SU921478A1 - Method and device for pollination of self-incomtable lucerne plants - Google Patents

Description

The invention relates to agriculture and can be used to pollinate self-incompatible plants.,

There is a method of increasing the efficiency of pollination of self-fertile 1 asthenia by affecting sound fields with a frequency of 0.5-1.0 and 4.0-10.0 kHz, which coincide with the natural frequencies of the parts of flowers and C13 plants, respectively.

However, this method is not very effective for cross-pollination of self-incompatible plants and especially alfalfa, since it does not provide for the transfer of pollen to other plants, and the limited frequency range of the sound field is insufficient for creating resonant oscillations of flowers with a large variety of their sizes ..

There is also known a method of pollinating self-incompatible plants with a device for carrying it out, in which plants are exposed to warm air and vibrations of flowers are caused by a steady flow of air. The device includes a frame on which cameras with air ducts are fixed,

connected to a source of excess pressure, and dividers 12.

However, the use of heat from the heated air is ineffective for heating the inner tissues of the flower, since its transfer is carried out by heat conduction, which takes a long time. Heating the surface elements of the plant increases the process of plant dehydration.

The aim of the invention is to increase the efficiency of the flower opening process and thereby improve the pollination of plants and, consequently,

15 and increase the yield of alfalfa seed.

The goal is achieved by the fact that plants are affected by infrared radiation of long-wave electromagnetic waves, after which

20 vibrates a flower with a wide-angle: laconic sound field and a pulsating stream of air overpressure.

The device for carrying out the equipment is equipped with infrared radiation emitters of long-wave electromagnetic waves mounted on the side walls of the chamber, with broadband sound waves placed under them,

Claims (2)

