonomous power supply system consisting of photovoltaic panels and a wind power installation, and expanded polystyrene concrete, which strengthens and insulates, is poured between the walls and the metal siding.