RU217852U1 - Seedling plow - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to machines for digging seedlings, seedlings of fruit, berry, forest and ornamental crops. To reduce the energy intensity of the technological process of digging seedlings in a digging plow for seedlings, containing a frame 1, a stability knife 2, a hitch mechanism 3, a support wheel 4, a digging bracket 5 with a plowshare 6, made in a U-shape, rippers 7 and a mechanism 8 for creating vibrations on them, the cross section of the generatrix of the digging bracket 5 is made in the form of a logarithmic spiral with its orientation with a large curvature towards the plowshare 6.

Description

The utility model relates to agricultural engineering, in particular to machines for digging seedlings and seedlings of fruit, berry, forest and ornamental crops.

Known excavating mounted plow VPN-2 [Mechanization of work in horticulture / V.K. Kuteinikov, N.P. Losev, A.V. Chetvertakov and others - 2nd ed., revised. and additional - M.: Kolos, 1983. 319 s - p. 134], which is intended for digging up one- and two-year-old seedlings of fruit, berry and forest crops. The plow contains a frame on which a digging bracket is mounted, made in a U-shape with loosening plates bent upwards fixed in its rear part, a support wheel, a stability knife and a hitch.

The disadvantage of the known excavation plow is the high energy intensity of the technological process of digging seedlings.

Known digging machine (see RF patent No. 203564, 04/12/2021 - prototype), containing a frame, a stability knife, a hitch mechanism, a support wheel, a digging bracket with a plowshare, made in a U-shape, rippers and a mechanism for creating oscillations on them .

A significant disadvantage of this digging machine is the high energy intensity of tillage. This drawback is due to the fact that the generatrix of the digging bracket in cross section is a straight section directed at an angle to the plowshare. The formation movement along the working surface of the digging bracket occurs along a curvilinear trajectory. Due to their interaction, the formation is deformed, while the intensity of this deformation will not be uniform, which will lead to the appearance of its dynamic resistance, and as a result, an increase in the energy intensity of the process.

The technical result of the proposed utility model is to reduce the energy intensity of the technological process of digging seedlings.

The technical result is achieved by the fact that in the digging plow for seedlings, containing a frame and a stability knife installed on it, a hitch mechanism, a support wheel, a digging bracket with a plowshare made in a U-shape, rippers with a mechanism for creating vibrations on them, which is mounted on the frame, according to the utility model, the cross section of the generatrix of the digging bracket is made in the form of a logarithmic spiral, with its orientation with a large curvature towards the plowshare.

The novelty of the claimed technical result is due to the fact that due to the use of a digging bracket, with a cross section in the form of a section of a logarithmic spiral and its orientation with greater curvature towards the plowshare, the angle between the trajectory of the formation and the working surface of the bracket remains constant, i.e. the friction force between the formation and the working surface also does not change, which prevents the formation from braking, and, consequently, the appearance of its additional deformations, thereby reducing the energy intensity of the technological process.

The proposed utility model is industrially applicable and can be used for digging seedlings and seedlings of fruit, berry, forest and ornamental crops.

The essence of the proposed technical solution is illustrated by the drawing, where

figure 1 shows a plow for seedlings, front view;

figure 2 - excavation plow for seedlings, side view;

figure 3 - section A-A.

The digging plow for seedlings contains a frame 1 on which a stability knife 2 is installed, a hitch mechanism 3, a support wheel 4 and a digging bracket 5 with a plowshare 6. At the same time, the digging bracket 5 is U-shaped, and the cross section of its generatrix is a section of a logarithmic a spiral with its orientation with a large curvature towards the plowshare 6. At the rear of the digging bracket 5, rippers 7 are installed, connected to the mechanism 8, to create vibrations on them, which is mounted on the frame 1.

The excavation plow for seedlings works as follows.

Before starting work, the excavation plow for seedlings is aggregated using a linkage mechanism 3 with an energy source. During the working stroke, the mechanism 8 is turned on to create vibrations on the rippers 7, and the digging bracket 5 with the ploughshare 6 are buried in the soil. Ploughshare 6 pre-cuts a narrow layer of soil and directs it to the digging bracket 5. The digging bracket 5 cuts off the soil layer in the horizontal and vertical plane and moves it along its working surface. In the process of moving the soil layer along the working surface of the digging bracket 5 due to the execution of its cross section in the form of a section of a logarithmic spiral with its orientation with a large curvature towards the plowshare 6, its movement occurs at a constant angle of friction, thereby reducing the traction resistance of the digging bracket 5. Then the soil layer with the seedling moves to the rippers 7, which, due to the mechanism 8, make intense vibrations. As a result of fluctuations of the rippers 7, the soil layer is destroyed, and the connection of the root system with the soil is broken.

Claims (1)

A digging plow for seedlings, comprising a frame and a stability knife mounted on it, a hitch mechanism, a support wheel, a U-shaped digging bracket with a share, in the rear part of the digging bracket there are rippers with a mechanism for creating vibrations on them, which is mounted on the frame , characterized in that the cross section of the generatrix of the digging bracket is made in the form of a logarithmic spiral with its orientation with a large curvature towards the plowshare.

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