RU93202U1 - DEVICE FOR PRESOWING SOIL TREATMENT - Google Patents

Abstract

 1. A device for pre-sowing tillage, containing sequentially mounted on at least one frame working bodies in the form of paws and / or disks with the possibility of raising and lowering them relative to the frame when faced with an obstacle provided by at least one main elastic an element mounted on one side of the oscillation axis between and / or above the frame and the working body, characterized in that it contains at least one rotary mechanism associated with at least one additional elastic element, laid on the other side of the axis of oscillation of the working body between and / or above the frame and the working body. ! 2. The device according to claim 1, characterized in that the elastic elements are made in the form of at least one plate located on both sides of the axis of oscillation, while the part of the elastic element located on the side of the working body is the main elastic element, and the part of the elastic element located on the opposite side from the axis of oscillation is an additional elastic element.

Description

The utility model relates to agricultural engineering and is intended for surface tillage in the pre-sowing period of growing crops and tree seedlings.

Known harrow / SU 597317, IPC АВВ 19/02, 07/07/78 /, including a frame and working bodies made in the form of a spiral, fixed at least two on one common holder, with each holder connected to the frame by a spiral spring . In this technical solution, when meeting an obstacle, self-oscillation of the working bodies installed on the common holder due to the additional spiral stand occurs, which reduces the clogging of the working bodies, but sharply worsens the stability of the working bodies with an increase in the return time to the original position (before meeting the obstacle).

A device for tillage / US 3464498, IPC A01B 19/02, A01B 63/16, A01B 19/00, A01B 63/00; 09.09.09.02. /. This technical solution has a higher stability than the above technical solutions, due to the installation of an additional elastic element in the form of a plate over the rack. But the frequency of self-oscillations (vibration frequency) and the vertical stroke of the working body due to the rigidity of the rack and plate sharply decreases, which leads to frequent clogging of the working bodies, low amplitude of self-oscillations of the working bodies, and, as a result, deterioration of soil crushing, i.e. deterioration in the quality of soil preparation for sowing.

The closest in technical essence to the claimed inventions in terms of an alternative solution is a tillage implement with a working body containing a stand with a paw pivotally mounted on the frame using the front and rear brackets connected by a coil spring equipped with a swinging U-shaped support, guiding telescopic link, screw adjusting mechanism and focus / RU 2153788, IPC АВВ 35/24, 2000.08.10./ Due to the multi-turn spring and complex hinged mechanisms, the stroke of the working body in vertical direction increases, but the amplitude of the oscillations increases and their frequency of self-oscillations decreases. This, in turn, reduces the stability of the implementation of the technology of the soil cultivation process. A decrease in the frequency of self-oscillations of the working bodies worsens the quality of crushing of the soil formation into small aggregates, i.e. the soil structure sharply worsens and additional working bodies are required for regrinding of the indicated soil aggregates. The installation of one elastic element (associated with the stand) on one side of the frame structure further affects the frequency of auto-vibrations and, as a result, degrades the quality of the soil treatment (structureless soil is formed). The deviation of the average depth from the set is 20 mm. This suggests that such working bodies cannot be used for pre-sowing tillage, since in this case the base of the seed bed is formed by a comb bed with a ridge height of up to 20 mm, and this uneven treatment leads to the fact that the seeds of grain crops falling on ridges and depressions the base of the seed bed, they emerge extremely unevenly, and this sharply reduces the yield and worsens its quality, since fluctuations in the depth of the base of the seed bed reach 20-25 mm or more, while, for example, the depth of the seed Foot bed for sowing grass is only 10-15 mm, while sowing cruciferous - 20 mm. In addition, this device has low reliability in the collision of the working body with solid obstacles (stones, etc.).

As a second prototype, in part of another alternative solution, hoe cultivator / FR 2845560 (A1), IPC A01B 21/08, A01B 61/04 were adopted. A01B 21/00; 2004.04.16 /, with a frame, mounted or trailed, equipped with tillage implements, consisting of at least one block of non-driving rotating disks connected to the frame by means of a stand made in the form of a helical spring, each spring containing from 1.5 to 5 turns, which are located side by side so that they form a series of turns along a line transverse to the chassis. This constructive solution, as well as in the case with the use of elastic winding protection of chisel working bodies according to SU1743398, allows increasing the vertical deviation of the working bodies, but sharply reduces the amplitude of self-oscillations. This technical solution also has low reliability when faced with an obstacle.

