RU2058620C1 - Low-pressure luminescent lamp - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: lamp includes bulb with electrodes placed on opposite ends. Bulb is filled with inert gas and mercury vapors and has luminescent coat on internal surface. Composition of coat includes magnesium phosphate, strontium, activated with tin in the amount of 80-95 oer cent by mass and magnesium orthoborate activated with titanium and tin being the balance. EFFECT: lamp is meant for growing of vegetables in green houses.

Description

 The invention relates to the electrical industry, in particular the production of low pressure fluorescent lamps, intended for growing seedlings of greenhouse crops.

 Known low-pressure fluorescent lamp LAU-30 [1] designed for growing algae in aquariums, the luminescent coating of which includes the phosphor L-41 (magnesium arsenate, activated manganese) with a maximum in the emission spectrum in the region of 660 nm and L-30 (calcium tungstate, Lead Activated Magnesium) with a maximum in the emission spectrum in the region of 440 nm. The mass ratio of the phosphor L-41 and L-30 was chosen so that the ratio of the intensity of the short-wave band was 40-50% of the intensity of the long-wave band.

 However, if the radiation intensity in the blue region of the spectrum is more than 40% of the radiation intensity in the red region of the spectrum, the processes of plant development are inhibited, which is undesirable from an early stage of development, for example, when growing greenhouse seedlings.

 Known fluorescent lamp [2] designed for growing plants, the fluorescent coating of which includes 10 25% magnesium fluoroganate activated with manganese, 55 80% strontium orthophosphate, magnesium activated with tin, 10 20% barium aluminate, magnesium activated with divalent europium.

 However, in the known lamp there is a partial absorption of radiation in the blue region of the spectrum with magnesium fluorogermanate activated by manganese, which leads to a decrease in the lamp efficiency.

 Known fluorescent lamp LF-40-2 [3] designed for growing tomatoes and cucumbers, the fluorescent coating of which includes the phosphor L-42 (orthophosphate zinc, calcium, activated tin) with a maximum in the emission spectrum in the region of 610 nm and phosphor FL-490 ( barium pyrophosphate activated by titanium) with a maximum in the emission spectrum at 490 nm. The mass ratio of the phosphor FL-490 and L-42 was chosen so that the intensity of the short-wave band was at least 50% of the radiation intensity in the region of 610 nm.

 However, if the radiation intensity in the blue region of the spectrum is more than 50% of the radiation in the red region of the spectrum, the growth of the stem and the leaf area are inhibited.

 The closest in technical essence to the invention is an LFU-30 lamp [4] intended for growing greenhouse seedlings, the luminescent coating of which includes 70 95% yttrium oxide activated by europium and terbium, and barium and magnesium aluminate activated by divalent europium, the rest. The use of LFU-30 lamps is effective in growing greenhouse seedlings.

 However, the use of phosphors based on compounds of rare-earth metals leads to a significant increase in the cost of LFU-30 lamps.

 The inventive lamp with the proposed composition of the luminescent coating has a radiation spectrum, which ensures a balanced course of the life cycle in the early stages of plant development. This eliminates the content of expensive phosphors based on compounds of rare earth metals.

The essence of the invention lies in the fact that in a low-pressure fluorescent lamp containing a flask with electrodes at opposite ends, filled with an inert gas and mercury vapor, with a fluorescent coating on the inner surface, containing a phosphor emitting in the orange-red and blue spectral range, according to the invention the composition of the luminescent coating includes magnesium phosphate, strontium activated by tin, and magnesium orthoborate activated by titanium and tin, in the following ratio, wt. Magnesium Phosphate, Strontium Activated by Tin, 80 95, Magnesium Orthoborate, Activated by Titanium and Tin, Else
When the content in the luminescent coating is more than 20 wt. magnesium orthoborate, activated by titanium and tin, slows the development of plants at an early stage (in particular, microclones of grapes). When the content in the luminescent coating of the lamp is less than 5 wt. magnesium orthoborate activated by titanium and tin, the conditions for regulating the life cycle of plants deteriorate, and the likelihood of an excessively fast course of one of the processes increases.

 PRI me R 1. Luminescent U-shaped lamp of low pressure with a power of 30 W, the inner surface of the cylinder of which is coated with a phosphor, including 87.5 wt. magnesium phosphate, strontium activated by tin, and magnesium orthoborate activated by titanium and tin, the rest.

The raw mass of seedlings of cucumbers of the Marathon variety (seedling age 24 days, light intensity 50 W / m ² PAR) is 131% compared to the raw mass of seedlings grown using LFU-30 lamps (prototype).

 Tests carried out on rooted microclones of Marseille Black Early grapes showed that plants grown by irradiation with experimental lamps were 1.24 times higher than the control ones.

 PRI me R 2. A fluorescent U-shaped low-pressure lamp with a power of 30 W, the inner surface of the cylinder of which is coated with a phosphor, including 75 wt. magnesium phosphate, strontium activated by tin, and magnesium orthoborate activated by titanium and tin, the rest.

 Tests carried out on rooted microclones of grape varieties "Marseille Black Early" showed that the height of plants grown by irradiation with experimental lamps was less than that of the control ones.

 Thus, the use of a fluorescent lamp according to the invention in some cases is more effective than the use of lamps LFU-30 (prototype). This eliminates the use of phosphors based on compounds of rare-earth metals, which leads to a decrease in the cost of lamps.

Claims (1)

 LOW PRESSURE LUMINESCENT LAMP, containing a flask with electrodes at opposite ends, filled with an inert gas and mercury vapor, with a luminescent coating on the inner surface, containing a phosphor emitting in the orange-red and blue spectral regions, characterized in that the composition of the luminescent coating includes magnesium phosphate , strontium activated by tin, and magnesium orthoborate, activated by titanium and tin, in the following ratio of components, wt. Tin activated magnesium phosphate, strontium 80 95
Titanium and Tin Activated Magnesium Orthoborate