RU232212U1 - Digging plough - Google Patents

Abstract

The utility model relates to agriculture. An excavation plough comprises a frame on which a stability knife with two support plates mounted on it, a suspension mechanism, an undercutting bracket with a ploughshare made in a U-shape, rippers and a mechanism for creating vibrations on them are mounted. The technical result is a reduction in the energy intensity of performing the technological process. 2 fig.

Description

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

The excavation mounted plough VPN-2 is known [Mechanization of work in gardening / V.K. Kuteinikov, N.P. Losev, A.V. Chetvertakov et al. - 2nd edition, revised and enlarged. - Moscow: Kolos, 1983. 319 p. - p. 134], which is intended for excavation of one- and two-year-old seedlings of fruit, berry and forest crops. The plough contains a frame on which an undercutting bracket is mounted, made in a U-shape with upward-bent loosening plates fixed in its rear part, a support mechanism, a stability knife and a hitch.

The disadvantage of the well-known digging plow is the high energy consumption of the technological process of digging up seedlings.

A machine for digging up seedlings is known (see Russian patent No. 203564, 12.04.2021 - prototype), comprising a frame on which a stability knife, a suspension mechanism, a support mechanism, an undermining bracket with a ploughshare made in a U-shape, rippers and a mechanism for creating vibrations on them are installed.

A significant disadvantage of the said machine for digging up seedlings is the high energy consumption of the technological process of digging up seedlings. This disadvantage is due to the fact that a solid metal wheel with a large mass is used as a support mechanism, as a result of which the metal consumption of the structure and the energy consumption of the process increase.

The technical result of the proposed utility model is a reduction in the energy intensity of the technological process.

The technical result is achieved in that in a digging plough containing a frame on which a stability knife, a suspension mechanism, a support mechanism, an undercutting bracket with a ploughshare made in a U-shape, rippers and a mechanism for creating vibrations on them are installed, according to the utility model, two support plates are installed as a support mechanism, which are installed on the stability knife.

The novelty of the declared technical result is that by using support plates instead of a solid metal wheel, a reduction in the metal consumption of the structure is achieved, which will lead to a reduction in the energy consumption of the technological process.

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

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

Fig. 1 shows a digging plough, front view;

Fig. 2 - the same, top view.

The seedling digging plough comprises a frame 1 on which a stability knife 2, a suspension mechanism 3, a support mechanism 4 in the form of two support plates mounted on the stability knife, an undercut bracket 5 with a ploughshare 6 made in a U-shape, rippers 7, a mechanism for creating oscillations 8, and adjustment holes 9 are installed.

The support plates 4 are mounted on the side surfaces of the stability knife 2 using a bolted connection. The adjustment holes 9 allow the plant digging depth to be adjusted.

The digging plow works as follows.

Before starting work, the digging plough is aggregated with the power source using the mounting mechanism 3. During the working stroke, the mechanism 8 is switched on to create vibrations on the rippers 7, and the digging bracket 5 with the ploughshare 6 are deepened into the soil. The support mechanism 4, in the form of two support plates, rests on the soil and moves along its surface in the direction of the unit's movement, which, in turn, does not allow the digging bracket 5 to go deeper than the set depth. The ploughshare 6 preliminarily cuts a narrow layer of soil with the root system and directs it to the digging bracket 5. The digging bracket 5 cuts the soil layer in the horizontal and vertical plane and moves it along its working surface. Then the soil layer with the seedling is moved to the rippers 7, which, due to the mechanism for creating vibrations 8, perform intensive vibrations. As a result of vibrations of rippers 7, the soil layer is destroyed and the connection of the root system with the soil is disrupted. The support mechanism 4 in the form of two support plates can be installed at different heights using adjustment holes 9, which allows adjusting the penetration depth of the digging bracket 5.

Claims (1)

An excavation plough comprising a frame on which a stability knife, a suspension mechanism, a support mechanism, an undercut bracket with a ploughshare made in a U-shape, rippers and a mechanism for creating vibrations on them are installed, characterized in that two support plates are installed as a support mechanism, which are installed on the stability knife.