The objective of the utility model is to create a device for pre-sowing tillage, which provides the intensification of the processing process and improves the quality of crushing the soil into small aggregates, as well as improving the reliability of the device.

The problem is also solved due to the fact that the device for presowing cultivation of the soil, containing successively mounted on at least one frame working bodies in the form of paws and / or disks with the possibility of raising and lowering them relative to the frame when faced with an obstacle provided at least one main elastic element mounted on one side of the oscillation axis between and / or above the frame and the working body, according to the utility model, contains at least one rotary mechanism associated with, at least at least one additional elastic element located on the other side of the axis of oscillation of the working body between and / or above the frame and the working body.

In addition, the elastic elements can be made in the form of at least one plate located on both sides of the axis of oscillation, while the part of the elastic element located on the side of the working body is the main elastic element, and the part of the elastic element located with opposite side from the axis of oscillation, is an additional elastic element.

The proposed device is illustrated by the following drawings:

figure 1 shows the basic elements of a device for implementing the method using loosening paws (side view); figure 2 shows the basic elements of a device for implementing the method using disks (top view); figure 3 shows the working body in the form of a disk in a static position; figure 4 - the working body in the form of a paw with elastic elements and a rotary mechanism at the time of meeting with an obstacle; figure 5 - the working body in the form of a paw with elastic elements and a rotary mechanism at the highest point of the trajectory of movement of the working body after meeting with an obstacle; figure 6 - the working body in the form of a paw with elastic elements and a rotary mechanism at the time of encounter with an obstacle, while the main elastic element is installed on one side of the axis of oscillation above the frame and the working body, and an additional elastic element is located on the other side of the axis fluctuations of the working body also above the frame and working body; Fig.7 - the working body in the form of a paw with elastic elements and a rotary mechanism at the time of encounter with an obstacle, while the main elastic element is installed on one side of the axis of oscillation above the frame and the working body, and the additional elastic element is located on the other side of the axis fluctuations of the working body between and above the frame and the working body; on Fig - a working body in the form of a paw with elastic elements and a rotary mechanism at the time of encounter with an obstacle, while the main elastic element is installed on one side of the oscillation axis between and above the frame and the working body, and an additional elastic element is located on the other side from the axis of vibrations of the working body over the frame and working body.

The elements of the device for pre-sowing tillage are an aggregate, on the frame 1 (Fig. 1) of which, on the posts 2, which comprise or separately from the posts 2, the main elastic element 3, installed between and / or above the frame 1 and the working body 4 in in the form of disks (figure 3) or paws (figures 4-8). The rack 2 may or may not have elastic properties and can be rotated (in the case of the rack 1 detachable) or non-rotatable. The main elastic element 3 is installed on one side of the oscillation axis 5 of the working body 4. The main elastic element 3 can be installed above the frame 1 or below it, or part of the main elastic element 3 is installed above the frame 1, and part under the frame 1. On the opposite side from the oscillation axis 5 of the working body 4 (on the other side of the oscillation axis 5) establishes an additional elastic element 6 connected with the rotary mechanism 7. The upper part of the rotary mechanism 7 (Figs. 3, 4, 5) is made in the form of a cylindrical finger 8, which for example, with curved ends (not shown in FIG.) of two additional elastic plates — the upper 9 and lower 10 of the additional elastic element 6. To strengthen the elastic properties of the additional element 6, an additional elastic plate can be installed under the lower elastic plate 10 or over the upper plate 9 11. The lower part of the rotary mechanism 7 can also be made in the form of a cylindrical pin 12, which rotates in the sleeve 13 or girths similar to the girths under the finger 8 (in FIG. not shown). The sleeve 13 or the girths are rigidly connected to the support plate 14, in the lower part of which is installed (with or without removability) the lower end of the rack 2, to which the working body 4 with the hub 15 is mounted, made, for example, in the form of a disk.

The hub 15 is fixed to the lower end of the rack 2 with threaded connections 16. The rack 2, when installing the disks on it, can be rotated.

The right part of the support plate 14 (Fig. 3) and the main elastic element 3 are rigidly fixed to each other, for example, using at least one spacer sleeve 17, the plate 18 and threaded connections 19. The plates of the main elastic element 3 can be made similar to the additional elastic element 6. In this case, the main 3 and additional 6 elastic elements can be performed in such a way that the left part of the plates 9, 10 and 11 (relative to the axis of oscillation of the working body) of the inventive device are an additional elastic element 6, and the right I part of these plates is the main elastic element 3. In this case, the central part of the plates 9, 10 and 11, for example, by means of threaded connections 20 is fixed to the lower part 21 of the upper end of the rack 2.