30 generators and a device installed for the mechanical transfer of pollen with electrodes placed underneath, connected to the negative pole of a high voltage electrostatic field source, the positive pole of which is grounded, and in the front part of the device air ducts are installed, which are connected to source of overpressure. In addition, the device for the mechanical transfer of pollen is made in the form of an elastic, arched air-permeable conveyor, the direction of movement of the lower branch of which is opposite to that of the device for pollination. In FIG. 1 shows a device for pollinating self-incompatible alfalfa plants, general view; FIG. 2 is the same front view; in fig. 3 - cut A-A in FIG. 2; in fig. 4 - the same top view. The method of pollination of self-incompatible alfalfa plants is carried out as follows. In order to open the flowers of alfalfa plants, a 3-4 second exposure to generators of infrared radiation (such as tubular electric heaters of heaters) is performed. At the same time, in the zone of inflorescences, this creates a temperature field of 8О-90 0 with a power of 1-2 W / cm. As a result of penetrating thermal radiation, capillary pressure rises in the flower column, cell turgor increases, and the flower opens. Then the flowers are affected by the sound field of a wide-band wavelength range (from 4,000 to 20,000 Hz) with an intensity of 100-110 d and a pulsating stream of air, a frequency of 5 times / sec, which is supplied under a pressure of 0.2-0.5 kg / cm in the amount of 10 L / s under the influence of the sound field and pulsating air flow, the intensity of the opening of the flowers returns. In order to provide cross-pollination of self-incompatible plants to a pulsating path, air flows to the mechanical means (an elastic fuzzy breathable conveyor), which moves it to other plants with not yet opened flowers. Here, a pulsating stream of hymalga is thrown onto the flowers of the plants. To eliminate sweat | s The pollens discharging pollens infect the plants negatively, and the plants themselves positively in the high-pressure electrostatic field. A device for carrying out the method of pollination of seed plants, including alfalfa, contains chambers 1, which are made of two sidewalls 2. Field chambers 3 are installed between chambers 1 and intended for guiding the plant into chambers. Two air ducts 4 with holes are installed in each chamber 1. The air ducts 4 are hermetically connected to the central air duct 5, the central air duct 5 is connected to the pulsator 7 by means of the connecting air duct 6. The pulsator 7 is connected to a pressure source (not shown) by means of the connecting air duct 8, infrared light emitters 9 are fixed to each side wall 2, 1 for example TEN. The power source of the emitters is not shown in the drawing. The emitters 9 are protected from contact with plants by protective partitions 10 made of an infrared transmitting material, such as glass, plastic. In each chamber 1 on the sidewalls 2, wide-band soundwave speakers 11 (gas-dynamic or electrodynamic type ). The generators 11 by link 12 are connected to a power source (not shown). The chambers 1 are fastened to the frame 14 with a running gear by means of the connecting links 13 (not shown). Elastic air-tight conveyors 15 are installed above the chambers 1, the driver 16 and the driven 17-shafts are mounted on the frame 14. Conveyors 15 rotated from a drive (not shown) providing a belt speed comparable to that of the device. Moreover, the movement of the lower branch of the conveyor is directed in the opposite direction from the direction of movement of the entire device. In the front part of the conveyors 15 between its branches there are installed flat nozzles 19, connected by ducts 20 with central duct 5. Under the front part of the lower branches of the conveyors 15, electrodes 21, for example of needle type, are installed. The electrodes 21 are insulated by an actuator 22 connected to the negative pole of the high voltage electrostatic field source 23. The second positive pole of the source field 23 insulated wire 24 is connected to ground. A device for pollinating self-incompatible plants including lucerne works in the following way. When the device moves forward, the dividers 3 direct growing plants to chambers 1, where the stems of plants and their flowers are exposed to thermal infrared radiation from emitters 9, a broadband sound field from a sound generator 11 and pulsating airflow blows from an air duct 4, infrared penetrating radiation radiation increases osmotic pressure in the tissues of the flower of plants, for example in. stacking the column of flower alfalfa, increasing the elasticity of the column to a degree sufficient to uncover the alfalfa flower boats. The sound waves and impulse streams create vibrations of parts of the plant flowers, thereby accelerating the process of p from the roof of the flowers and withdrawing the flowers from the flowers. Pulsating air flows and air ducts 4 raise the pollen to the conveyors 15 and precipitate it on the surface of the conveyor belt. Conveyors 15 carry pollen forward to other plants. Pulsating air flows from nozzles 19 discharge pollen to plants. In this case, the pollen deposited between the electrodes 21 receives a negative charge from an electrostatic field of a high voltage generated by the source. It is deposited on flowers and plants, for example, on sails of alfalfa flowers and firmly held on them. The loss of pollen from its fall to the ground past the flowers is sharply reduced. The use of the method of pollination of monocompatible alfalfa plants and devices for its implementation will significantly increase the efficiency of pollination, and hence the yield. Claim 1. A method for pollination of self-incompatible alfalfa plants, including thermal effects on plants and the transfer of pollen by air flow, and with the fact that, in order to increase the efficiency of the process of opening flowers and improving the very pollination of plants, and consequently, and increase in the yield of seeds, the plants are affected by the infrared radiation of long-wave electromagnetic waves, after which the flower is vibrated by a broadband sound field and a pulsating air flow of overpressure. 2. A device for carrying out the method according to claim 1, comprising a frame on which chambers with air ducts connected to an overpressure source are fixed, and dividers, distinguished by the fact that the device is equipped with infrared radiation emitters of the camera on the side walls of the camera with broadband sound generators placed under them and a device for mechanical transfer of pollen mounted above the chambers with electrodes placed underneath and connected to negative the source pole of the electrostatic field of high voltage, the positive pole of which is grounded, and in the front part of the device there are installed pipelines that are connected by means of a pneumatic pulsator to an overpressure source. . 3. The device according to PP.1 and 2, differing in that the device for the mechanical transfer of pollen is made in the form of an elastic, fuzzy, air-permeable conveyor, the direction of movement of the lower branch of which is opposite to the direction of movement of the device for pollination. Sources of information taken into account during the examination 1. USSR author's certificate 506350, cl. A 01 H 1/02, 1979. 2. The author's certificate. USSR № 490438, cl. And 01 Hj 1/02, I974t (prototype). / J 5 / S yy 7 6 th X 3 GT g four ff (7 Yo &. " L - 41  ; / / 3