RU206253U1 - FITOTRON ENERGY-SAVING UNIVERSAL MODULAR - Google Patents

Abstract

The utility model relates to equipment for agriculture and biological research, namely, irradiators designed for growing various plant products, greens, vegetables, flowers, as well as seedlings of shrubs and trees. and blue with safe low-voltage power supply 12 ... 24 V, with pins installed on the body for reliable fixation of the phytotron when using the rack system, characterized in that the phytotron is divided by partitions into three independent chambers with doors, each of which has three LED illuminator located on three inner side walls of each of the chambers, while the LED illuminator consists of modules that are made of four types of LEDs with wavelengths - blue 445 nm, red 660 nm, green 520 nm, UV-A 395 nm, each door the camera has glazing with mirror light The upper and lower walls of the phytotron are removable with a reflective film. The technical result is to provide the full required spectrum of radiation for plant development with a uniform distribution of optical radiation throughout the green mass.

Description

The utility model relates to equipment for agriculture and biological research, namely, irradiators designed for growing various plant products, herbs, vegetables, flowers, as well as seedlings of shrubs and trees.

Known phytotron containing a working chamber with ventilation holes located in the lower and upper parts, a temperature sensor placed in the working chamber, racks made with ventilation slots and windows for placing containers with plants, a backlight installed above the containers, including panels with LEDs, and a backlight control system , moreover, the LEDs are placed in groups of LEDs with different spectral ranges, for example 400 ... 500, 500 ... 600, and 600 ... 700 nm, while it is equipped with an air-cooling unit with a switch-off unit, the panels are made of heat-conducting material and are made with ventilation channels and holes, and the temperature sensor is located at the location of containers with plants and is connected to the control system of the air cooling unit (RF patent No. 2557572, publ. 01/27/2015, bull. No. 3).

The prototype is a universal energy-saving phytotron (PMT) (RF patent No. 150658, publ. 02/20/2015, bull. No. 5), characterized by the fact that LED lamps are used, consisting of red LEDs - a wavelength of 660 nm and blue - a wavelength of 450 nm color in a ratio of 3: 1 and a luminous flux scattering angle of 120 °, with a safe low-current power supply 12 ... 24 V, 0.38 ... 0.5 A, and mounted on holders installed from above in two rows with the possibility of transferring one of the lamps to the uncovered side, and the closed rear wall and base are covered with a reflective material, while pins are installed on the posts at the top of the frame for reliable fixation of the phytotron when using a multi-tiered rack system.

The disadvantages of known devices include:

- lack of UV-A radiation, which is necessary for plants;

- the location of the lamps above the plants, which excludes the uniform distribution of optical radiation throughout the green mass.

The technical result is to provide the full required spectrum of radiation for plant development with a uniform distribution of optical radiation throughout the green mass.

The technical result is achieved by an energy-saving universal modular phytotron containing LED irradiators consisting of red and blue LEDs with a safe low-voltage power supply 12 ... 24 V, with pins installed on the body for reliable fixation of the phytotron when using a rack system, while the phytotron is divided by partitions into three independent from each other chambers with doors, each of which has three LED feeds located on the three inner side walls of each of the chambers, while the LED feed consists of modules that are made of four types of LEDs with wavelengths - blue 445 nm, red 660 nm, green 520 nm, UV-A 395 nm, the door of each chamber has a glazing with a mirror reflective film, the upper and lower walls of the phytotron are removable.

The utility model is illustrated by a drawing. The figure shows a frontal view of a phytotron with a section.

The energy-saving universal modular phytotron has a housing 1, the internal volume of which is divided by partitions 2 into three independent chambers 3. Each chamber is equipped with doors 4 with glazing with a reflective film 5. Inside each chamber, on three inner side walls, there are LED feed modules 6, each of which is made of four types of 7 LEDs - red, green, blue and UV-A. On the doors of the chambers, control units for LED irradiation are fixed 8. The phytotron is made of heat-conducting material and has ventilation holes with installed fans 9. Inside the chambers there are containers 10 with plants. The upper 11 and lower 12 walls of the phytotron are removable to increase the height of the chambers when growing seedlings of woody plants or when using a rack system, by installing one phytotron on another. In this case, for reliable fixation of the phytotron, pins 13 are installed on the upper part of the housing, and there are centering holes 14 in the lower part.

The device works as follows.

Containers with plants 10 are placed in the chambers and LED irradiation is switched on. With the help of control units, the radiation spectrum required for a particular plant species is set due to the presence of four types of LEDs 7 in the irradiator - red, green, blue and UV-A. Due to the location of the LED modules on three walls of the chambers and the presence of a reflective film on the glazing of the doors, a uniform distribution of optical radiation is achieved throughout the entire green mass of plants, that is, self-shadowing of plants is minimized. The temperature regime inside the chambers is maintained by means of ventilation holes with 9 fans, which remove excess heat from the working LED illuminators. The presence of three independent chambers makes it possible to simultaneously grow different plants requiring different radiation spectra, as well as to carry out scientific research on the irradiation of various plants. In the case of growing tall plants (for example, seedlings of woody plants, shrubs), two phytotrons are used, while on the phytotron with the upper wall 11 removed, a phytotron with the lower wall 12 removed is installed and fixed with pins 13 and centering holes 14.

Thus, the energy-saving universal modular phytotron provides the full spectrum of radiation required for plant development with a uniform distribution of optical radiation throughout the green mass.

Claims (1)

The phytotron is an energy-saving universal modular, containing LED irradiators, consisting of red and blue LEDs with a safe low-voltage power supply of 12 ... 24 V, with pins installed on the body for reliable fixation of the phytotron when using a rack system, characterized in that the phytotron is divided by partitions into three independent from another chamber with doors, each of which has three LED feeds located on three inner side walls of each of the chambers, while the LED feed consists of modules that are made of four types of LEDs with wavelengths - blue 445 nm, red 660 nm , green 520 nm, UV-A 395 nm, the door of each chamber has a glazing with a mirror reflective film, the upper and lower walls of the phytotron are removable.

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