Reliable mounting systems for solar stations.

Great choice of engineering solutions.

Our mounting systems are designed for easy installation of solar panels on any roof. ✅Thanks to the Kripter®🌞 systems, you can mount a solar station on the roof of your building, make a car cover with solar panels, place the station on a fence or just on a free ground .

Ballast mounting systems are specially designed for roofing solar panels which need to be placed on a flat roof of a house, a production or a warehouse complex. Kripter systems - do not damage the waterproofing rug, due to the lack of need for anchoring or depressurizing the roof.

Universal systems for fastening photopanels, allow mounting of solar panels on roofs of buildings or other structures that have sloping roofs, or the roof at an angle. Kripter Universal - A set of designs that directly package allows you to mold and mount your own solar station.

Ground solar stations are built on free areas of land, concrete, crushed stone or sand. When it is impossible to mount the station on the roof of the building or there is no reliable foundation. Kripter Grounder - Deliver ready-made kits that are tailored individually to the customer.

Special, water protection systems are able to remove rain precipitation, so it is advisable to make a canopy, under which you can place a car or arrange a warehouse.

Facade solar stations - as a solution, it only gets its heyday. Very convenient way to mount sunshine, where it is possible to fasten photo panels to brick, concrete and other roofs, at an angle or in parallel.

Alternative energy has a growing demand among the population and it is possible to take advantage of all of it already now. To attract high technology and independence from public electricity networks, you need to buy a solar power plant.
By installing a solar power plant, you can forget about electricity bills. The choice of station depends on the amount of energy you need.

Solar power stations are divided into autonomous and network.

The principle of autonomous solar power: sun rays, falling on photocells, generate energy, releasing a bunch of electrons, which, under the influence of emerging electric fields, are converted into electric current . The controllers charge a special battery pack, and the inverter already transmits a constant voltage to a variable known to us (220).

There are no rechargeable batteries in the network solar stations, the generated current goes through the inverter into the network. They are cheaper autonomous by 30-40%, but may not be the only source of electricity. Such models are popular in countries where state-owned companies purchase surplus energy.
The effectiveness of SES depends directly on the type of photocells that are mounted on the roof. They can be made of monocrystalline, polycrystalline and amorphous silicon, each of them differs by the coefficient of efficiency, that is, with respect to the solar energy entering the photocell, to the energy that enters the consumer. The most productive are photocells made of monocrystalline silicon.
The most productive are photocells from monocrystalline silicon.

The most productive are photocells made of monocrystalline silicon.

The first step is to replace all conventional incandescent bulbs. on a fluorescent or LED. They consume several times less electricity than the "Ilyich bulb", thus reducing the overall load.
Secondly, try to use powerful devices in the daytime for a lower battery load.
Thirdly, to optimize the load without simultaneously requiring high power devices such as a kettle, a washing machine and a dishwasher.