LT5642B - Phosphor conversion light - emitting diode for meeting photomorphogenetic needs of plants - Google Patents

Abstract

The invention relates to solid state sources of light with the emission spectra tailored in order to meet specific needs in plants. A phosphor conversion light-emitting diode (LED) for plant cultivation comprises a semiconductor chip, generating short wavelength (blue or near - UV) light due to injection electroluminescence and a wavelength converter containing at least one phosphor, converting the said short-wavelength light to longer wavelength light due to photoluminescence. The longer-wavelength light contains a far-red spectral component peaking in the spectral range of about 700 nm to 760 nm, corresponding to the absorption spectrum of plant photoreceptor phytochrome of the form Pfr and thus meeting photomorphogenetic needs of plants. The far- red light can be generated by either partial or complete conversion of the short wavelength light. The LED can emit other spectral components, such as blue and/or red light, which meets other photophysiological needs of plants.

Description

The invention relates to biology, and more particularly to means for adjusting the functional state of a biological object.

There are known devices for the weak, i.e. for non-thermal biological structures, i.e. structures that have living organisms, cells, etc., which often produce a much greater effect than measures that produce a much greater effect.

This is explained by the stochastic distribution of cellular structures in an excited state, but its normalization often requires such a small effect that any electromagnetic, dipolar, leptonic, spin, and other effects and interactions allow the biosystem to be brought to a much higher level, i.e. to a much higher level of functional preparation functional status.

There is known a device for adjusting the functional state of a biological object having a metal conductor of several strands of different sizes that is placed adjacent to a biological object (EP0495132,1992).

With this device, the state of the biological object can be controlled by changing the conductor material and geometric parameters.

The drawback of the device is its low efficiency.

Also known is a device for adjusting the functional state of a biological object, having as its base an electrical circuit in the form of a helix placed on a surface, formed by rotation about an axis, the latter being the axis of the helix and any two helix strands being electrically connected at least one section of a non-linear voltammetric characteristic (RU2041602,1995).

This device can be used to correct the condition of a biological object.

However, this device has a short duration and low efficiency. In addition, it is difficult to customize the device to change specific features of the exposed object or its functional parameters.

The closest technical solution to the present invention is a device for adjusting the functional state of a biological object having a base mounted in the form of access conductors having unpaired spiral curves with non-intersecting wires forming the axis of the device (RU95111981,1995).

The disadvantage of this device is that protection is provided by isolating the object from the pathogenic factor, which in turn loses the necessary information.

SUMMARY OF THE INVENTION The object of the present invention is to provide a device of such a construction that allows to restore the natural connections of the object, which increases the working efficiency of the device.

The technical result of the present invention is achieved by providing a device for adjusting the functional state of a biological object having a base mounted on it with conductors having unpaired spiral curves with non-intersecting wires forming an axial line of the device according to the present invention. grids and are made of opaque material that allows for regular disposition of target characteristics.

Compatibility of substrate phase grids and conductors allows for efficient object and device structure compatibility.

Phase grid formation on the substrate by photobleach gives the device high reliability and positive effect effects.

Plastic deformation of conductors is the most technologically efficient and economical way.

The device for adjusting the functional state of a biological object is described in more detail below with reference to drawings in which:

Figure 1 is a schematic diagram of the device of the present invention;

Figure 2 shows a photograph of a human Kirlian prior to use of the device;

Figure 3 shows a photograph of a human Kirlian after 40 minutes. after application of the device, the device for adjusting the functional state of the biological object consists of a base 1 and attached to its conductors 2 arranged to form non-intersecting spiral spiral curves in its axial line.

The substrate 1 may be composed of at least one photoemulsion layer 3 in which a phase-grid micro-relief is formed.

Conductor 2 has a phase grating and may be made of a plastic deformation material of a prestressing material that allows for regular dislocations of the specified characteristics. The phases of the substrate and the conductors can be matched. This depends on the technological requirements of the device. Therefore, in some cases, either conductor phase grids or substrate phase grids can be used.

