RU2072759C1 - Method and device for processing multishoot beet seeds into single-shoot ones - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: method involves irradiation of a part of the seed ball to suppress viability of extra seeds. The device has a source of radiation and a screen that protects the irradiated seed part as the device disk rotates. EFFECT: higher seed quality. 2 cl, 2 dwg

Description

 The invention relates to the field of agriculture, in particular the production of single-seed beet seeds from multi-seed seeds.

 Known methods for producing single-seed beet seeds using preliminary mechanical crushing of glomeruli of multi-seed seeds (A.S. N 139160), using electrohydraulic shock (A.S. N 413904) and compressed air (A.S. N 1431703) for these purposes, and also a method for producing hybrid single seed beet seeds.

 The above methods for producing single-beet seeds of beets have a number of significant disadvantages, such as the low quality of seeds during mechanical crushing due to damage, the complexity of the process with the electro-hydraulic impact method, which requires additional drying of seeds, etc. In order to obtain the necessary accuracy in seed placement, it is recommended to additionally dragee . The most common method of obtaining single-beet seeds of beet hybrid is very time-consuming and involves a high level of skill of specialists.

 The common disadvantage of all methods for producing single-beet seeds of beets is that the process of obtaining them is a separate, independent technological process and requires appropriate material and labor costs for its organization.

 The aim of the invention is to simplify the entire process of obtaining single-seed beet seeds from multi-sprout glomeruli.

 The proposed method avoids the above disadvantages. Its essence is to destroy the viability of a part of the seeds of a multi-seed beet glomerulus. This can be achieved by irradiating a part of the multigerm glomerulus with various types of radiation of X-ray, microwave, microwave, etc.

 In FIG. 1.2 shows a device for producing single-seed seeds from multi-seedlings of beet glomeruli by the irradiation method, which consists of a metering device 1 of serial production with a cellular seed disk 2, a radiation source 3 and a protective screen 4, which covers part of the surface of the cell 5 of the seed disk 2 from radiation.

 The device operates as follows. When the cellular disk rotates, 2 glomeruli of seeds located in the cells fall into the irradiation zone. Unprotected screen 6 part of the glomerulus of beet seeds and the seeds located in this part of the glomerulus die, and the glomerulus with the remaining live seed, which was protected by screen 4, is fed to the seed ejector and sown.

 The proposed method allows to obtain single seed beet seeds under stationary conditions, which allows the use of conventional serial precision seeders and other types of seeders, in particular with pneumatic sowing devices, when sowing beets.

 Using the proposed method for producing single-sprouted seedlings of beets from multi-sprouting glomeruli simplifies the technology and allows you to destroy the extra embryos before sowing, which completely reduces the cost of manual labor to form plant density.

Claims (2)

 1. A method of producing single-seed beet seeds from multi-seed, including a physical effect on the multi-seed glomerulus, characterized in that electromagnetic radiation is used as the physical effect, and the effect is carried out by moving the seed glomerulus in an electromagnetic field, and in the process of exposure, excessive ones passed through the zone are inactivated irradiation of embryos of a multigerm seed beet glomerulus.  2. A device for producing single-seed beet seeds from multi-sprout seeds, including a means for influencing seeds, characterized in that the means for influencing seeds is made in the form of a source of electromagnetic radiation and a seed conveyor with the possibility of combining the zone of action of electromagnetic radiation of the said source with at least one path zone conveyor seed movement.

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