JP4176575B2 - Subsoiler work machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a subsoiler work machine, and more particularly, to a subsoiler work machine that promotes discharging of excavated soil after forming a groove.
[0002]
[Prior art]
In the field, flotation, treading pressure of tractors due to long-term use, formation of panels due to the use of rotary tillers, and natural hardening of soil due to infiltration of rainwater, the hardened layer gradually grows downward as well as the surface. Tend to. Especially in pastures, a hard layer gradually grows due to treading by cattle and other livestock, resulting in inhibition of pasture roots. In the field where the surface is hardened, when the surface of the rotary tiller is used only for the surface, a soil layer is apparently formed, but a layer is formed below this soil layer. Poor (poor water permeability) and poor air permeability, so even a little rain could abrade the surface of the field, so that the soil could not run out and the roots could not grow. It often becomes something that can not be expected.
[0003]
Therefore, the subsoil work machine is used to crush the cultivating layer, as well as to crush the subsoil layer underneath it, to make the cultivating layer permeable, and in the subsoil layer By supplying air, soil is activated and drainage and water permeability are improved.
[0004]
[Problems to be solved by the invention]
For the purpose of this work machine, the purpose is to crush the subsoil layer as deep as possible. However, the subsoil crushing work at a deep position has a very large load on the tractor. Is forced to use. This subsoiler work machine pulls a knife-like knife in the soil with a force greater than resistance, so its resistance varies depending on the soil environment, but it is a work that is heavy compared to surface work. There is no.
[0005]
Therefore, in order to reduce the load as much as possible, the shape of the knife has been improved, but depending on the soil, especially in volcanic ash soil, the soil adheres to the knife as if it were clay work, like a clay work, Furthermore, there was a problem that this soil called the soil, and the knife became like a soil bar, and only the resistance increased, making it impossible to continue the work.
In particular, this phenomenon is remarkable in the fields of the Kanto Loam Group, and there is a need for some countermeasures even if the use of the subsoiler work machine becomes impossible.
In addition, even if a subsoiler work machine can be used, the soil after it has been excavated and grooved by a chisel or knife is pushed up to the surface, and the soil rises to the front side of the knife as the work progresses. There was a case where the work was hindered due to accumulation between the frame of the work implement and the field surface.
[0006]
Therefore, the present invention has been made in view of the above circumstances, and promotes the discharge of the excavated soil after the formation of the groove, so that the soil excavated and raised on the surface does not hinder the work. It is intended to do.
[0007]
[Means for Solving the Problems]
The subsoiler work machine according to the present invention, which has been made to achieve the above object, has a knife attached to the work machine frame and a metal mold plate or a friction reducing member attached along the front edge of the knife. In the subsoiler working machine that performs subsoil crushing work, the metal mold plate or the friction reducing member is formed wider than the front edge width of the knife, and the work of the knife inserted into the subsoil is progressed. Along with excavating the soil, the soil is moved to the side while pushing the excavated soil to the field surface as the work progresses.
[0008]
According to the subsoiler working machine of the present invention, the width (length) in the left-right direction of the friction reducing member and the metal mold plate is formed wider than the width (length) in the left-right direction (front edge) of the knife. Compared to the groove formation only with a knife, it can naturally form a wider groove, promote the discharge of excavated soil, and activate the soil and improve drainage and water permeability. .
Further, since the discharged direction of the excavated soil is allowed to escape from the plane including the knife to the side, the discharged soil does not hinder the progress of the work, and the work can be performed efficiently.
[0009]
In addition, the subsoiler work machine according to the present invention, which has been made to achieve the above-described object, attaches a knife to the work machine frame, and a metal mold plate or a friction reducing member is attached along the front edge of the knife. In the subsoiler working machine for performing subsoil crushing work, the metal mold plate or friction reducing member is formed wider than the front edge width of the knife, and the metal mold plate or friction reducing member is The excavation curved surface toward the work progress direction is formed toward the lower end portion of the knife, and the discharge curved surface toward the side of the work progress direction is formed toward the upper end portion of the knife, and is inserted into the subsoil. As the work of the knife progresses, the soil is excavated along the excavation curved surface, and the excavation curve while pushing the soil excavated as the work progresses to the field surface. It is characterized by moving the soil laterally along.
Here, it is desirable that an inverted curved surface is formed at the upper end of the metal mold plate or friction reducing member.
Furthermore, it is desirable that the metal mold plate or the friction reducing member is attached to the knife via a metal bracket attached to the knife.
In addition, it is desirable that the metal mold plate or the friction reducing member is attached to be replaceable.
Moreover, it is desirable that a chisel for crushing subsoil is fixed at the front end position of the knife in the working direction.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. First, in these attached drawings, reference numeral 10 denotes an entire two-claw type subsoiler work machine (hereinafter referred to as a work machine), and this work machine 10 has a hollow frame 11 extending along the work width direction. A pair of flange plates 12 extending in the work progress direction, so-called front-rear direction, and sandwiching the frame 11 from the up-down direction are disposed at both left and right end positions of the frame 11. The front end portion is fixed by four bolts 13 before and after the frame 11. The other end portions of these flange plates 12 extend to the rear side to form an extension portion 12A, and the cross-sectional shape is a U-shape sandwiched from above and below by the extension portions 12A and 12A. A spacer 14 is formed, and is arranged in such a posture that the vertical plate portion of the spacer 14 is perpendicular to the flange plate 12, and the two spacers 14, 14 are opposed to each other, and It is arranged and fixed at an interval S corresponding to the thickness of the knife described in (1).
