SU1727762A1 - Method and device for defoliation of cotton - Google Patents

Abstract

SUMMARY OF THE INVENTION: On the ridges, the soil ridges are cut off on both sides of the stem and the root neck is exposed. The bare root collar is treated with vapor-containing gases with a temperature not lower than 45 ° C. These gases are obtained by mixing the hot exhaust gases of the engine with the steam that comes from the cooling system of the internal combustion engine. The device for defoliation of cotton contains shrub shakers, a source of hot gases and cutting elements. The blades of the cutting elements are mounted behind the bush-bearers and have field boards with sipe channels for the release of steam-containing gas. Exhaust gases from the exhaust manifold of the internal combustion engine through the evaporator chamber are piped to the outlet channel. There also comes steam from the evaporation chamber. Hot steam-containing gas affects the phloem and mite of the neck of a cotton stalk. 2 sec. f-ly, 2 zp f-ly, 3 ill. (L

Description

The invention relates to agriculture, in particular to methods and devices for harvesting agricultural crops growing above the soil surface, and can be used in the preparation of cotton bushes and cotton grooves before harvesting raw cotton from the opened boxes with cotton harvesting machines.

There is a known method for collecting raw cotton from cotton coats with cotton harvesting machines, equipped with vertical and horizontal spindle harvesting machines, which are carried out by artificially removing leaves (defoliation or destection) and leveling outflow and deep irrigation furrows, lintels and high ridges of the ground to remove large her clods from the surface of the ridges of cotton thighs. Defoliation or desiccation is accomplished by poisoning respiration with various active chemical preparations (e.g., butaphos, magnesium chloride, calcium chlorine chloride, butulkoptax) that cause the leaves to dry and fall. It is known that cotton bushes are sprayed with chemical defoliant or decanter by various air vehicles or ground-based technical equipment, spray boom sprays.

This method of defoliation of cotton with the use of various chemical preparations and technical means of their spray VJ

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It does not have a number of drawbacks, namely, it causes enormous and irreparable damage to the environment, as chemical drugs cause poisoning and disease of all living things: humans, animals, birds, fish, insects, grasses, and fruit and ornamental trees, as well as known defoliants of pollution soil, water, atmosphere; cotton yield is significantly (up to 20-30%) due to the total poisoning of cotton breath, i.e. at the same time as the respiratory process of the leaves is affected, the breath of cotton stalks, green bolls and small leaves of 30-35 days old fall down along with the leaves. In addition, fiber and seed quality deteriorates.

The energy intensity of technical equipment (air and surface) and the complexity of their operation are high, due to the effect of chemical defoliants and desiccants on the wear resistance of parts, technical equipment and the conduct of maintenance and technological adjustments.

Unfavorable working conditions are created for machine operators and maintenance personnel (increased concentration of pre-chemicals, vibration and noise).

The closest to the proposed method is a method of defoliation of cotton, including the effect on the biostructure of the green mass of cotton by spraying the active medium in which the green mass is alternately exposed to cold air and hot, and the exposure time and air temperature should be sufficient to effect water crystallization the sheet is blown out with cold air and to ensure evaporation of condensate formed when hot air is blown off.

The disadvantages of this method are: low efficiency of the leaves, as when blowing cold stems and cotton leaves with cold air, its breathing through the stems and leaves slows down, and the ultrastructure of the cellular elements does not experience artificial changes when returning to the optimum temperature (25 ° C) breathing is restored quite easily, so there is no need for cold air.

During defoliation in a known manner, when the dushirovanie green mass (leaves, 4 stems, boxes) with hot air is produced, the transport of assimilates along the phloem in all directions (from leaves to developing fruits, roots, etc.) is weakened and most often this weakening transport caused by the maximum

temperatures (on the order of 45 ° C and above), irreversible. associated with more significant structural damage to cellular elements. However, it should be noted that in this case there is a sudden

0 respiratory damage to stems, leaves, and green bolls and to stop the transport of assimilates through the phloem of plants. Assimilation from the leaves to the developing fruits and from the green

5 zones of cotton bolls flaps to seeds, fibers. And all this leads to a significant loss of cotton yields and a decrease in the quality of fiber and seed, as small boxes of cotton fall.

