RU2169446C2 - Rotary cultivator - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: cultivator has frame, rotavator, carrier wheels, drive mechanism, control unit, rotavator rotational speed sensor, unit advancement speed sensor, whose outputs are connected to control unit. Cultivator is further provided with ridge former spring-loaded with respect to frame and provided with protective housings of adjustable height and width, soil tillage depth sensor whose output is connected to control unit output and to tractor suspender position control mechanism. Control mechanism electrical input is connected to control unit output. Such construction allows quality of soil tillage at multiple passes of rotary cultivator to be improved. Rotary cultivator is preferably used for interrow tillage of soil planted with potato grown by seedling method. EFFECT: increased efficiency and simplified construction. 2 dwg

Description

 The invention relates to the field of agriculture, in particular to row cultivating cultivators.

 Known milling cultivator for loosening (milling) of soil in the aisles KFK-2.8 (Agricultural machinery. Catalog. Volume 2. M. 1991), containing a frame, milling drum, comb, spring-loaded relative to the frame, support wheels, height-adjustable, drive mechanism working bodies, including cardan and transmission shafts, central and final drives.

 The disadvantage of this machine is the low quality of the soil treatment, due to the fact that it does not have the ability to change the speed of the working bodies depending on changes in the physicomechanical properties of the soil and the multiplicity of row-spacing treatments, as well as the inability to conduct row-spacing processing of potatoes grown by seedlings.

 Closest to the proposed device is a tillage machine (A.S. N 1107768 USSR).

 The machine contains a frame, a drive mechanism for the working bodies, support wheels, a drum, a speed sensor mounted on the driven wheel, a speed sensor for the drum, a control unit that compares these frequencies, the inputs of which are connected to the output of these sensors.

 The disadvantage of this machine is the low quality of the soil treatment, due to the fact that it does not have the ability to change the speed of the working bodies depending on changes in the physicomechanical properties of the soil and the multiplicity of row-spacing treatments, as well as the inability to conduct row-spacing processing of potatoes grown by seedlings.

 The objective of the invention is to improve the quality of soil cultivation with multiple passes of a row cultivating milling cultivator, as well as conducting inter-row cultivations of potatoes grown by seedlings.

 This task is achieved by the fact that a cultivating milling cultivator containing a frame, a drum, supporting wheels, a drive mechanism, a control unit, a speed sensor of a frezarab and a speed sensor of the unit, the outputs of which are connected to the control unit. The cultivator is equipped with a comb-forming machine spring-loaded relative to the frame, having protective covers adjustable in height and width, a soil cultivation depth sensor, the output of which is connected to the input of the control unit and the tractor linkage control mechanism, the electrical input of which is connected to the output of the control unit.

New significant features
1. The cultivating milling cultivator is equipped with a comb-forming machine spring-loaded relative to the frame, having protective casings that are adjustable in height and width.

 2. A cultivator has a soil tillage depth sensor connected to the control unit.

 3. The processing depth is controlled by the tractor linkage control mechanism, the electrical input of which is connected to the corresponding output of the control unit.

 These new essential features provide a technical result in all cases to which the requested amount of legal protection applies.

The technical result, consisting of:
a) in the possibility of inter-row treatments of potatoes grown by seedlings, this is achieved by installing protective covers of the required height in the comb-former for the specified width of the protective zone. Installation of protective covers prevents falling asleep of the potato growth point during inter-row treatments with a milling cultivator;
b) in improving the quality of soil cultivation is achieved by installing a sensor for the depth of tillage connected to the control unit. The required quality of soil treatment is ensured by maintaining a given degree of crumbling when changing the physicomechanical properties of the soil when the unit moves across the field. The degree of crumbling of the soil is supported by an automatic control system, which includes a speed sensor, a speed sensor, a soil tillage depth sensor, a tractor linkage position control mechanism and a control unit, the outputs of these sensors being connected to the input of the control unit, the output of which is connected to the corresponding input tractor position control mechanism. This allows you to maintain the required degree of crumbling of the soil due to the positional regulation of the depth of processing of the cultivator cutter.

 The proposed machine is illustrated in the drawing, where in FIG. 1 is a side view thereof, and FIG. 2 is a diagram of the formation of ridges.

