1. LED phyto-lamp on a solar battery, consisting of a housing, on the upper surface of which a solar battery is placed, and on the lower surface there is a reflector in which LED elements of the blue and red radiation spectrum with wavelengths of 400-500 nm and 600-700 nm are placed, respectively which, in turn, are connected through an electric circuit through a switch to a storage battery and a solar battery, while the connection of the solar battery to the storage battery is made through a diode, and the sleep housing itself It is equipped with a holder, characterized in that the holder is made in the form of a vertical rod, the lower end of which is adapted for sticking into the ground, and its upper end is made hollow, where along the vertical axis there is a battery inside it. 2. A solar-powered LED phyto-lamp according to claim 1, characterized in that a voltage converter is included in the electrical circuit of the device, which allows to increase the voltage when transferring it from the battery to the LED elements. 3. Solar LED phyto-lamp according to paragraphs. 1 and 2, characterized in that a switch or microcontroller is included in the electrical circuit of the device, which allows you to turn on the LED elements of the blue and red emission spectrum both individually and together.Полезная модель относится к световым приборам, а именно к светильникам с определенным спектром излучаемого света, используемым для досветки растений, которым не хватает солнечного света, к так называемым фитосветильникам. Техническим результатом предложенной полезной модели является снижение стоимости устройства и более удобная для установки, позиционирования и эксплуатации устройства конструкция. Технический результат достигается тем, что светодиодный фитосветильник на солнечной батарее имеет держатель, выполненный в виде вертикального стержня, нижний конец которого приспособлен для втыкания в грунт, а его верхний конец выполнен полым, где вдоль его вертикальной оси, внутри