It is also known a device for defoliation of cotton, comprising a heat transducer for energy of the air flow; typical air converter

The flow is made in the form of a vortex tube, to the hot end of which the upper part of the hot shower chamber is connected, made in the form of a receiving compartment with a steam-jet aggregate installed in it, which also allows defoliation of cotton by hot and cold plant scenes.

The disadvantages of this device include the loss of cotton yields and

5 reduced fiber and seed quality.

The closest to the technical essence of the proposed device relates to a device for defoliation and decal of cotton, containing a fan communicated through a collector with a distributor rod and a source of hot gases and a solar air heater. The drawbacks of the device are losses of cotton yields, reduced quality of fiber and seed, as well as design complexity and high energy consumption.

Yield losses are explained as follows, Since the preparation of a cotton bush for harvesting from the opened bolls by cotton harvesting machines is not only in carrying out artificial leaf removal (defoliation or desiccation),

5 then it is necessary to additionally carry out the preparation of cotton and cotton grooves: level the high ridges, remove large clods of land. These works are carried out manually with a pre-harvest shelf of weeds, also carried out manually. In addition, the lack of preparation of cotton cuts for machine harvesting is the presence of ridges 140-160 mm high (which remain after cutting the furrows for the first cotton irrigation) and, as a consequence, the lower cotton bolls, which are distinguished by high quality fiber and seed. actually lie on the surface of the ridge of the earth. Their number is 10% of the total cotton yield, which corresponds to 3-4 centners per hectare, since in the presence of crests, the vertical spindle harvesting machines of the cotton harvesters cannot collect raw cotton from the lower open boxes lying on the surface of the combs . (The fact is that the active part of the spindles is at a height of 80-100 mm from the bottom surface of the lower discs, which should leave a light footprint on the ridge with a properly adjusted cleaning machine in height relative to the ground surface, i.e. The desire of mechanizers to lower the harvesting equipment below the permissible limit in order to collect raw cotton from low-lying bolls, leads both to a violation of the established dimensions of the working gap and to the transfer of clods of trapped land to the receiving w camera). All this reduces the completeness of picking cotton from the opened bolls over the entire height of the cotton; the dust level is excessively increased (by 500-1000 times as compared to those established in the MPC), the noise level and vibration of the cotton harvester pneumatic transport sharply increase due to the impact of clods on the pipeline walls and the surface of the fan blades,

In addition, the known methods and devices for removing cotton leaves do not solve the problem of complex preparation of cotton bushes and cotton groves for harvesting raw cotton by cotton harvesting machines from opened boxes.

The purpose of the invention is to increase the processing efficiency, the quality of raw cotton and the yield of cotton, and to increase the efficiency of cotton-picking machines by additionally harvesting raw cotton from the opened boxes of the lower rus.

This goal is achieved by the method of preliminarily exposing the root collar, cutting the soil ridges on both sides of the stem, and affecting the bare root collar of the stem with steam-containing gases with a temperature not lower than 45 ° C. In addition, steam-containing gas is produced by evaporating hot water.

from the engine's internal combustion engine's cooling system with hot engine exhaust gases, which are mixed with the steam produced before exposure to the root neck of the stem.

The proposed device is equipped with cutting elements made in the form of a plowshare mounted on the frame behind the bush cutter and having a field board with a fleshy output channel for the release of steam-containing gas, and the source of hot gases is made in the form of an evaporation chamber communicated with the internal engine cooling system. Combustion of the vehicle and its exhaust manifold, the exhaust manifold and the evaporator chamber being connected by pipes to the cavity of the slot-like channels for the release of steam-containing gas a, and the cutting elements are installed in pairs along the longitudinal axis of the vehicle one behind the other with the possibility of moving in the vertical and horizontal planes, with the slit-like exit channels for releasing steam-containing gas of each pair of cutting elements facing each other.