 A milling drum 3 is mounted on a frame 1, supported by support wheels 2, and adjustable in height from the power take-off shaft through a drive mechanism, including cardan shafts 4 and 5, a central gearbox 6, a gearbox 7, a side gearbox 8. Behind a milling drum to the frame is articulated by a combing tool 9, spring-loaded relative to the frame 1 by springs 10. Inside each section of the combing machine 9, protective casings 11 are mounted, adjustable in height and width. The unit is raised and lowered by the tractor linkage position control mechanism 12. The following sensors are installed on the unit: speed sensor 13 cutters, for example, on the central gear 6, speed sensor 14 of the unit on the driven wheel of the tractor, depth sensor 15 of the soil 15 on the frame 1 cultivator. The outputs of these sensors are connected to the input of the control unit 16. The output of the control unit 16 is connected to the corresponding input of the linkage control mechanism of the tractor 12.

 The device operates as follows.

где ω - частота вращения фрезбарабана,
R - радиус фрезбарабана,
h - глубина обработки почвы,
k - передаточное отношение коробки передач,
υ - скорость вращения фрезбарабана.Before starting inter-row tillage, depending on the frequency of tillage, the depth of tillage and the soil and climatic conditions of the soil, the required parameters of the rotational speed of the drum and the speed of the unit are selected. Based on them, the thickness of the chip is calculated, at which no erosion-hazardous particles are formed, and the tolerance is set not its value (± 10%)

where ω is the frequency of rotation of the drum,
R is the radius of the drum,
h is the depth of tillage,
k is the gear ratio of the gearbox,
υ is the rotational speed of the drum.

Depending on the required chip thickness δ _{p, the} operator sets the appropriate gear ratio k on the gearbox 7. The gearbox gear ratio k to be set and the calculated chip thickness δ _p are entered into the memory of the control unit 15.

 In addition, depending on the duration of the growing season and the state of the plants, protective covers of a certain height are installed in the comb-former for the required width.

When moving across the field, the tractor power take-off shaft through the drive mechanism drives the tiller 3 of the cultivator. The working bodies (knives) of the milling drum 3 make milling of row spacings. Loosened soil with knives is discarded to comb 9, which forms a ridge with a given density. The density of the soil in the ridge is regulated by the compression ratio of the springs 10. The protective casing 11 prevents the complete falling asleep of potato plants. Adjusting the protective casing 11 in height allows you to pour the required amount of soil under the plant, depending on the processing tasks and the growing season. The width of the protective casing 11 is set in accordance with the width of the protective zone specified by the agrotechnical requirements. The sensors for the speed of movement 14 and the frequency of rotation 13 of the drum 3 record the speed of the unit υ (t) and the frequency of rotation of the drum n (t), respectively, and the depth sensor 15 registers the depth of tillage h (t) with an interval Δl every 10 cm of the path. All signals from the above sensors are sent to the control unit 16. Then, according to the program stored in the read-only memory block and the data from the sensors, the actual chip thickness δ _f is calculated by the expression 1. The actual chip thickness δ _f generated when the machine is operating is calculated, is made with an interval Δl. The obtained values are entered into the RAM block. After the aggregate passes 10 meters through, the statistical processing of the values of the actual chip thickness δ _{f is} performed and the obtained values are compared with the permissible values. In the event of a process violation (more than 30% of the values are outside the established tolerance), a corresponding signal is generated, coming from the control unit 16 to the electrical input of the tractor linkage control mechanism 12, which changes the tractor linkage in proportion to the received signal, thereby changing the soil cultivation depth . After adjusting the unit, the calculation procedure is repeated every 10 meters of the distance traveled.

Claims (1)

 A tilling milling cultivator comprising a frame, a drum, support wheels, a drive mechanism, a control unit, a rotational speed sensor of a drum and a speed sensor of the unit, the outputs of which are connected to a control unit, characterized in that the cultivator is equipped with a ridge former having spring-loaded relative to the frame and having protective casings, adjustable in height and width, by a sensor for the depth of tillage, the output of which is connected to the input of the control unit, and a mechanism for controlling the position of the tractor linkage, electrically whose input is connected to the output of the control unit.

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