UA107654U - PERSONAL SOLAR POWER PLANT INSTALLED - Google Patents

Abstract

Built-in personal solar power station is capable of converting solar energy to electrical power and includes a tiltable window tint-solar battery or window tint-solar battery and a window-visor solar battery.

Description

The utility model belongs to the field of construction and renewable energy, namely solar energy, and is designed to use solar radiation to convert solar energy into electricity, in which the solar cell elements are part of the building structure, and which is made using improved with new structural and functional features typical structural elements: ebbs installed in the lower part of the window and in some cases, if necessary, visors installed above the window. A useful model can be used for autonomous power supply and partial satisfaction of the needs of individual houses and apartments.

From the state of the art, solar power plants are known, in which rechargeable solar panels are installed on the roof of the cottage (Found on the Internet on 05/19/2015, pyr//kopiaKiog.sot.tsa/epegdu-zamipd/voiagrougeg/) Autonomous solar power plants are also known, photo modules of which are installed on the roof of the house or on separate ground supports near the house. (Found on the Internet on 05/19/2015, pEruLlymly. aitovieta.tsa/ryzoiag/vhetu-ogdapigasii-5e5/).

The disadvantages of known systems are the complexity of installation and assembly, the bulkiness of power plants, the need to use useful space for placing elements of power plants, and thus cluttering the space that can be used for other purposes, for example, for arranging a household, landscape or other.

From the state of the art, a skylight is known (patent of Ukraine for utility model Mo 58325, ЕОбВ 7/00, publ. 11.04.2011, Bull. Mo 7), which contains a window frame, in the interframe space of which a double-glazed window is installed, the glasses of which form the outer and inner cameras, the window frame is made with voids. The light window additionally contains solar elements, which are installed in the outer chamber on the second glass of the double-glazed unit with the active side in the direction of the passage of natural light, on the first glass of the double-glazed unit along the perimeter, opposite the solar elements, lenses are installed, in the inner chamber of the double-glazed unit along the perimeter of the profile, which fastens the glass between itself, light elements are installed, connected to a battery, a light level sensor, a current stabilizer, installed in the voids of the window frame, and also connected to solar elements and light elements installed in the double-glazed window, the second glass contains a substance capable of reflecting light in the direction of the room.

The disadvantages of the known technical solution are the complexity of the structure, its installation and assembly

Zo and high cost. At the same time, solar elements block the window opening, which is intended directly for the penetration of light into the building, and cover it, limiting the penetration of light and reducing the light permeability of the window, that is, worsening its main consumer property.

At the same time, the solar cells are installed vertically, the disadvantage of this orientation is the loss of current (about 3095), which reduces the efficiency of using solar radiation, and, accordingly, the efficiency of the technical solution. Solar panels work most efficiently when they are facing the sun and their surface is perpendicular or close to perpendicular to the sun's rays.

The solar panel of the window block was selected as the closest analogue (patent of Ukraine Mo 97086,

ЕОбВ 7/00, Е24у 2/00, publ. 25.02.2015, Bull. Mo 4), containing a window frame, in the interframe space of which a double-glazed window is installed, and the frame itself is fixed in the window opening of the wall of the house with the decoration of the outer part of the wall around the window. On the side slopes of the window block, as well as on the end surface of the wall of the house, side and end solar panels are fixed evenly around the window. Solar panels can be made with different patterns on the outer surface of the panel, as well as with different color shades.

Among the shortcomings of the known decision should be attributed the following.

Installation of structural elements of the solar panel of the window block is impossible by replacing or installing typical elements of building structures, because its elements are additional decoration of the window block, that is, additional elements need to be installed in addition to the standard set for installing or replacing the window and structural typical elements of their framing, which requires additional installation facade, high-rise works, and leads, accordingly, to an increase in the cost of the structure and installation work for its installation. Such installation is highly labor-intensive and requires spending a significant amount of time.

On many existing facades, it is not possible to install solar panels of the closest analogue, because the installation will be hindered by the existing decorative or insulating structures of the facade, which narrows the field of application of the known technical solution.

When installing well-known solar panels, the appearance of the facade changes noticeably, because that may not be acceptable from the point of view of urban architecture.

The well-known design causes the use of a large number of cables and their introduction into the house is difficult, which also causes the high cost of the design and installation.

Also, part of the solar panels is installed vertically, the other part - at an angle to the vertical plane of the building structure, which does not allow more complete use of the solar radiation intensity diagram, which reduces the efficiency of using solar radiation, and, accordingly, the efficiency of the technical solution.

The disadvantages of the known technical solution are the complexity of the structure, its installation and assembly, high cost and insufficient efficiency.

The basis of a useful model is the task of creating a built-in personal solar power plant that will ensure high efficiency of solar batteries by ensuring an increase in the efficiency of converting solar energy into electrical energy, simplifying the installation design, ensuring multifunctionality, increasing manufacturability, and reducing cost.

