RU2006117847A - LIGHT PULSE LIGHTING AND METHOD OF LIGHT PULSE LIGHTING OF PLANTS - Google Patents

Claims (21)

1. A light-pulse illuminator of plants, comprising a surface with plants, a voltage converter, a control unit, a housing with light sources and a pulse generator of light, characterized in that the LEDs with a different emission spectrum are used as light sources, the input of the control unit is connected to a pulse frequency regulator, the regulator of dark pauses, the regulator of the emission spectrum and the regulator of the amplitude of the light pulses, and the pulse shaper is made in the form of a switch installed in the power circuit of the light diodes between the common negative output and the control unit. 2. The light-pulse illuminator according to claim 1, characterized in that the LEDs with a different emission spectrum are distributed into groups, and each group is connected to the control unit through a current regulator. 3. A light-pulse illuminator of plants containing a surface with plants, an electric power source, a voltage converter, a control unit, a housing with light sources and a pulse generator of light, characterized in that the housing with light sources is made in the form of a strip located along the surface with plants, light sources made on LEDs with a different spectrum of radiation distributed along the strip, the plane passing through the central axis of the light fluxes of the LEDs is parallel to the surface, formed All pulses are made in the form of a regular prism, the faces of which are flat reflectors covered with a reflective layer, the prism shaft located on the axis of symmetry of the prism is equipped with an electric motor, the axis of the prism is parallel to the surface with plants and is shifted in the direction opposite to that surface so that the plane passing through the central axis of the light fluxes of the LEDs, falls on the edges of the prism located closer to the surface with plants, and is shifted relative to the axis of symmetry of this surface in such a way that, when of the existing face located in the light field of the LEDs, at an angle of 45 ° to the plane passing through the central axis of the light fluxes of the LEDs, this plane divides the corresponding face in half, and the reflected light flux falls on the axis of symmetry of the surface with the plants. 4. The light-pulse illuminator according to claim 3, characterized in that the control unit comprises a motor speed controller, an LED switch, a prism shaft position sensor, a counter electrically connected to the shaft position sensor, counting the number of intersecting central axes of the light fluxes, faces, a spectrum regulator radiation and the regulator of the amplitude of the pulses of the light flux. 5. The light-pulse illuminator according to claim 3, characterized in that the pulse shaper comprises a switch mounted in the power supply circuit of the LEDs between the common negative output and the control unit. 6. The light-pulse illuminator according to claim 3, characterized in that the LEDs with a different emission spectrum are distributed into groups and each group is connected to the control unit through a current regulator. 7. A light-pulse illuminator of plants, comprising a surface with plants, an electric power source, a voltage converter, a control unit, a housing with light sources and a pulse generator of light, characterized in that the surface with plants is an internal cavity of a cylindrical pipe, the housing with light sources is made of several strips located at an equal distance, with a certain step, along forming surfaces with plants, light sources are made on LEDs, the central axes of light along shackles svstodiodov directed toward the cylindrical axis of the tube and perpendicular thereto, the pulse generator is designed as a regular prism installed in the center of the cylindrical tube, the shaft prisms disposed on its axis of symmetry, provided with a motor, the faces - flat reflectors coated prism reflective layer. 8. The light-pulse plant illuminator according to claim 7, characterized in that the control unit comprises a motor speed controller, an LED switch, a prism shaft position sensor, a counter electrically connected to the shaft position sensor, counting the number of faces that crossed the light strip, a radiation spectrum regulator, and regulator of the amplitude of the pulses of the light flux. 9. The light-pulse plant illuminator according to claim 7, characterized in that the pulse shaper comprises a switch mounted in the power supply circuit of the LEDs between the common negative output and the control unit. 10. The light-pulse illuminator according to claim 7, characterized in that the LEDs with a different emission spectrum are distributed into groups and each group is connected to the control unit through a current regulator. 11. A light-pulse illuminator of plants containing a surface with plants, an electric power source, a voltage converter, a control unit, a housing with light sources and a pulse shaper, characterized in that the surface with plants is an internal cavity of a cylindrical tube, the pulse shaper is made in the form of a regular prism installed in the center of the cylinder, the prism shaft located on the axis of its symmetry is equipped with an electric motor and a ring current collector, a housing with light sources um of strips disposed on the prism facets, the light sources provided on light-emitting diodes, the central axes of the light fluxes of LEDs directed towards the surface with plants and are perpendicular thereto. 12. The LED plant illuminator according to claim 11, characterized in that the control unit comprises a motor speed controller, a pulse frequency controller, an LED switch, a prism shaft position sensor, a counter electrically connected to the shaft position sensor, counting the number of faces multiplied by one prism revolution, radiation spectrum regulator, and light pulse amplitude regulator. 13. The LED plant illuminator according to claim 11, characterized in that the pulse shaper comprises a switch mounted in the power supply circuit of the LEDs between the common negative output and the control unit. 14. The light-pulse illuminator according to claim 11, characterized in that the LEDs with a different emission spectrum are distributed into groups and each group is connected to the control unit through a current regulator. 15. The method of light-pulse illumination of plants, which consists in sequential light-pulse exposure to plants, characterized in that the light-pulse exposure is produced by scanning the light flux from installed in a row of LEDs with a different emission spectrum by sequentially illuminating surface areas with plants. 16. The method of light-pulsed illumination of plants according to clause 15, characterized in that the scanning is performed by reflection of the light flux of the LEDs by rotating flat reflectors located on a common shaft, the axis of which is installed parallel to the surface with the plants. 17. The method of light-pulse lighting according to claim 15, characterized in that the reflectors are mounted on the edges of the regular prism, the axis of the prism is mounted parallel to the plane passing through the central axes of the light fluxes of the LEDs, and offset to the side opposite to the surface with the plants so that the plane passing through the central axes of the light fluxes of the LEDs, it falls on the faces of the polyhedron, located closer to the surface with plants, and is shifted with respect to the axis of symmetry of this surface in such a way that when and the corresponding face located in the light field of the LEDs at an angle of 45 ° to the plane passing through the central axis of the light fluxes of the LEDs, this plane divides the corresponding face in half, and the reflected light flux enters the central part of the surface with plants. 18. The method of light-pulse lighting according to clause 15, characterized in that the surface with plants is made in the form of an internal cavity of a cylindrical pipe, the housing with light sources is made of several strips, placed at an equal distance, with a certain step, along the surface forming with the plants, the central axes of the light fluxes of the LEDs are directed towards the axis of the cylindrical pipe, and the reflectors are mounted on the faces of the prism and position the prism on the axis of the inner cavity of the cylindrical pipe. 19. The method according to any one of paragraphs.15 and 16, characterized in that the spectral composition of the radiation is periodically changed. 20. The method according to any one of paragraphs.15 and 16, characterized in that the LEDs periodically turn off in synchronization with the position of the shaft with reflectors. 21. The method of light-pulse lighting according to claim 15, characterized in that the surface with the plants is in the form of an internal cavity of a cylindrical tube, the light sources are placed along the faces of the regular prism, the central axes of the light fluxes of the LEDs are directed toward the inner surface of the cylindrical tube, and the prism is placed on the axis inner cavity of a cylindrical pipe.