GR1009855B - Photodiode-technology lighting body for indoor-cultivation plants - Google Patents

Abstract

The invention relates to the construction of a photodiode-technology lighting body suitable for the lighting of large-scale cultivations of indoor plants and vegetables. The invented lighting body has the ability to change the power supply provided according to the needs of each stage of plant development, either through individual operation or in groups via wireless or wired control network. There is also the possibility of changing the spectrum of the emitted radiation depending on the type of the growing plant, thus reducing the cultivation time and increasing the acreage yield. The possibility of placing a different optical medium allows the selection of the desired form of light beam for optimizing the luminous coverage of the occasionally illuminated space and avoiding shadows - superimpositions.

Description

P E R I G R A F H

PHOTODIODE TECHNOLOGY LUMINAIRE

INDOOR CULTIVATION OF PLANTS

The present invention concerns a lamp with multiple photodiodes integrated directly into the cooling surface which also constitutes the carrier of the power supply. The lamp is specially designed to meet the photosynthesis needs of any indoor plant with appropriate adjustment of its power and selection of the frequency spectrum of its emitted light radiation for each phase of the plant's growth, while at the same time the critical dissipation of the heat caused. from the photodiodes, is abducted. efficiently by the specially shaped heatsink-body of the lamp with which it forms a single whole. It is also possible to adjust the geometry of the emitted light beam with the scope's design capability for retrofitting interchangeable optics. Each lighting unit is directly controlled locally, while the possibility to adjust the power in groups is provided via a wireless or wired local area network (Wi-Fi-Ethernet-wireless).

The current indoor cultivation lamps, which represent the State of the Art, consist of arrays of halogen, fluorescent or photodiode lamps, which provide constant and specific frequency lighting as the case may be, while they have active cooling by means of fans.

The present invention modifies the above practice of manufacturing lighting fixtures for indoor cultivation and innovates by creating a lighting fixture made of solid primary aluminum, with effective passive cooling without the need for fans and the ability to adjust the frequency of emitted radiation and the geometry of the light beam according to the requirements of each phase of growth plant.

The features of the invention are defined in your claims.

The invention will now be explained with reference to the drawings. The photodiodes (1) are located directly on the cooling surface carrier. The thermal contact of each photodiode with the cooling surface is improved by using a special thermally conductive gel.

The photodiodes are equipped with optical lenses suitable to give the produced light beam the desired shape, symmetrical or asymmetrical.

The drawing shows the special cooling surface-carrier (2) (hereafter "f.e.f.") which will be made of a metal alloy with the highest possible coefficient of thermal conductivity (> 200 Wm<-1>K<-1> ) which automatically limits the list of available materials to primary, high quality machinable non-ferrous alloys (machinable, anodized aluminum alloy ranges).

The drawing also shows the special base (3) on which the special box (4) that receives the DC power supply cable and protects the relevant branches is located.

The drawing also shows:

a. The power lines of the photodiodes (5)

b. The special plate with the power supplies (6) and the power and manual power adjustment switches (7)

c. The suspension rings (8)

The full design can be seen in the relevant section of the proposal.

Claims (2)

1. Lighting body for indoor plant cultivation made of primary aluminum photodiode technology with a single cooling surface-carrier, specially designed for optimal heat dissipation, high degree of protection against water and dust ingress. The new lamp is characterized by the fact that it provides the possibility of changing its power according to the requirements of each phase of the plant's development (sprouting - growth - flowering - fruiting) either through direct manipulation (7) of each unit individually or in groups with a command that receives via the internet or local wired network, or via modems on the mains frequency. 2. Lighting body according to claim 1, characterized by the possibility of changing the shape of the light beam by applying different lenses of symmetrical or asymmetrical geometry (1).