SU317950A1 - PHYTOPIRANOMETER - Google Patents

Description

The invention relates to optometry, in particular, to photosynthetic active radiation limited to a spectral interval of 0.38-0.71 µm.

Known phytopyranometers are cumbersome and inaccurate.

In order to simplify the design and increase the accuracy, the proposed phytopyranometer is made in the form of two cases equipped with a hemisphere from opaque material, coaxially placed one inside the other, on the inner one of which the receiving platform is reinforced from a material that non-selectively absorbs the photosynthetically active radiation wave an additional hemisphere was reinforced, with the space between the two upper nouspheres being filled with liquid.

The drawing shows schematically the proposed phytopyranometer.

Cornus /, covered with a hemisphere 2 of uviol glass and containing a receiver 3 of KS-19, a thermopile 4 and a cooling cylinder 5, is located inside the housing 6 with a hemisphere 7 of uviol glass. A metal rim 8 is screwed onto the hull 6, carrying the third glass hemisphere 9 to be able to fill the gap 10 between the last two hemispheres with distilled water or some other filament with a flushing fluid.

The double case design was used to protect the thermosensitive organs of the phytopyranometer from sudden fluctuations in air temperature, from wind storms and from occasional touches of the second and third glass hemispheres introduced to absorb infrared radiation with waves L, 1.1 µl,

having a significant amount of radiation from incandescent bulbs, and barring them from accessing the internal chamber of the phytopyranometer. When the phytopyranometer is irradiated with a primoy by a solar or diffuse atmosphere

The radiation of a water filter is practically not required due to the negligible amount of infrared irradiance.

Since the KS-19 glass in the series of colored glasses belongs to the category of "cutting light filters, the KS-19 plate is round and relatively thin (A 0.5 mm), subjected to; This irradiation with waves in the range of 0.38–2.5 μm absorbs only radiation 0.38– 0.71 μm and, accordingly, increases its

the temperature is influenced by the power inherent only in these waves. Active (hot) thermopile junctions are connected to the KS-19 disk, while the passive (cold) junctions are in thermal contact with the thermal trace thermoelectric. d. s., proportional to the excess temperature of the plate KS-19, t, e. irradiance photosynthetically active radiation.

Subject invention

A phytopyranometer containing a receiving area in the form of a disk, thermopile and cooler of its passive junctions, characterized in that, in order to simplify the design and

increase in accuracy, they are made in the form of two shells fitted with hemispheres of transparent material, spaced one inside the other coaxially, on the inner one of which there is a reinforced area made of material non-selectively absorbing wave of the region of photo-active radiation, and onboard the outer hull an additional hemisphere is reinforced between the two upper hemispheres filled with fluid.

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