Thus, a hot steam-containing gas is supplied to the root collar of cotton bushes freed from the ground, the source of which is the cooling and exhaust system of the engine of the tractor-machine aggregate, which results in damage to the cervical phloem.

The proposed method and device can improve the quality of raw cotton. This happens because with the defeat of the phloem of the root system on the leaves and on the earth part of the elements of the cotton bush, photosynthesis continues and assimilates are produced in them, which are redistributed in the plant. Acropetal transport of assimilates is formed, which promotes the acceleration of ripening of fruits and, thus, provides high quality of fibers and conditionality of seeds.

Cotton yields are increased by preserving unripe chickens and ripening of half-ripe fruits, as the assimilation of leaves from the leaves into the cotton root system is stopped, and plant respiration is not affected. there is no sudden cessation of photosynthesis, its stopping occurs through the mechanisms of overfeeding the leaves.

The efficiency of the cotton harvesting machines is enhanced by harvesting raw cotton from the lower open bolls.

therefore, cutting the ridges of the ground to open the root collar (releasing it from the soil) allows the vertical spindle cotton pickers to be lowered below the height of the lower open cotton bolls without disturbing the working gap of the aggregates, while at the same time ensuring that the earth does not move into the receiving chamber by the lower disks of the spindle rams, which, as a result, improves the quality of raw cotton.

The treatment of the root collar of a cotton bush with steam-containing hot gases and the use of a plow with a special field board, provided with a slot for supplying these gases, makes it possible to obtain a significant economic effect.

The method of preparing cotton bushes and cotton grooves is implemented as follows.

The root of the neck of cotton bushes is exposed (cleared from the ground) by cutting the ridges of the crown, and its phloem is affected by hot steam-containing gas. It also affects the mite, i.e. phloem portions consisting of sieve tubes. Assimilation from the leaves to the root system of cotton is discontinued, as the phloem and mite of the root collar are affected. However, photosynthesis continues on the leaves and on the green part of the elements of the cotton bush, and they produce assimilates that are redistributed in the plant. Gradually, overfeeding occurs, which inhibits photosynthesis. The acropetal transport of assimilates is formed, contributing to the acceleration of the ripening of fruits. Slowing down the photosynthesis of leaves leads to a gradual weakening of photosynthesis, as a result of which they fall into pieces. Cutting the ridges of the ridge allows you to collect high-grade raw cotton from the lower open boxes with vertical pin-pin harvesting machines, since the latter can be lowered below the expansion height of the lower opened boxes without disturbing the working gap of the apparatuses; in this case the earth is transferred to the receiving chamber by the lower disks of the spindle drums.

FIG. 1 shows the device, a general view; FIG. 2 is a section A-A in FIG. one; in fig. 3 shows a section BB in FIG. 2

The proposed device consists of a plow 1 having a special channel 2 (in the form of a slit) in the body of the field board, to which pipes 3 and 4 are connected. Valve

5 is installed on the wall of the unit in the water jacket of the fourth cylinder (not shown) and provided with a pipe 6 for supplying hot water from the water jacket of the last cylinder to the evaporation chamber 7. The evaporation chamber 7 is connected to the compartment 8 of the special exhaust manifold 9 and to the pipeline 3. Pipeline 4 is connected to the compartment 10 of the special exhaust manifold 9. The tank for water 11 is connected to the radiator 12 of the cooling system of the power unit 13 and is designed for continuous refueling of the cooling system of the power unit 13 by Water level with the help of float valve 14. With the help of the bracket 15, the stand 16 of the plow 1 is attached to the frame 17, which in turn is attached pivotally to the tractor 18 hinge. The plow also contains a screw blade 19, a bush beater 20 and plowshares 21. Top part of the bushes 20 is inclined in order to bend the cotton bushes in the opposite direction (Fig. 3). The plow bodies (left and right) 1, together with their bush cutters 20, are mounted on frame 17 with an offset by one processing step.

The device works as follows.