The task is solved by the fact that in the built-in personal solar power plant, which is made with the possibility of converting solar energy into electric energy, according to the useful model, it contains a window ebb-solar battery made with the possibility of installation with an angle of inclination or a window ebb-solar battery and a window visor- solar battery

According to a useful model, the built-in personal solar power plant includes a window ebb-solar battery or a window ebb-solar battery and a window visor-solar battery installed in place of conventional metal ebb or ebb and window visor.

According to a useful model, the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are connected or connected to the electronic unit, respectively.

According to a useful model, the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are connected or connected, respectively, to an electronic unit installed in the space under the window sill.

According to the utility model, window ebb-solar or window ebb-solar

Co) the battery and the solar window visor are connected or connected respectively to the electronic unit, which includes a current converter connected to the battery, at least one 5M socket for connecting O5V cables and a 12M socket made in the standard of the car cigarette lighter for connecting various electrical devices.

According to a useful model, the window solar panel or the window solar panel and the solar window visor is made or can be installed with an averaged angle of inclination between the optimal angle of inclination in the summer season and the angle of inclination in the winter season.

According to a useful model, the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are made or are made with a support part on which the solar battery is fixed, made with the possibility of being fixed when installed on a building structure.

The use of the declared useful model provides multifunctionality - the window ebb-solar battery and the window visor-solar battery replace the standard window ebb and window visor and at the same time serve to convert solar energy into electrical energy. In addition, design simplification, reduction of component parts, compactness, cost reduction, increased reliability, increased efficiency due to the installation of a window ebb-solar battery and, if necessary, a window visor-solar battery with an angle of inclination, ease and simplicity of maintenance, including installation, are provided at home, installation, replacement of components of a built-in personal solar power plant, which in general ensures an increase in the efficiency of a built-in personal solar power plant.

At the same time, an increase in the energy saving of consumed electrical energy from the general energy system, an increase in the autonomy of the energy supply of individual apartments and houses are ensured.

It is possible to replace ordinary window shades and visors with solar batteries.

The functionality of window structures increases when they are replaced or installed.

The owner of an apartment or house receives a personal low-power power plant installed on the territory of the apartment or house that does not require additional maintenance and does not take up additional space. The received energy can be used for the needs of emergency lighting, interior lighting, recharging mobile devices, and powering security and alarm systems. The power of the power plant is from 10 to 100 W at least. The power plant is always in operation, installed stationary, guaranteed access to the generated electricity is always in the same place of home ownership.

The technology of installation of the declared power plant is almost similar to the technology of installation of window structures.

The embedded personal solar power plant is explained in the following images.

Fig. 1 - a schematic view from the facade of the house of the installed built-in personal solar power plant with an ebb-solar battery.

Fig. 2 is a schematic view from the front of a house of an installed built-in personal solar power plant with an ebb-solar battery and a visor-solar battery.

Fi. C is a schematic side view of an installed built-in personal solar power plant with an ebb and flow solar cell.

Fig. 4 is a schematic side view of an installed built-in personal solar power plant with ebb-solar and visor-solar.

Fig. 5 - the electronic unit of the built-in personal solar power plant.

In one of the possible implementations, the built-in personal solar power plant includes a window cast-solar battery 1 and, if necessary, a window visor-solar battery 2, which is installed with an angle of inclination during installation on the object for operation.

In one of the possible versions, the built-in personal solar power plant includes electrically connected window ebb-solar battery 1 and window visor-solar battery 2 installed with an angle of inclination on the elements of the building structure (on the wall of the house or on its elements, window structures), or only window ebb-solar battery 1, or only visor-solar battery 2. In this case, the angle of inclination is the angle between the horizontal surface and the solar battery (solar panel), i.e. window ebb-solar battery 1 or window visor-solar battery 2, installed on the objects for further exploitation.

The angle of inclination may be the average angle of inclination between the optimum angle of inclination in the summer season and the angle of inclination in the winter season. The angle of inclination of the ebb-solar-battery windows, the solar-battery visor can be different depending on the geographical location of the place

From the installation of the declared power plant. Window ebb-solar battery or window ebb-solar battery together with window visor-solar battery can be installed taking into account the geographical latitude of the place of their installation.

Window ebb-solar battery and window visor-solar battery can be made movable with the possibility of changing the angle of inclination, with the possibility of turning right-left, but this implementation will lead to the complication and increase in the cost of the design.

Ebb-solar battery 1 or window ebb-solar battery 1 and window visor-solar battery 2 can be made with a support part. The supporting part can be made in the form of a frame structure, installed and fixed on a building structure with a specified angle of inclination during the installation of the proposed power plant. At the same time, solar batteries (solar panels) are fixed on the support part, or they are fixed on the support part after it is fixed on the building structure.

Window ebb-solar battery 1 or window ebb-solar battery 1 electrically connected (connected by an electric cable 6) to a window visor-solar battery 2, connected by an electric cable 7 to an electronic unit 8 installed in the space under the window sill 9 indoors. If there is not enough space in the space under the window sill 9, the electronic unit 8 can be installed in another convenient place for access and use. In one possible embodiment, which is not the only possible one, the electronic unit 8 includes a DC converter 10 connected to the battery, at least one socket 5M, pos. 11, for connecting SHOV cables and at least one 12M socket, pos. 12, made in the form of a car cigarette lighter for connecting various electrical devices.

