RU2048716C1 - Device for weeding of row crops - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: device has a contour-following member in the form of two discs mounted on vertical posts symmetrically with relation to a tool beam and rotating free on vertical posts. The discs are installed on axles inclined to the horizontal, towards the tool beam. The working members of the device are constituted by a system of plate fields equispaced radially around the disc circumference. Cutters located near the contour-following disc are parallel thereto while their end portions are bent vertically. The vertical posts are capable of moving up and down, right and left. EFFECT: improved design. 2 cl, 3 dwg

Description

 The invention relates to agricultural machinery, in particular, to tools for loosening the soil and destruction of weeds in the protective zones of row crops, for example, corn, sunflower, tomato, eggplant, cotton, tobacco, etc.

 A device is known that includes ridges with a copying wheel and a working body in the form of a hiller foot sprinkling weeds in the protection zone (I. Setting and adjusting sugar beet cultivation machines using industrial technology. USSR State Agro-Industry, M. 1987, Fig. 20). However, together with the soil, new weed seeds are also brought into the protective zone.

 A device is known that contains a four-link hinge, ridges with a copying element in the form of a wheel and a working element in the form of a 5-disk rotary battery (II. Prototype. Production of fodder beets using intensive technology using serial machines (recommendations), VIM, M. 1988, rice .23). A 5-disk battery works in plant protection zones. The disadvantages of this device are not always high-quality loosening of the soil and the destruction of weeds in protective zones. This is because the copying element (wheel) of the ridge and the 5-disk rotary battery move along different paths: the wheel in the row spacing, and the working body in the row area. Practically the working body does not copy the soil surface in the protective zone; it moves along the path of the wheel moving in the row-spacings.

 In the proposed device for weeding row crops, including a hinged four-link, ridges with copying and working elements, the copying element is made in the form of two, located on vertical racks, symmetrically with respect to the ridges of disks, freely rotating on axes fixed to vertical racks and mounted axially inclined to the horizontal plane moreover, the disks are inclined towards the ridge, and the working element represents a system of plate knives radially distributed uniformly around the circumference, with including in the disc blades parallel to it, and in the end portion bent vertically.

 The device also differs in that the vertical racks have the ability to move "up-down", "left-right."

 Figure 1 shows a device, side view; figure 2 is a rear view; figure 3 is a top view.

The device consists of a hinged four-link 1 (Fig. 1), a ridge 2 connected to it, to which a square rod 3 is attached. Vertical racks 5 of rectangular section are inserted into the side holders 4 mounted on the rod. To the bottom of the uprights is fixed axis 6 (Figure 2) inclined at an angle ^of 70.75 with the horizontal. On the axis 6, disks 7 are installed with the possibility of free rotation on sealed bearings. Lamellar knives 8 are radially fixed to the disks evenly around the circumference, while at the disk the knives are parallel to it, and in the end part 9 they are bent vertically. The length of the curved part is 30.40 mm. The number of knives is 6.9. The diameter of the blade with knives is 350.400 mm. Vertical racks can be moved both "up and down", so "left-right" and after moving are fixed with bolts with locknuts. Disks with knives are placed both opposite each other (figure 3), and with an offset relative to the ridge.

The operation of the devices is as follows. They are attached to the bar 10 of the cultivator at the rate of one device per row. With six-row sowing, six devices are put, with eight-row sowing eight, etc. For example, when processing tomatoes, three devices were used (three-row sowing). They begin processing when the seedlings are in the phase of two or three leaflets (pairs) and end when the habitus of the bushes does not allow them to be applied. Axis 6 is fixed to the lower part of the uprights at an angle ^of 75 to the horizontal plane. This ensures the inclination of the discs at an angle α = 90 75 15 degrees to the soil surface. Due to such a small angle, the discs on one side stably lie on the soil. This stability and stability is enhanced by the fact that each four-link with a bed are supported by two inclined discs, symmetrically covering a row of plants. When lowering the cultivator to the working position, the knives enter the soil. In this case, the end part of the knives drops no more than the sowing depth, that is, by hg 3.5 cm, due to the small inclination of the discs.

 In the process of movement of the unit, the discs 7, due to frictional properties and tilt, rotate on the axes 6. This is also facilitated by knives, which also perform the functions of tillers. The end parts of the knives move along a path close to the cycloid, its speed at the stems 11 (on the row line) is zero, which ensures the safety of plants even when the knives come into contact with them. This is also facilitated by the fact that the end part of the knives is bent vertically. During operation, it can even rest on the stem without causing damage. Between a knife and a stalk there is always an absorbing layer of soil. From contact with the stem, a loosely mounted disc rotates by “stepping” the stem. If when the end part of the knives is near the row, it has zero speed, then when entering the soil and leaving, the speed is sufficient for active loosening and combing of weeds. Weeds are especially effectively weeded at the seedling stage, and “white threads”. Even if the knife does not touch them, due to the deformation of the soil, the roots break, which leads to the death of weeds. But there are no roots of the cultivated plant in the area where the knives work, they are located lower (since the knife goes above the depth of sowing), so there is no negative effect on them.

 This arrangement of copying disk elements and working knives ensures stable, precise depth tillage, without gaps and excessive penetration. If in the known devices the copying wheels go between the rows and the working bodies are in the row area, then in this device the paths of the copying and working elements are close, they are in the protective zones of the row. The four-link provides parallel movement of the disks in a horizontal plane. When cultivated plants, the small end of the knives is located at a distance of 1.3 cm from the row, and as the size of the bush increases, the diameter of the stem increases, this distance is made equal to zero, i.e. one hundred percent processing and weeding of rows is in progress. The device processes two protective zones at once: the left 3L and the right 3p. With the increase in the size of the bushes, the vertical posts 5 are lowered down and shifted along the square rod to the sides, moving away from the ridge. Processing is carried out until the bushes, growing, do not cover the protective zones with their crown. Without access to light, the activity of weed growth, in this case, decreases sharply.

 The use of the device allows high-quality weeding immediately in a row, that is, two protective zones. Eradication of weeds by 95.98% is ensured. An active effect on the soil ensures its loosening and the creation of a mulching layer in the row zone. And this is the conservation of moisture, the elimination of crust formation, improved aeration, which is especially important in the initial period of plant development.

Claims (2)

 1. A device for weeding pasture crops, containing a four-link articulated ring, to which a ridger with copying and working elements is attached, characterized in that the copying element is made in the form of two disks placed symmetrically relative to the ridges, each of which is mounted with the possibility of free rotation on a separate axis, located obliquely to the horizontal plane and fixed rigidly on the corresponding vertical rack, and the vertical racks of both disks are rigidly connected to the bed and each ck is inclined to the latter, and the working elements are made in the form of groups of radially directed plate knives fixed on the disks, arranged uniformly around the circumference of the disks of the copying elements, with each knife near the disk oriented parallel to the plane of this disk and curved vertically at its end direction.  2. The device according to claim 1, characterized in that the vertical racks of the copying element are mounted with the ability to adjust their position in the up-down and left-right directions.

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