The left ends of the additional elastic element 6 and the support plate 14 are interconnected by rods 22. To rotate the working body relative to the frame 1, a sleeve is made in the latter (not shown in Fig.), And an arm 23. is fixed to the upper end of the rack 2. To the lower part of the support the plate 14 can be mounted, using threaded connections or in another way, the rack 2 for the loosening working body 4 in the form of paws (Fig.4, 5).

The installation of the main and additional 6 elastic elements relative to the frame 1 and relative to each other can be implemented in the following variants: the main elastic element 3 is installed on one side of the axis of vibrations 5 above the frame 1 and the working body 4, and the additional elastic element 6 is located on the other side from the axis of vibrations 5 of the working body 4 also above the frame 1 and the working body 4 (Fig.6); the main elastic element 3 is installed on one side of the oscillation axis 5 above the frame 1 and the working body 4, and the additional elastic element 6 is located on the other side of the oscillation axis 5 of the working body 4 between and above the frame 1 and the working body 4 (Fig.7) ; the main elastic element 3 is installed on one side of the oscillation axis 5 between and above the frame 1 and the working body 4, and the additional elastic element 6 is located on the other side of the oscillation axis 5 of the working body 4 above the frame 1 and the working body 4 (Fig. 8) .

The composition of the unit for pre-sowing tillage may include passive-drive working bodies, for example, spiral anti-erosion rollers 24 (figure 1, 2)

The device operates as follows.

When meeting an obstacle, the working body 4 rises to a height h _max . The lifting of the working body 4 is provided by at least one main elastic element 3, installed, for example, between the frame 1 and the working body 4 on one side of the axis of oscillation 5 of the working body 4. At the same time, additional movement of the working body 4 along the path is provided, having horizontal and vertical components by means of a rotary mechanism 7, with simultaneous intensification of the lifting of the working body 4. This overcomes the elastic force of the main elastic element 3 and the additional elastic element 6, distributed laid on the opposite side from the main elastic element 3 relative to the axis of oscillation 5 of the working body 4, and interacting with the rotary mechanism 7. Moreover, as a result of the location of the main 3 and additional 6 elastic elements on opposite sides of the axis of vibration 5 of the working body 4, the resulting force F ₁ basic resistance of the elastic member 3 opposite to the resultant force F _2, (3-5) an additional elastic resistance of the elastic member 6. As a result of the moments multidirectional forces F ₁ and F ₂ rel respect to the axis of oscillation 5 actuator 4 returns to its original position and keeps soil loosening to the depth h _mod. . Moreover, as a result of different densities of soil aggregates, micro vibrations of the working body from the impact on the working body, on the one hand, of variable loads, and on the other, the action of moments from the elastic forces F ₁ and F ₂ are observed. The resulting self-oscillations are intensified due to the interaction of the additional elastic element 6 with the elements of the rotary mechanism 7. In this case, the oscillation frequency is significantly increased. In the mode of high-frequency self-oscillations (auto-vibrations), the working body 4 works until it encounters another obstacle, then the process is repeated.

The process of pre-sowing tillage or stubble cultivation (false sowing) is completed by rolling the soil with spiral anti-erosion rolling rollers 24.

Thus, the installation between and / or above the frame and the working body of the additional elastic element 6 and the rotary mechanism provides the intensification of the oscillations of the working body (significantly increases the frequency of vibrations), which improves the quality of crushing of the soil layer, and increases the reliability of the device due to additional damping at a meeting with obstacles and, as a result, maintaining the integrity of the working bodies.

Claims (2)

1. A device for pre-sowing tillage, containing sequentially mounted on at least one frame working bodies in the form of paws and / or disks with the possibility of raising and lowering them relative to the frame when faced with an obstacle provided by at least one main elastic an element mounted on one side of the oscillation axis between and / or above the frame and the working body, characterized in that it contains at least one rotary mechanism associated with at least one additional elastic element, laid on the other side of the axis of oscillation of the working body between and / or above the frame and the working body. 2. The device according to claim 1, characterized in that the elastic elements are made in the form of at least one plate located on both sides of the oscillation axis, while the part of the elastic element located on the side of the working body is the main elastic element, and the part of the elastic element located on the opposite side from the axis of oscillation is an additional elastic element.