RU2349065C1 - Soil tillage device - Google Patents

Abstract

FIELD: agricultural industry.

SUBSTANCE: soil tillage device of the present invention comprises two hub-mounted disks positioned along an outside diameter of said hub in the form of alternating projections and grooves furnished with inclined peripheral slots. The aforesaid slots house segmented blades having a trapezoidal cross section. The slots are positioned close to the front end in the rotation direction in such a manner that the full width of a blade backplane fits into an inclined slot. The segmented blade plane front end protrudes by the amount that is in a radial projection equal to the maximum blade-cut soil layer thickness. The said segmented blades are fastened by means of countersunk head bolts in the direction from the side of segmented blade plane front end to backrest rear end of inclined slots of each disc.

EFFECT: lowered power and metal consumption; reduced time required for reblading.

2 cl, 1 dwg

Description

The invention relates to agricultural machinery, in particular to milling working bodies for strip tillage.

Known milling working body for strip tillage, consisting of two fixed on the hub and made on the outer diameter in the form of alternating protrusions and cutouts of disks on which L-shaped knives are mounted, the knives being placed on the outer side of the protrusions, and the front one in the direction of rotation the edge of the stand of each knife in the area of its immersion in the soil protrudes forward or coincides with the front edge of the protrusion of the disk. The disks are mounted on the hub in such a way that the protrusions of one of the disks are located opposite the notches of the other (see RF patent No. 2233052, IPC ⁷ А01В 33/10, 2004).

The disadvantage of this design of the milling working body is the use of L-shaped knives made of expensive wear-resistant steels, the cantilever fastening of which leads to high metal consumption and complex shape, i.e. high cost. In addition, due to the cantilever fastening of L-shaped knives, their width allows you to install only a limited number of knives on the disks, which requires to increase its rotation frequency to maintain the necessary degree of crushing of the soil, which negatively affects the energy consumption of milling.

Closest to the technical solution to the present invention is a tillage milling drum, consisting of split discs mounted on a shaft with inclined grooves on their periphery, in which lamellar knives having a trapezoidal cross section are installed. Moreover, lamellar knives at both ends have a notch on the occipital side of the knife, and on the front side there is a protrusion that, when assembling the milling drum, enters the corresponding slot in the inclined disk groove (see AS USSR No. 1140694, MKI ⁴ А01В 33/02, 1985).

The disadvantage of this design of the milling working body is the high energy consumption for tillage, since when milling the soil, the outer part of the disks located in front of the plate knives is immersed to the thickness of the soil shavings in the untreated soil of the bottom of the strip and is forced to cut a groove in it. In addition, the design complexity of both plate knives and split discs significantly increases their metal consumption and production cost, and the inability to replace one knife without disassembling the entire drum increases the repair time.

The invention is aimed at solving the following problem: to reduce energy consumption for milling soil, as well as to reduce the metal consumption of plate knives of the milling working body and the time to replace them.

The problem is solved due to the fact that the milling working body for strip tillage, consisting of two discs mounted on the hub, made with inclined grooves on the periphery, in which plate knives are installed, having a trapezoid shape in cross section, according to the invention, the discs are made according to the outer diameter in the form of alternating protrusions and cuts and have inclined grooves that are located at the beginning, in the direction of rotation, of the maximum radius of each protrusion, so that the occipital plane the speed of the plate knife enters the inclined groove over the entire width of the knife, and its front working plane protrudes from the inclined groove by a value in radial projection equal to the largest thickness of soil shavings cut by the plate knife. In this case, the plate knives are fastened with countersunk screws from the front working plane of the plate knives to the end surface of the supporting wall of the inclined grooves of each of the disks.

During the work of the milling working body for strip tillage, lamellar knives installed in the inclined grooves of the discs process the strip of soil. The front edge of the knives cuts off soil shavings along the entire width of the strip, ensuring high-quality formation of the bottom of the strip. Due to the fact that the front working plane of the plate knife protrudes from the inclined groove by an amount in radial projection equal to the thickness of the soil shavings cut by the plate knife, the disks of the milling working body do not come into contact with untreated soil during milling, which ensures minimal energy consumption.

