The block of management of the device contains a regulator of capacity of the light source, changing brightness of the screen filled with a color solution, in limits from zero up to the maximal, preset value. The source is connected through adjustable resistance. The maximal brightness is safe for sight of the person and identical to all color solutions filling the screen. Measurements of brightness carry out photoexposure-meter on distance of radius of the screen. The maximal value of brightness approximately corresponds to the indication photoexposure-meter in rainy autumn day. The device contains the panel of the block of management on which mark various positions of the handle of a regulator of capacity of a light source.

The size of a back wall choose with such calculation, that at position of one of bodies of sight of the person at a viewing aperture, the back wall closed the most part of visual space.

Set forth above technical results are reached by means of a way color-therapies at which the user settles down near the concave monotonously painted color screen in the form of a spherical segment. The eye of the user is near a viewing aperture of a casing on distance of radius of the screen. The casing absorbs reflected from subjects of an environment light getting on the screen. Other sources of illumination, except for the screen, in a room are absent. The radius of the screen is not less distance of the best sight of the person, about equal 25 see.

After that change - increase and reduce brightness of the screen in limits from zero up to the maximal value. The maximal value is set beforehand and measured photoexposure-meter by meter on distance of radius of the screen. The maximal value is identical to all colors of the screen which to belong to two groups. The first group includes primary colours of a solar spectrum of the visual range, not close located to each other. The second group includes the colors containing white color with addition of a small amount of colors from the first group.

Value of the maximal brightness of the screen postpone on a coordinate axis. The received line of change of brightness of the screen from - 0 up to maximal, preset, values, break into pieces which quantity is identical to all colors of the screen. The number of pieces can be taken equal - 6.
Within the limits of each piece for each color of the screen for reduction and increases in brightness of the screen for each eye of the user some times (for example - 5-10 times) carry out a cycle which coil will consist of the following actions:

Some times (10-15) slowly change brightness of the screen from value on one end of a piece up to value on opposite with fast returning back, with concentration of a sight of the user to a surface of the screen. Thus there is an influence of color on all surface of a retina of an eye to an identical saturation and brightness. Muscles of eyes are in not intense, motionless condition, as distances from each point of the screen up to an eye of the user equally. Clear vision of all points of the screen, promotes concentration of thinking that strengthens positive influence of a way.

After that include illumination of the second screen, congruent to the first screen, with a different combination for each cycle the congruent bright multi-coloured elements similar each other, located along his{its} surface. A sight of the user direct on the second screen on a small time interval - 5-15 seconds.

Distance between the second screen and bodies of sight of the user approximately equally to radius of the screen. Further switch off illumination of the second screen and a sight of the user it is transferred to monotonously painted screen. Storing of change of brightness of color of the screen raises efficiency of a way. Unit of the remembered information is change of brightness (increase or reduction) the first screen at performance of a cycle.

The invention is illustrated by drawings

On figs 1 the isometric projection of the device is shown. A general view, and as the circuit of connection of a light source.
On figs. 2 the lateral projection of the device is shown.
On figs. 3 the frontal projection of the device is shown.
On figs. 4. position of the user, and also the device of the transparent screen is shown. The screen is submitted in a section.
On figs. 5 schedules of dependence of brightness of the screen color-therapeutic installation from capacity of a light source for some colors of the screen are shown.
On figs. 6. the photo of the device, a side view is submitted.
On figs. 7. the photo of the device, an dimetric kind is submitted.
On figs. 8. the photo of transparent screens is submitted.
On figs. 9. the photo of the screen with a combination of color elements is submitted.

The general elements on figures are designated equally.

The color-therapeutic device is executed as follows:

The color-therapeutic device (figs. 1-3, 6, 7) contains the case 2 (figs. 1-3). The back flat wall of 4 cases 2 has a matte white internal surface. Lateral walls of the case 2 with a reflecting internal surface are inclined under a sharp corner to a back wall 4. The casing is built in a lateral all of the case from the external side 3 with a light source 5, 4 cases in regular intervals shining a back wall 2.

The device is contained concave transparent hollowing (полый) with the screen 1, forward and back walls which have the form of a spherical segment, the radius of a forward wall is not less distance of the best sight of the person, and the height is no more radius. The screen 1 is inserted into an aperture of a forward wall of the case 2. The back wall of the transparent screen 1 is inside the case 2. In a lateral surface of the screen the aperture 7 for filling up a color solution 19 (figs is located. 4). The screen 1 (figs. 1-3) it is established on a support 8 and it is kept by an emphasis 7. The screen 1 is executed from two glasses 18 (figs. 4, 8) in the form of a spherical segment. The device as contains from lateral aspect of the case of 2 (figs 1-3) (light-absorbing) the light-absorbing casing 9 closing the transparent screen 1. The casing 9 protects eyes of the user from reflected light which weakens a saturation of color proceeding from the screen 1. On a casing 9 on distance of radius of the screen 1 the small viewing aperture 10 is located.

