UA126634C2 - GARDENING MACHINE COAT - Google Patents

Abstract

The coulter of the garden planter consists of two concave sidewalls with cutting blades located at an angle to each other. The sidewalls are made in the form of two cylindrical surfaces formed along the guides in the form of arcs with a radius close to the maximum depth of planting (0.3-0.4 m), the intersections of which form an angle of 70°-90° . The coulter is equipped with two extensions located behind the side walls and connected to them, the distance between which corresponds to the required width of the planting furrow b, the cutting blades of the side walls are elongated and protrude beyond the planes of the extensions by the amount a=0.5...0.8b. Technical result: the use of the proposed coulter will make it possible to perform the technological operation with higher quality and with lower energy consumption, to increase the reliability and quality of the work of the garden planting machine in various conditions of its operation.

Description

The invention belongs to the field of agricultural engineering, in particular, tools for forming planting furrows, and can be used in machines for planting saplings and seedlings of fruit trees and other trees and shrubs with open and closed root systems.

The main working body of the garden planter is a device for forming a furrow (slit) in the soil for placing the root system of plants in it during the planting process.

Furrow formers can be of both active and passive type. The latter are usually called coulters.

The most common coulters have a wedge-shaped design and sink into the soil, mainly under the influence of the weight of the machine itself.

A well-known forest planting machine for planting seedlings and saplings on cuttings (patent KO 2184437 АО1С 11/02; application 20.12.2000; publ. 10.07.2002, Bull. Mo 19), which has a wedge-shaped coulter and two sections of the frame.

The disadvantage is that the formation of a planting furrow (gap) by coulters of this design occurs by moving the soil in both directions, which leads to an increase in its density. As a result, the pressure of the soil on the working surfaces of the coulter significantly increases, which leads to an increase in its resistance, and therefore to an increase in energy consumption for the technological operation.

The closest in essence to the proposed technical solution is the coulter of the forest planting machine (a.s. 1586562 of the USSR, IPC 5 AO1S 11/02, application 01.09.1987; publ. 23.08.1990, Bull. Mo

Z1Y, which has two working surfaces in the form of two sidewalls located at an angle to each other.

From the illustrations given in the author's certificate, it can be seen that the presented working body is actually made in the form of the same wedge, which is formed by two concave sidewalls placed at an acute angle, and therefore it also has a disadvantage characteristic of this type of working bodies, which ultimately leads to growth resistance of the compacted soil and, as a result, an increase in energy consumption for technological operations.

The invention is based on the task of improving the design of the coulter of the garden planting machine by making its working surfaces in the form of cylindroids with 3 elongated blades to ensure a decrease in energy consumption for the technological operation, increase

On the reliability and quality of work of the garden planting machine in different conditions of its operation.

The task is solved by the fact that the working surfaces (sides) of the coulter are made in the form of two cylindroids with a radius close to the maximum planting depth of seedlings (0.3-0.4 m), and are located at an angle of "4 in between 70-90".

The cutting blades of the sidewalls are elongated and protrude like wings beyond the planes of the coulter extensions by the amount of a-0.5...0.8Ф5, where B is the distance between the coulter extensions (the width of the planting furrow).

Thanks to this design, the sidewalls of the coulter, unlike wedge-shaped ones, do not compress the soil, moving it in both directions, but, by cutting and lifting the layers, open it up to the formation of a planting furrow, which requires much less effort and, therefore, energy resources.

A schematic representation of the opener is shown in fig. 1 (side view) and fig. 2 (top view).

The coulter of the seeding machine consists of two concave sidewalls 1 (fig. 2) with cutting blades located at an angle to each other. The sidewalls are made in the form of two cylindrical surfaces, formed along the guides in the form of arcs with a radius close to the maximum depth of planting (0.3-0.4 m), the intersections of which form an angle a in the range of 70-907. The coulter is equipped with two extensions 2 located behind the side walls and connected to them (Fig. 1), the distance between which corresponds to the required width of the planting furrow p, and the cutting blades of the side walls are elongated and in the form of wings 4 protrude beyond the planes of the extensions by the amount a - 0, 5...0.80. All components of the opener are connected to the rack 3, which is part of the attachment mechanism by means of which the opener is attached to the frame of the machine.

During the execution of the technological process, the two sides of the coulter form a planting furrow, cutting and opening the soil layers. In order for the planter to place the roots of the seedling in the furrow during the planting process, the extension of the coulter keeps the latter open for a certain time. Behind the extensions, the soil, freed, returns to its previous position, covering the plant roots with a loose fraction of sufficient moisture from the lower layers of the furrow, thereby creating favorable conditions for plant growth and development.

The design of the opener allows you to use it both on light sandy and heavy loamy soils, and, if necessary, without prior deep plowing, which is a necessary condition for preparing the area when planting seedlings with machines with wedge-shaped 60 working bodies.

The use of the proposed device will allow to perform a technological operation using less energy-intensive tractors due to the reduction of traction resistance, which, in turn, will significantly reduce the material costs associated with this process.

In addition, the specified positive effects will contribute to increasing the reliability of the garden planter as a whole and the quality of its work in various operating conditions.

Claims (2)

FORMULA OF THE INVENTION 1. The coulter of the seeding machine, consisting of two concave sidewalls with 10 cutting blades, located at an angle to each other, which is distinguished by the fact that the sidewalls are made in the form of two cylindrical surfaces formed along the guides in the form of arcs with a radius close to of the maximum depth of planting (0.3-0.4 m), the generators of which, intersecting, form an angle a in the range of 707-907. 2. bThe coulter according to claim 1, which differs in that it is equipped with two extensions located behind 15 sidewalls and connected to them, the distance between which corresponds to the required width of the planting furrow B, the cutting blades of the sidewalls are elongated and protrude beyond the planes of the extensions by the amount of a-0 .5...0.86 r. I that E and about Fig. th spilled Zh Her. ze se - Ki and Fig 2