RU2305923C2 - Root undercutting apparatus - Google Patents

Abstract

FIELD: agriculture, in particular, technique for undercutting of roots of, for example, vegetable crop seedlings.

SUBSTANCE: apparatus has frame, central column and two side columns connected with one another through flexible undercutting member. Side columns are mounted on frame for longitudinal displacement and central column is positioned for longitudinal and transverse displacement.

EFFECT: increased efficiency of root undercutting process owing to providing of constant undercutting depth throughout the entire width of ridge, spatial stability of undercut plants, and reduced plant losses at soil portions where working tool penetrates into soil or is withdrawn from soil.

3 cl, 3 dwg

Description

The invention relates to agriculture, in particular to devices for cutting roots, for example for seedlings of vegetable crops.

Known devices for trimming the roots, made in the form of one-sided (razors) or lancet flat-cutting paws, mounted by means of individual racks on the frame of the machine (Handbook of the designer of agricultural machines. / Ed. By Candidate of Technical Sciences M.I. Kletskina. T.2, M., Mechanical Engineering, 1967, pp. 165-169). The cutting working bodies of these devices (paws) are designed for cutting weeds when displacement and turning of the soil is not allowed, and can be used when cutting roots of seedlings in the technological process of its cultivation.

The disadvantage of these cutting working bodies of these devices when pruning the roots of seedlings, in particular vegetable crops, is that, working at a shallow depth (4-6 cm) and the relatively loose soil horizon of greenhouse soils (0.5-0.9 g / cm ³ ), they, moving in the rows between the cultivated seedlings, cut the standing rows. In this case, under the combined action of cutting working bodies (paws) and racks, the plants shift relative to the initial coordinates and lose their spatial orientation, which is facilitated by the significant mass of the seedling leaf apparatus and reduced seedling stability in loose soil after pruning by the paw and disturbance of the soil-root monolith of the aisle device rack. This requires further manual setting of fallen or bent plants, which is associated with additional costs. In addition, during the penetration into the soil of cutting working bodies (paws) and their exit from it, including for technical or technological reasons in any part of the processed ridge, healthy seedlings are destroyed by cutting working bodies (paws) in the areas of entry and exit , which leads to irreparable loss of seedlings. This is due to the fact that the cutting working bodies (paws) have a significant surface area in contact with plants and soil, which leads, even when the working bodies are raised vertically, for example, when the unit is stopped, to remove a large amount of seedlings from the soil. Moreover, their next deepening into the soil is possible only with a moving unit, which additionally increases the number of obviously destroyed plants at the deepening site.

A number of technical solutions are also known for trimming backstage roots (SU 701557 A, 12/10/1979), containing racks in the form of slithereries and a cutting element in the form of a knife plate, steam treatment (SU 94730 A, 1952), root trimming in forest nurseries (SU 1542437 A1, 02.15.1990) or weeding weeds between rows of crops (SU 1142010 A, 02.28.1985) containing racks interconnected by a flexible pruning element, in which the issue of pruning the roots of an individual row of plants is technically solved by a flexible pruning element , and a wider olos located between cultivated plants or occupied by several rows of plants.

A common drawback of these technical solutions is the complexity of the design, caused by the peculiarities of the technological processes performed by them and the impossibility of direct application in specific growing conditions of seedlings (processing depth of 4-6 cm in the soil horizon with a density of 0.5-0.9 g / cm ³ ).

Moreover, in the device according to SU 701557 A, in addition to significantly destroying seedlings at the entry and exit sites, the use of a thin blade blade sheet violates the stability of the depth of its travel along the working width. This phenomenon increases sharply with increasing width of the cultivated ridge and heterogeneity of the soil-root layer.

The closest to the claimed technical solution is a device according to SU 1142010 A. However, it is structurally made with the purpose of combing weeds and basically can not be used for cutting roots in the technological process of forming the root system of seedlings.

The objective of the proposed technical solution is to increase the efficiency of the root pruning process by ensuring the constancy of the specified pruning depth along the ridge width, the spatial stability of the pruned plants, and reducing plant losses at the sites of entry and exit of the working body into the soil.