When the tractor 22 moves along the ridges with the plow bodies 1 lowered to the depth of the h ridges of the ridge, the bush cutters 20 bend down the cotton bushes and prevent them from getting into the plow body 1 operation area (Fig. 3). The cutting of part of the earth by the ridges of the ridge and the defeat of the phloem of the root collar is carried out in two stages on the right and left side (Fig. 2). Progressively moving the plow body 1 (both left and right), the ploughshare 21 cuts off the ridges of the pile and, at the same time, the root system of cotton bushes (the root of the neck is freed from the soil) and the hot steam-containing gas that flows through the channel of the field board 2 hits the phloem and bit of a bare root collar ..

Hot steam-containing gas is prepared by mixing the growing gas with hot exhaust gas in channel 2 of the field board, coming through pipelines 3 and 4 from the evaporation chamber 7 of the compartment 8 and compartment 10 of the special exhaust manifold 9 of the power plant 13.

The source of the steam-containing gas is the evaporation chamber 7, attached to the compartment 8 of the special exhaust manifold 9, into which hot water with a temperature of 90-100 ° C from the fourth cylinder water pipe (not shown) is continuously supplied through the valve 5, since the tube 6 valve 5 is connected to the evaporation chamber

7. The evaporating chamber 7 is connected to the compartment 8 of the special exhaust manifold 9 connected to the exhaust openings of the block of the third and fourth cylinders of the engine 13. The hot water coming through the tube 6 and the exhaust exhaust gas coming from the compartment 8 are found in the evaporative Chamber 7 and under the influence of hot (200-500 °) exhaust gas, hot water evaporates. The steam mixed with the partially cooled exhaust gas enters the pipeline 3. The source of hot gas is the power plant 13 (engine) of the machine-tractor unit. From the first and second cylinders, the exhaust gas enters the compartment 10 of the special exhaust manifold 9 connected to the exhaust ports of the cylinder block. Pipeline 4 is connected to compartment 10, Hot gas from compartment 10 through conduit 4 enters the channel 2 of the plow field board, made in the form of a slit, and further mixes with hot steam-containing gas flowing through conduit 3. A mixture of hot gas and steam-containing gas through the channel of the field board of the plow 2 is fed to the ground (bare) neck (right at the root of the plant) freed from the ground and hits it with phloem and mite.

Refueling the engine cooling system with water is carried out continuously from tank 11 through valve 14, equipped with a float, which occurs as the water level in the radiator of cooling system 12 decreases.

The process takes place continuously until the supply of water in the tank 11 is exhausted.

Claims (4)

Claim 1. The method of defoliation of cotton, which consists in exposing the biological structure of the green mass of cotton to an active medium, characterized in that, in order to increase the processing efficiency, the quality of raw cotton and cotton yields, the root collar is preliminarily bare, the soil ridges on both sides of the stem are cut on cages, and the stem root gases with a temperature not lower than 45 ° C are exposed on the bare root collar . 2. Method p.p. 1, characterized in that steam-containing gas is obtained by evaporating hot water from the cooling system of a vehicle's internal combustion engine with hot engine exhaust gases, which are mixed with the resulting steam before exposing the root neck of the stem. 3. A device for defoliation of cotton containing vehicle-mounted curler and 0 source of hot gases, characterized in that, in order to increase the efficiency of work, it is equipped with cutting elements made in the form of a plowshare mounted on the frame behind a bush beater and 5 having a field board with a slit-like outlet channel for the release of steam-containing gas, and the source of hot gases is made in the form of an evaporation chamber communicated with the engine cooling system of the vehicle’s internal combustion and with its exhaust manifold, the exhaust manifold and the evaporation chamber being connected with pipelines to the cavity slotted output channels for 5 release of steam-containing gas. 4. The device according to claim 3, characterized in that the cutting elements are installed in pairs along the longitudinal axis of the vehicle one after another with the possibility of movement in the vertical and horizontal planes, while the slit-like output channels for the release of steam-containing gas of each pair of cutting elements facing each other. five Fie.2