The claimed solar power plant can include an electronic control unit, which can be installed in the electronic unit or made as a stationary or in the form of a remote control panel.

Use the built-in personal solar power plant as follows.

When installing window systems, 95 out of 100 installations install external window drains and, in 1,095 cases, install solar window visors. With the use of the declared useful model, solar batteries are used instead of ordinary tides and visors. The received electricity is not discharged into the general energy system, but is accumulated/spent within the low-voltage network of the household for the needs of the household - providing power for interior lighting, recharging mobile devices, powering security systems, sensors, etc.

The technical solution provides both the installation of the ebb-solar battery 1 and the visor-solar battery 2 together, and the installation of only the ebb-solar battery 1, in some cases - only the visor-solar battery 2. In the case of the installation of the ebb-solar battery 1 and the visor- solar battery 2 together, in one of the possible versions they are connected by an external electric cable b from the outside of the room, which is fixed on the wall 5 of the window opening. Inside the room, one electric cable 7 is wound from the ebb-solar battery 1 between the window frame 3, in the interframe space of which a double-glazed window 4 is installed, and the wall 5 of the window opening. The cable 7 is connected to the electronic unit 8 through a detachable connection. In this way, the power plant is built into the house, excluding the use of a large area indoors and additional area outside.

The electronic unit 8 contains at least a converter 10, which converts the direct current received from the ebb-solar battery 1 and/or the visor-solar battery 2.

With the converted current, the converter 10 recharges the storage battery (accumulator) 13.

The electronic unit 8 has at least one internal battery 13, and can also be equipped with an additional battery installed next to the electronic unit at the request of the consumer.

Direct current electrical energy is distributed to consumers through standard sockets

ZV 11 and car cigarette lighter socket 12. The maximum power of the electronic unit for consumers is at least 80 W.

The electronic unit may contain work status indicators.

The installation of the electronic unit 8 and the battery 13 is carried out under the window sill 9 inside the room. If it is impossible to install directly under the window sill 9, the electronic unit 8 can be installed next to the window.

A converter with at least one battery, the connectors can be built into the windowsill.

It is possible to install the electronic unit 8 in a safe insulated case, next to the window opening in the case when the window sill 9 is not subject to modernization from interior or other

For reasons.

The external ebb-solar battery 1 or the ebb-solar battery 1 together with the visor-solar battery 2, connected externally by one electric cable 6, transmit the generated electricity through the electric cable 7 laid under the window frame 3 to the converter 10 installed in the window sill 9 or in the housing of the electronic unit 8 installed in the window sill 9, or near the window sill 9 or a window inside the apartment. To accumulate energy, a battery 13 is used, installed in the housing of the electronic unit 8 or near the window sill 9, or a window inside the apartment. Typical sockets are used for energy distribution

ОИ5В and/or low-voltage sockets. The minimum indication of the state of the equipment used is also on the electronic unit 8 or on the converter unit 10.

The claimed solar power plant is autonomous and creates an autonomous low-voltage network. The received electricity is not discharged into the general energy system, but is accumulated/spent within the low-voltage network of the household or apartment for various needs: powering lighting, recharging mobile and other similar devices based on the power consumption, powering security systems, sensors and other similar devices, the same and different in purpose , of which there are a large number today and which are constantly used by consumers.

If there are many windows (two or more), it is advisable to equip every 3 of them with a built-in personal solar power plant, which will allow for significant energy savings when using other energy systems together with the declared power plant.

The built-in personal solar power plant claimed is easy to manufacture, and the given information confirms the possibility of its industrial implementation using known materials, common components and standard equipment.

Claims (5)

USEFUL MODEL FORMULA 1. Built-in personal solar power plant, made with the possibility of converting solar energy into electricity, which is distinguished by the fact that it contains a made with the possibility of installation with an angle of inclination of the window ebb-solar battery or the window ebb-solar 60 battery and the window visor-solar battery. 2. Built-in personal solar power plant according to claim 1, which is characterized by the fact that the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are connected or connected, respectively, to the electronic unit. C. Built-in personal solar power plant according to claim 1, characterized in that the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are connected or connected, respectively, to an electronic unit installed in the space under the window sill. 4. Built-in personal solar power plant according to claim 1, characterized in that the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are connected or connected, respectively, to an electronic unit that includes connected to a battery, a converter, at least one 5M socket for connecting O5V cables and a 12M socket for connecting various electrical devices. 5. Built-in personal solar power plant according to claim 1, which is characterized by the fact that the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are made or made with the possibility of installation with an averaged angle of inclination between the optimal angle of inclination in the summer season and the angle of inclination in the winter season. b. The built-in personal solar power plant according to claim 1, which is characterized by the fact that the window ebb-solar battery or the window ebb-solar battery and the window visor-solar battery are made or are made with a support part on which the solar battery is fixed, made with the possibility of fixing when installed on building structure. SHI her... (i I I |i y Kk SCHI Her and TO BONN E NI TO BEZOS E SY NI. RO BEOOMNeve E zo VN z ZHOVIPNNIIIIIINY NN I y B shen chn.