When moving along the working plane of the knives, the soil is crushed, partially captured by the knife and discarded. Departure of the front working plane of the plate knife from the inclined groove by an amount equal to the thickness of the soil shavings, when the knife is supported from the side of its occipital plane, makes it possible to produce plate knives with the smallest width and thickness. Reducing the width of the knives reduces the rejection of the soil by the milling working body, and a decrease in thickness reduces the resistance of the soil when cutting soil chips. This reduces the energy consumption for milling and reduces the metal consumption of plate knives.

In addition, with the same size of the milling working bodies, this allows you to place a larger number of plate knives on the disks, thereby ensuring the thickness of the soil shavings necessary for high-quality crushing at a lower peripheral speed, which also reduces the energy consumption for milling.

The combination of the above existing features provides a reduction in energy consumption for milling soil and metal consumption of plate knives of a milling working body.

Reducing the repair time required to replace the blade knives is ensured by the fact that the knives are fastened with countersunk screws from the front working plane of the blade knives to the end surface of the supporting wall of the inclined grooves of each of the disks, which allows you to change broken or worn blade knives individually, not while disassembling the milling working body as a whole.

Thus, the set of essential features, taking into account the particular advantageous form of constructive fastening of plate knives, will lead to the preferred form of milling working body for strip tillage, which will reduce energy costs for milling soil, reduce the metal consumption of plate knives of the milling working body and the time to replace them.

The drawing shows a milling working body for strip tillage.

Milling working body for strip tillage consists of two disks 2 rigidly fixed on the hub 1, which are made on the outer diameter in the form of alternating protrusions and cuts.

Lamellar knives 3, having a trapezoid shape in cross section, are installed in the inclined grooves of the disks 2, which are located at the beginning, in the direction of rotation, of the maximum radius of each protrusion. In this case, the inclined grooves are made in such a way that the occipital plane of the plate knife enters it over the entire width of the knife, and the front working part of the plane of the plate knife protrudes from it by an amount in radial projection equal to the largest thickness of soil shavings cut by the plate knife. Plate knives 3 are mounted in inclined grooves with screws 4 with countersunk heads from the front working plane of the plate knives to the end surface of the supporting wall of the inclined grooves of each of the disks 2.

Milling working body for strip tillage works as follows.

When the milling working body is rotated for strip tillage with an angular velocity ω, the blade knives 3 installed in the inclined grooves of the discs 2 milling the strip of soil. The front working plane of the knives cuts off soil shavings along the entire width of the strip, ensuring high-quality formation of the bottom of the strip. In this case, the installation of plate knives 3, in which the front working plane of the plate knife protrudes from the inclined groove by an amount in radial projection equal to the largest thickness of soil shavings cut by the plate knife, avoids rotation of the disks 2 in the untreated soil, and also transfers part of the load perceived blade knives, when milling the soil on the supporting wall of the inclined grooves of the disks 2.

The fastening of the plate knives 3 by means of screws 4 with countersunk heads from the front working plane of the plate knives to the end surface of the support wall of the inclined grooves of each of the disks 2 reduces the time for replacing broken or worn plate knives, since it is not necessary to completely disassemble the milling tool.

Thus, the use of a milling working body for strip tillage allows to reduce the energy consumption for milling the soil, to reduce the metal consumption of plate knives of the milling working body and the time to replace them.

Claims (2)

1. Milling working body for strip tillage, consisting of two disks fixed on the hub, made with inclined grooves on the periphery, in which lamellar knives are installed, having a trapezoidal cross-section, characterized in that the disks are made on the outer diameter in the form of alternating protrusions and cutouts and have inclined grooves that are located at the beginning, in the direction of rotation, of the maximum radius of each protrusion, so that the occipital plane of the blade knife enters the inclined groove the entire width but a, a front working part of the knife plate plane extends from the inclined groove by an amount equal to the greatest thickness of the radial projection soil chip sawed plate knife. 2. Milling working body for strip tillage according to claim 1, characterized in that the plate knives are mounted with countersunk screws from the front working plane of the plate knives to the end surface of the supporting wall of the inclined grooves of each of the disks.