[0011]
A portion corresponding to the interval S between the spacers 14 and 14 is provided with a through hole 12B in the flange plate 12 so that a knife described later can be inserted. The upper end of the knife is formed to form a knife insertion space. The flange portion of the spacer 14 is fixed to the extension portion 12A of the flange plate 12 with bolts 14B. The spacers 14 and 14 are provided with a common window hole 14 </ b> A so that a pin can be inserted to fix the knife with the pin 16.
[0012]
And as shown in FIG. 3, the knife 20 has a width | variety (length) along the work advancing direction, and the width | variety (length) of the left-right direction becomes a little thick in a blade edge part compared with the conventional knife. In addition, a friction reducing member 22 is attached to a front edge 21 corresponding to the blade edge portion via a metal bracket 23 and fixed by bolts 24 at an appropriate interval. That is, as is apparent from FIGS. 3 and 4, the friction reducing member 22 is attached to the metal bracket 23 by bolts 24 from an excavation curved surface 22Y and a discharge curved surface 22X described later.
[0013]
The metal bracket 23 is defined by the shape of the friction reducing member 22, and has a shape surrounding the back surface and the side surface of the friction reducing member 22. The friction reducing member 22 is worn and changes in shape. As a result, the edge portion is prevented from being unevenly worn as much as possible. The friction reducing member 22 follows the shape of the knife 20 and has a curved line from the upper end portion to the lower end portion. The lower end portion of the knife 20, in other words, the most distal end position in the work progress direction. A chisel 25 for crushing the subsoil is fixed, and a wing 26 for increasing the crushing effect is connected to the rear thereof.
[0014]
In particular, the friction reducing member 22 and its bracket 23 are twisted toward the side in the working direction in the vicinity of the upper end portion, in other words, a discharge curved surface 22X is formed, and rises along the discharge curved surface 22X. The soil to be moved can escape and move sideways as it moves away from the plane containing the knife 20. Along the discharge curved surface 22X, the bracket 23 also has a shape along the curved surface so as to accommodate the friction reducing member 22. The direction of soil removal of the discharge curved surface 22X is bilaterally symmetrical in the case of two claws, and the soils soiled from each other can be discharged toward the outside of the work width.
Therefore, in the form of a single claw, it may be twisted to any side in the work progressing direction, and may have any shape that can prevent clogging.
[0015]
Further, as it goes to the lower end opposite to the upper end of the knife 20, a gently curved surface 22Y is drawn in the work progressing direction to form an excavated curved surface 22Y, and the knife 20 stabbed in the subsoil is this excavated curved surface 22Y. In addition to excavating the soil along the line, the soil can be moved laterally along the discharge curved surface 22X as described above while reaching the upper end while pushing the excavated soil to the field surface as the work progresses. It is a simple shape.
[0016]
Thus, in actual work, the soil at a deep position is excavated and pushed up along the friction reducing member 22 first along the excavated curved surface 22Y, and then pushed up to the field surface, and then the discharged curved surface 22X. The soil is discharged to the side in the direction of work progress along. In addition, even when the soil is raised by excavation, the bottom surface of the frame can be obtained by moving the soil to the side in the traveling direction, more specifically, outside the working width, by the guide of the discharge curved surface 22X formed on the friction reducing member 22. It is possible to prevent soil from rising and clogging like a mountain in the space between the farm and the field, and to discharge soil that tends to rise to the side in the traveling direction. Therefore, in the case of a one-claw type subsoiler work machine, since it may be discharged to either the left or right side, the twisting direction of the friction reducing member is free to the left and right.
[0017]
This can be easily understood by explaining it in comparison with a conventional subsoiler work machine. When the discharge curved surface 22X is not formed in the friction reducing member 22, the soil excavated along the excavated curved surface 22Y is raised, but the soil rises in a plane including the knife 20, so that When hitting the frame constituting the machine, it accumulates in the space between the frame and the field, grows as a lump of soil, and with work progress, this enlarges and hinders work progress, but according to the present invention, Such work inconvenience can be solved.
[0018]
The friction reducing member 22 has high wear resistance and is not sticky or has stickiness even in the case of a soil that easily adheres to an iron knife such as the Kanto loam layer. In addition, a resin molded product made of polyethylene or the like having extremely low adhesion and excellent flexibility in molding is used, and a structure with bolts is adopted so that it can be replaced even when worn.
[0019]
Further, the width (length) in the left-right direction of the friction reducing member 22 is formed to be larger than the width (length) in the left-right direction (front edge) of the knife 21, as is apparent from FIG. Naturally, it is possible to form a groove having a larger width compared to the groove formation by only 21 and to promote the discharge of the excavated soil, to activate the soil and to further improve drainage and water permeability.
