CZ303293B6 - Elastic standard of soil cultivation agricultural machine - Google Patents

Abstract

The invented elastic standard of soil cultivation agricultural machine is characterized in that the elastic standard (3) upper end is attached to a base frame (1), while the elastic standard (3) lower end is provided with a working implement (7). In its upper section, said elastic standard (3) is formed by at least two threads (8), whereby a positive stop (4) is located between the threads (8) and the working implement (7). Said positive stop (4) is formed by a lower arresting stop (5) and a side guidance (6). In its bottom dead center, the elastic standard (3) of the present invention is vertically spring loaded with a prestress in the range of 500 to 10 000 Newtons.

Description

Flexible tines of agricultural tillage machines

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a flexible tine of an agricultural tillage machine.

BACKGROUND OF THE INVENTION

The agricultural soil tillage equipment consists of a set of individual working members attached to the machine frame. So far, two solutions for the suspension of working machines of agricultural machines are known, namely suspension by so-called elastic tines or by so-called non-stop protection.

BACKGROUND OF THE INVENTION [0002] In particular, the technical solution shown in EP 0 453 420 A is that the elastic shell is made up of a different profile made of spring steel which is firmly screwed to the machine frame, further formed by one or two threads. is terminated by its own working organ, ie a blade or disc. This flexible shell design is simple to manufacture, easy to mount on the machine frame and low maintenance-free2020.

Further, the prior art is represented by the technical solution contained in U.S. Pat. No. 4,086,965 A, DE 1 457 693 B, US 4 177 865 A and US 1 013 710 A.

The disadvantage of this design is that in the rest state (before the coulter or disc penetrates the soil), the flexible tine is free of any pre-stressing and is always subject to partial deflection in the direction of the applied force when working the soil. The deflection is directly proportional to the magnitude of the applied force, that is, the greater the applied force, the greater the deflection of the resilient shell respectively. radical or disk. In practice, this will result in different soil tillage depths of the individual flexible tines (coulters, discs) and their oscillations in the soil, which is undesirable in economic terms.

Another disadvantage of this arrangement is seen in the fact that when the so-called belay stroke is applied when striking a stone or other solid obstacle, the force acting on the coulter or the disc itself will be greatly increased and even completely damaged. For this reason, the use of flexible tines is considerably limited or eliminated in stony soil conditions.

Non-Stop locking consists of a fixed tine with a coulter or disc, which is attached to the machine frame in a rotary manner, ie by means of a pin and bushing. In the initial position, the rigid shell is pressed by a spring with a preset preload. This means that when the machine is at rest, the coulter or disc is firmly “held” in the ground position and its deflection in the soil only occurs when it hits a stone or other solid obstacle. The magnitude of the deflection at the belaying stroke is sufficient and the increase in force acting on the coulter or disc is unaffected by their damage.

The disadvantage of this design is seen in that the pivoting fastening of the tine to the machine frame is considerably more complicated, more expensive to manufacture, heavier and difficult to operate with the need for frequent lubrication.

A further disadvantage of this arrangement is seen in the lower service life of the pin and bushing and the higher costs of eventual machine repairs.

SUMMARY OF THE INVENTION

These drawbacks are largely overcome by the flexible tine of the agricultural tillage machine, formed by the upper end of the flexible tine being adapted to be attached to the base frame, while the lower end of the flexible tine is adapted to attach the working tool, the upper tine being at least in accordance with the present invention, wherein a fixed stop formed by a lower stop and a lateral guide is provided between the threads and the tool, the lateral guide being formed by a rectangular or rectangular profile of abrasion-resistant material, the resilient sleeve being at the bottom dead center vertically preloaded with a prestress from 500 to 10,000 Newton.

This design of the flexible tine is simple to manufacture, easy to mount on the machine frame and maintenance-free, so-called maintenance-free, and does not show different soil tillage depths of the individual tines (rakes and discs) and their oscillation in the soil. .

A further advantage of this design is seen in that fixing the flexible sleeve to the machine frame is substantially simpler and less expensive to manufacture, while avoiding the need for frequent lubrication.

A further advantage of this arrangement is seen in the lower cost of possible repairs.

A further advantage of this design is seen in the fact that after crossing a solid obstacle, the flexible tine returns to its original state and the machine can work safely without damage even in stony soil conditions.

For proper operation it is advantageous that the lateral guide is formed by a square or rectangular profile of abrasion-resistant material, that the working tool is formed by a freely rotatable disc or blade.

Overview of the drawings

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows a preloaded elastic bar arrangement with a freely rotatable disc, and FIG. 2 shows a preloaded elastic bar arrangement with a coulter bottom end. .

DETAILED DESCRIPTION OF THE INVENTION

1 and 2 is formed such that the upper end of the flexible tine 3 is attached to the base frame 1, while the lower end of the flexible tine 3 is provided with a working tool 7. The working tool 7 is formed by a freely rotatable disc or coulter. The elastic sleeve 3 is formed in the upper part by at least two threads 8, with a fixed stop 4 formed by the lower stop 5 and the lateral guide between the threads 8 and the working tool 7.

6. The elastic shell 3 is vertically biased at a lower dead center with a bias of 500 to 10,000 Newton. The lateral guide 6 is formed by a square or rectangular profile of abrasion-resistant material.

The working unit 2 is designed so that the flexible tine 3 with a bias of 500 to 10,000 Newton in the vertical direction is screwed to the base frame 1, the lateral guide 6 restricting the flexible tine 3 the lateral movement caused by the working tool 7 preferably formed by the rotary disc

The working units 2 are arranged in at least two rows by means of the base frame 1, thereby forming a self-working soil tillage machine.

When working the agricultural machine with the working units 2 according to the state of the art, the working tools 7, preferably formed by discs or coulters, move in the soil at a predetermined working depth, causing crumbling and loosening of the soil. Due to the preload of the flexible tines 3 and the fixed stops 4, it is guaranteed that the working tools 7, preferably formed by rotating discs or coulters, do not oscillate in the soil and that the soil profile is processed to the same depth throughout the machine. When the swivel disc or coulter moves onto a solid obstacle in the soil (usually a stone), the flexible tine 3 is also deflected in the vertical direction. After crossing a solid obstacle, the flexible tine 3 returns to its original condition and the machine can work safely without damage even in stony soil conditions.

These embodiments are merely exemplary of solutions that can be implemented in a variety of conduits. Said particular constructional and functional design should not be interpreted as limiting, but as representing the basis for utilizing the present technical solution in virtually any detailed construction.

Industrial applicability

The flexible tine with a pre-stressed agricultural tillage machine is industrially usable for quality processing of all agricultural soils.

Claims (1)

An elastic tine of an agricultural tillage machine, characterized in that the upper end of the elastic tine (3) is adapted to be attached to the base frame (1), while the lower end of the flexible tine (3) is adapted to attach the working tool (7), wherein the elastic shell (3) is formed in the upper part by at least two threads (8), characterized in that between the threads (8) and the working tool (7) there is a fixed stop (4) formed by a lower stop (5) and a side guide (6), the lateral guide (6) being formed by a rectangular or rectangular profile of abrasion-resistant material, the resilient skirt (3) being vertically biased at the bottom dead center with a bias of 500 to 10,000 Newton.