Part of the device is the concave screen 14 (figs. 1-3, 9), congruent a forward surface of the transparent screen 1 (figs. 1-3). The screen 14 is located on a support flush with the transparent screen 1 and highlighted by a lamp 16 with the switch. Along a surface of the opaque screen 14 are located color elements 15 similar each other of which it is possible to make not repeating color combinations under the formula of combination theory.

In cavity of the screen 1 alternately fill solutions 19 (figs. 4) finely divided dyes in the transparent liquid, belonging to two groups. The first group of solutions contains bright dyes of primary colours of a solar spectrum of a visual range. The second group contains solutions of white dye in a liquid with addition of a small amount of dye of the first group.

The block of management of the device 11 (figs. 1-3) contains a regulator of capacity of the light source 5, changing brightness of the screen 1 filled with a color solution 19 (figs. 4), in limits from zero up to the maximal, preset value (figs. 5). The circuit of connection of a source is submitted on figs. 1 at number 17. On an axis of abscissa values of capacity of a light source 5 for various colors are postponed. On an axis of ordinates values of brightness of the screen for some colors and its maximal value are shown. The maximal brightness is safe for sight of the person and identical to all color solutions filling the screen 1. Measurements of brightness carry out photoexposure-meter at the screen 1 on distance of its radius. The device contains the panel 11 (figs. 1-3) the block of management 13 on which mark various positions of the handle of a regulator of capacity of a light source 5.

The size of a back wall 4 choose with such calculation, that at position of one of bodies of sight of the person at a viewing aperture 10, the back wall 4 closed big parts of visual space.

The way color-therapies is carried out, by increase and reduction of brightness of the concave monotonously painted color screen 1 (figs. 1-3) in conditions of absence of other sources of illumination. Brightness of the screen change in limits from zero up to the maximal, preset value (figs. 5). The maximal value is identical to all colors of the screen which belong to two groups. The first group includes primary colours of a solar spectrum, and the second group includes white colors with addition of color from the first group. The eye of the user is on distance of radius of the screen 1 (figs. 1-3) which is not less distance of the best sight of the person. Distance of the best sight of the person approximately equally 25 see. The screen 1 is protected from reflected light (light-absorbing) light-absorbing casing 9 with a viewing aperture 10.
Line of change of brightness of the screen from - 0 up to the maximal value, postponed on a coordinate axis, break into pieces, and quantity of pieces equally for all colors of the screen. Within the limits of each piece for each color of the screen for reduction and increases in brightness of the screen for each eye of the user some times (for example - 5-10 times) carry out a cycle which coil will consist of the following actions:

Some times slowly change brightness of the screen 1, with concentration of a sight of the user to a surface of the screen 1. After that include (the switch on the drawing it is not shown) illumination 16 second screens 14, the

congruent first screen 1 similar to a forward surface, with a combination of multi-coloured elements not repeating for everyone cycle 15. A sight of the user direct on the second screen 14 on a small time interval. Distance between the second screen 14 and bodies of sight of the user approximately equally to radius of the screen 14. Further switch off illumination of the second screen 14 and the user looks one eye in a viewing aperture 10 casings 9 at change of brightness of the screen 1.

The second screen 14 serves for storing change of brightness of the first screen 1 for all his{its} colors. Unit of the remembered information is change of brightness (increase or reduction) the first screen 1 at performance of a cycle.


The list of the used literature

1. Dmitriev A.G. Experience of development of devices for color-pulse therapy. Сollection of articles, М., Publishing house RMA, 1998, page 33-38.

2. Iljanok V.A.Reaction of a bark of a brain of the person on intensity of illumination. In the book.: Light engineering, 1994, №1, page 8-11.

3. Ostrjanina N.L. To a problem of seasonal (autumn-winter) depressions. In b..: Psychiatry and psycho-pharmatherapy. 2002, №4, page 158-160.
4. Recommendations on forecasting and preventive maintenance of desychroismos. Novosibirsk, 1984, 52 page.

The color-therapeutic device and a method of color- therapies, 1 pg.
Цветотерапевтическое устройство и способ цветотерапии, 1 стр.
Цветотерапевтическое устройство и способ цветотерапии, 2 стр.
Фигура 1, 2, 3
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