[0020]
In the above description, the friction reducing member 22 is attached along the front of the knife 21 in the working direction. However, the friction reducing member 22 can be fixed to the left and right side surfaces of the knife 20. In this case, the side friction reducing member 22 is smaller than the width of the friction reducing member 22 on the front surface of the knife 20. Furthermore, although what attached the friction reduction member via the bracket was demonstrated, it may not be required depending on work object soil.
[0021]
Further, in the case of soil that is not easily attached to the knife unlike the Kanto loam layer, the meaning of the friction reducing member 22 is thin. In this case, a metal mold plate is used instead of the plastic one. The replacement of excavated soil can be ensured. In this case, the same shape as the friction reducing member 22 is used, and the excavation curved surface 22Y and the discharge curved surface 22X are formed. However, as shown by the phantom line in FIG. By forming 22Z, the reversal of the soil discharged to the side by the twisted portion of the reversing curved surface is increased, and an effective function as a mold plate can be expected.
[0022]
As is clear from the above description, according to this subsoiler work machine, the soil excavated during the work can be reduced as much as possible to the knife, and the friction with the soil can be reduced as much as possible. The tractor can have a margin, and in particular, the friction reducing member is designed to let the direction of discharging the excavated soil to the side from the plane including the knife, so that the discharged soil does not hinder the work progress, Can work efficiently. In addition, when it is not necessary to consider the adhesion of soil in the field, the friction reducing member is replaced with a metal mold plate to attach the excavated soil, that is, the soil after grooving. There is an effect that it is possible to carry out by deviating from the working direction to the side and prevent the work from being hindered.
[0023]
【The invention's effect】
As is clear from the above description, according to the subsoiler working machine of the present invention, the width (length) of the friction reducing member and the metal mold plate in the left-right direction is the width in the left-right direction (front edge) of the knife ( It is formed larger (wider) than the length), and can naturally form a wider groove compared to the groove formation only with a knife, promotes the discharge of excavated soil, and activates the soil. Drainage and water permeability can be further improved.
Further, since the discharged direction of the excavated soil is allowed to escape from the plane including the knife to the side, the discharged soil does not hinder the progress of the work, and the work can be performed efficiently.
[Brief description of the drawings]
FIG. 1 is a side view of a subsoiler working machine according to the present invention.
FIG. 2 is a plan view of a subsoiler work machine according to the present invention.
FIG. 3 is a perspective view of a knife portion of the subsoiler working machine according to the present invention.
FIG. 4 is a detailed oblique view of a friction reducing member of the subsoiler work machine according to the present invention.
FIG. 5 is a partially enlarged perspective view of reference numeral 5 in FIG. 1;
FIG. 6 is a partially enlarged perspective view of a portion denoted by reference numeral 6 in FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Subsoiler work machine 11 Frame 12 Flange board 13 Bolt 14 Spacer 20 Knife 21 Front edge 22 Friction reduction member 22X Discharge curved surface 22Y Drilling curved surface 22Z Reversing curved surface 23 Bracket 24 Bolt 25 Chisel

Claims (2)

A knife that is attached to the work machine frame and has a curve toward the front, a friction reduction member that is attached to the front edge of the knife via a metal bracket, and is fixed to the front end position of the knife in the working direction. In a subsoiler work machine equipped with a chisel that breaks the subsoil,
The friction reducing member is fixed to a metal bracket attached along the front edge of the knife, is formed wider than the front edge width of the knife, and the work progresses toward the lower end of the knife. A curved excavation surface that is curved in the direction is formed, and a discharge curved surface that is twisted toward the side in the working direction is formed toward the upper end of the knife,
The metal bracket has a shape surrounding a back surface and a side surface of the friction reducing member, is formed along the friction reducing member, and moves toward the upper end of the knife so as to follow the friction reducing member. It is formed by twisting toward the side of
As the knife inserted into the subsoil progresses, the chisel crushes the subsoil, and the friction reducing member excavates the soil along the excavation curved surface and pushes the excavated soil to the field surface. However, the subsoiler working machine is characterized in that the soil is moved laterally along the discharge curved surface. A knife that is attached to the work machine frame and has a curve toward the front, a metal mold plate that is attached to the front edge of the knife via a metal bracket, and a tip position in the working direction of the lower end of the knife Subsoiler work machine equipped with a chisel for crushing subsoil, fixed to
The metal mold plate is fixed to a metal bracket attached along the front edge of the knife, is formed wider than the front edge width of the knife, and goes toward the lower end of the knife. A curved excavation curved surface facing the work progression direction is formed, and a discharge curved surface twisted toward the side of the work progression direction is formed toward the upper end of the knife,
The metal bracket has a shape that surrounds the back and side surfaces of the metal mold plate, is formed along the metal mold plate, and moves toward the upper end of the knife. It is formed by twisting toward the side of the work progress direction along
As the work of the knife stabbed in the subsoil progresses, the chisel crushes subsoil, and the metal mold plate excavates the soil along the excavation curved surface, and the excavated soil is removed from the field surface. A subsoiler working machine, wherein the soil is moved sideways along the discharge curved surface while being pushed up.

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