The problem is solved in that in a device containing a central and two side racks connected by a flexible cutting element, the side racks are mounted on the frame with the possibility of longitudinal movement, and the central one - longitudinal and transverse.

The claimed technical solution differs from the prototype in that the side racks are mounted on the frame with the possibility of longitudinal movement, and the central one is longitudinal and transverse.

The claimed technical solution is illustrated by drawings.

Figure 1 shows a device for cutting the roots of seedlings of vegetable crops, front view, figure 2 is a top view, figure 3 is a side view.

The device for trimming the roots of seedlings consists of a frame 1, two side 2 and central 3 racks, a flexible pruning element 4 and a tension mechanism for a flexible pruning element 5. The lower part of the racks 2 and 3 is made in the form of cuttings knives for cutting the soil layer and the root system of seedlings in vertical plane, and flexible pruning element 4 - in the form of a cable or string for trimming the root system of seedlings in the horizontal plane. Side racks 2 are mounted on the frame 1 of the device with the possibility of longitudinal movement relative to the frame using brackets 8 and are structurally spaced along the width of the device, equal to or greater than the width of the processed ridge. The Central rack 3 is made with the possibility of longitudinal and transverse movement relative to the frame using the bracket 6 to change the cutting angle and pre-tension the flexible cutting element 4.

Changing the cutting angle of the flexible cutting element 4 is carried out by moving the central rack 3 in the adjustment holes of the bracket 6 relative to the frame 1 in the longitudinal plane, and the final tension of the flexible cutting element is done by the tension mechanism 5, which can be made in the form of a screw pair. In the case when it is necessary to set different cutting angles for both halves of the flexible cutting element 4, for example, when conducting comparative studies of the influence of the cutting angle on the quality of root cutting, the bracket 6 for attaching the central rack can be moved in the transverse direction along the frame beam, for example, by moving the brackets 7. The same effect can be achieved by changing the position of the side posts 2 relative to the frame 1 by rearranging the brackets 8, for example, through the adjustment holes. Changing the length of the flexible cutting element in the process of adjusting the cutting angle (and permutation of the uprights) is carried out by freely moving it relative to the uprights, for example, constructively skipping through the technological holes 9 or grooves 10, which are performed for better self-cleaning of the string in the lower front cutting edge of the uprights.

The device operates as follows. At the beginning of the ridge, the device is buried in the soil to a depth of 4-10 cm, depending on the phases of seedling development. In this case, the side posts 2 are guided along the edges of the processed ridge, and the central post 3 - in the center of its middle row. While moving the device along the ridge, vertical racks cut the soil and the root system of seedlings in a vertical plane along the edges and in the middle of the processed ridge with cutting knives of its lower part, and a flexible cutting element 4 cuts the soil layer and the root system of seedlings in the horizontal plane. By trimming the entire surface along the width of the half-ridge (or ridge) as a whole (under conditions of a small depth of processing and density of the seedling mixture), the plants undergoing cutting are kept in a constant position relative to each other and their vertical stability in a single monolith of the trimmed soil-root tape.

During the penetration and exit from the soil of the flexible cutting element 4, losses of seedlings are minimized due to the insignificant contact area of the element 4 with plants at the sites of entry and exit from the soil. In this case, deepening and exit can be carried out strictly in the vertical plane with the unit stopped, minimizing the loss of damaged seedlings to almost zero. The minimum cross-sectional area of the flexible cutting device provides high stability of a given cutting depth across the entire width of the device.

Claims (3)

1. A device for trimming the roots, containing a frame, a Central and two side racks connected by a flexible cutting element, characterized in that the side racks are mounted on the frame with the possibility of longitudinal and central - with the possibility of longitudinal and transverse movements. 2. The device according to claim 1, characterized in that it is equipped with a bracket for moving the Central rack and the tension mechanism of the flexible cutting element, made, for example, in the form of a screw pair. 3. The device according to claim 1, characterized in that the lower part of the racks is made in the form of cuttings knives and is equipped with holes or grooves for moving the flexible cutting element.

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