The Biological Object Functional Adjustment Device operates as follows: the device is brought to the biological object at a distance of at least 50 cm. The base phase grids 3 and the conductor phase 2 grids begin to interact with the radiation of the biological object system and thereby normalize the functional state of the object.

The effectiveness of the device is tested by Kirlian's photography, the Folio method or laboratory tests.

The GDV (Kirlian Photography) measurement results are shown as an example.

Table 3 shows the results of laboratory measurements of the device of the present invention. A test sample of the device "Svetlica" was used.

Effect of the device on antioxidant properties and genomic systems of human blood leukocytes

Leukocyte characteristics Normal (n = 30) Control No. Blood of Group 1 patients incubated for 2 days in a "Svetlica" device Control No. 2 Blood of Group 2 patients incubated for 2 days in "Svetlica" 1. [NMAO], quercitin mcg / ml 1.02 ± 0.07 (1.0) 0.68 ± 0.05 (0.67) 1.02 + 0.07 (1.0) 0.10 ± 0.01 (0,1) 0.98 + 0.07 (0.96) 2.SOD, mkmol / ml * min 0.28 ± 0.02 (1.0) 0.25 ± 0.02 (0.89) 0.29 ± 0.02 (1.0) 0.19 ± 0.02 (0.68) 0.23 + 0.02 (0.82) 3. ^J H-thymidine, fmol / mbpara 0.85 ± 0.02 (1.0) 2.3 ± 0.1 (2.70) 0.56 ± 0.02 (0.66) 0.3 ± 0.02 (0.35) 1.0 ± 0.02 (1.18) 4. ⁱ⁴ C-leucine, nmol / mfpara (^ streaming) 0.65 + 0.02 (1.0) 0.14 + 0.01 (0.22) 0.60 ± 0.02 (0.92) 1.2 ± 0.04 (1.85) 0.60 + 0.02 (0.92) 5. Ml,% (Creplications) 8.5 + 1.5 (1.0) 7.9 + 1.5 (0.93) 7.9 ± 1.5 (0.97) 7.7 ± 1.5 (0.90) 8.6 + 1.5 (1.01) 6. kAOA, normative units 1.0 0.78 1.0 0.14 0.89 KBGA 7, normative units 1.0 1.46 0.79 1.1 1.05 8 · kfeparacjjos normative units 1.0 2.77 0.69 0.45 1.17 9. normative units of kgenom durability 1.0 1.34 0.94 0.20 1.0 10. normative units of kgenom productivity 1.0 0.58 0.95 1.38 0.97

wherein kAOA is the antioxidant protection factor of the cells; Kiransia - efficiency of protein synthesis with τ _{/ 2} > 24 hours; crepi - intensity of cell division process; kBGA - coefficient of cellular genome activity; creparation - activity coefficient of DNA repair systems; kgenomic stability - genomic stability factor; kgenome productivity - genome productivity coefficient.

Bearing in mind that the objects in this work area were leukocyte cells containing lymphocytes (immunocompetent cells) in their population, the results in Table 1 suggest that the device exhibits immuno-normalizing effects.

The normalizing effect of the device of the present invention is that if the measured parameters of the object are below the norm, they increase and if above the norm, they decrease (see table).

Claims (3)

DEFINITION OF INVENTION 1. A device for adjusting the functional state of a biological object, having a base of conductors attached thereto, having non-closed spatially curved, non-intersecting spiral curves, characterized in that the base has phase-lattice microforms and conductors made of a prestressing material allowing for regular dislocations of the target characteristics, and the device may include a frequency modulator for tuning the base-phase grid and conductor radiation and adapting their overall frequency spectrum to the biological frequencies to be adjusted. 2. The device of claim 1, wherein the phase portraits of the substrate and the conductors can be matched. 3. A device according to claim 1, characterized in that the substrate has a phased grid.