SU1047449A2 - Apparatus for growing plants - Google Patents

Abstract

DEVICE FOR CULTIVATION OF PLANTS on the author. St. No. 914004, characterized in that, in order to increase efficiency by reducing light loss during incomplete use of the runway, it is additionally equipped with mirrored screens in the form of truncated cones, with their upper bases located on a spherical reflecting screen and the lower one on the landing area. (L 1:: O

Description

The invention relates to a plant of plants and can be used for growing plants in artificial conditions, such as in life support systems, including in conditions of weightlessness.

A container for growing plants under conditions of altered weight is known, including a housing in which the holder and the power supply system G1 1 are fixed.

A plant growing device is known, comprising a hollow landing sphere with sockets for seeds and a spherical reflecting screen, external and concentrically located with respect to the landing sphere, wherein the landing sphere and the reflecting screen are mounted for rotation around two mutually orthogonal axes, passing through the center of the landing sphere. The device contains light sources evenly distributed on the inner surface of the retroreflective screen, as well as the feeding unit C2. ,

A disadvantage of the known device is low efficiency due to significant loss of light due to incomplete use of the runway. .

The purpose of the invention is to increase the efficiency and at the expense of reducing the loss of light due to the incomplete use of the landing strip.

This goal is achieved by the fact that the plant growing plant is additionally equipped with mirror-shaped screens in the form of truncated cones, with their upper bases located on a spherical retro-reflecting screen, and the lower ones on the front panel.

FIG. 1 shows a device, VI1D front sectional; in fig. 2 - the same, top view in section.

The device contains a hollow landing sphere 1 with sockets for seeds 2 and a spherical retro-reflecting screen 3 installed with the possibility of rotation around mutually perpendicular axes 4. Light sources 5 are installed on the inner surface of the light front screen of screen 3. The landing zone 1 is connected to the feed unit

solution 6. Between the landing sphere 1 and the retro-reflective screen 3 there are two conical mirror screens 7.

The plant for growing plants of the Scientific Research Institute operates as follows.

the plants are planted with an optimum density for the planting sphere on a part of the planting sphere enclosed between the specular

10 screens 7. The angles of the cones of the mirror screens 7 are selected from the condition of obtaining the necessary landing area between the cones, i.e. provide a given performance

5 devices at optimum density, seeding. Parts of the spherical retro-reflecting screen 3 external to the conical mirror screen 7 can be removed for

The Q of volume reduction occupied by the device feeds the plant roots with the help of nutrient solution 6 supply unit. When the light sources 5 placed between the conical mirror screens 7 are turned on, the light distribution in full spherical sowing is simulated by reflecting light at the seeding borders.

 In this way, multiple reflections of light in the empty part of the spherical plant growing apparatus are prevented, and consequently, non-productive losses of light energy are reduced.

In addition, due to approximately the same distribution of light along any radius of the sphere within the scope of the proposed device, the phototrophic response of plants leads to a radial arrangement of the stems in the case of weightlessness or when the device rotates around the axes 4 under conditions of a gravitational field. In this way, in the proposed device, a structure of sowing and plant lighting conditions are created, similar to the optimal case of sowing on the whole planting field with preservation of high specific productivity per unit landing area. In the proposed device with the angles of taper of the mirror screens in the range of 40-70 can be achieved, reducing unproductive losses

 light, at 40-60% compared with mouth. prototype royutv.

Claims (1)

DEVICE FOR GROWING PLANTS by ed. St. M 914004, characterized in that, in order to increase efficiency by reducing ¹ light loss during incomplete use of the landing strip, it is additionally equipped with mirrored screens in the form of truncated cones, with their upper bases located on a spherical reflective screen and the lower on the landing sphere. fig /