JP2004089071A - Agricultural working machine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an agricultural working machine with which admixtures inserted between a soil preparation body and a spring rake body are readily removed. <P>SOLUTION: This agricultural working machine 1 is liftably attached through a three-point link mechanism to the rear part of a tractor. The agricultural working machine 1 is equipped with a tilling body 3 for tilling operation and a vertically rotatable soil preparation body 25 which is positioned behind the tilling body 3 and carries out soil preparation operation. The agricultural working machine 1 is furnished with a spring rake body 31 which is positioned between the tilling body 3 and the soil preparation body 25 and buries admixtures in tilled soil under the surface of a field. The spring rake body 31 is rotated downward into a suspended state so as to be separated from the soil preparation body 25 side in rising by the three-point link mechanism. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an agricultural machine that can easily remove foreign substances sandwiched between a leveling body and a spring rake body.
[0002]
[Prior art]
A conventional farm work machine such as a plowing work machine is mounted on a rear part of a traveling vehicle so as to be able to move up and down via a work machine elevating support device. A leveling body that can rotate up and down that performs leveling work behind, and a spring rake body that can rotate up and down that embeds dirt (such as rice straw) in the soil between the tillage body and the leveling body. And.
[0003]
Then, the spring rake body and the leveling body are connected to each other, and the embedding depth (working depth) of the spring rake body is kept substantially constant regardless of the change in the tilling depth of the tilling body.
[0004]
[Problems to be solved by the invention]
For this reason, in the conventional farm equipment, even if the whole farm equipment is raised by the work equipment lifting and lowering support device, the spring rake body does not hang down, and contaminants caught between the leveling body and the spring rake body are eliminated. There is a problem that it is difficult to do.
[0005]
This invention is made | formed in view of such a point, and it aims at providing the agricultural machine which can exclude easily the foreign material pinched | interposed between a leveling body and a spring rake body.
[0006]
[Means for Solving the Problems]
The agricultural machine according to claim 1 is an agricultural machine that is mounted on the rear part of the traveling vehicle via a work machine lifting support device so as to be able to be lifted and lowered, and is located behind the field. A leveling body capable of rotating up and down for leveling work, and a spring rake body capable of rotating up and down, which is located between the tillage body and the leveling body and embeds impurities in the soil under the field surface The spring rake body is rotated downward so as to be separated from the leveling body side when being raised by the work implement lifting support device, and is in a suspended state.
[0007]
And since a spring rake body rotates downward so that it may be separated from the leveling body side at the time of the raising by a working machine raising / lowering support apparatus, it will be in a suspended state, Therefore The foreign material pinched | interposed between the leveling body and the spring rake body is easily excluded. It becomes possible.
[0008]
The agricultural machine according to claim 2 is the agricultural machine according to claim 1, wherein the embedding depth of the spring rake body changes according to the change of the tilling depth of the tilling body.
[0009]
And since the embedding depth of a spring rake body changes according to the change of the tilling depth of a tilling body, for example, when the tilling depth is deep, the embedding depth becomes deep, and when the tilling depth is shallow, the embedding depth becomes shallow.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the configuration of an embodiment of an agricultural machine according to the present invention will be described with reference to the drawings.
[0011]
In FIG. 1 to FIG. 4, reference numeral 1 denotes an agricultural machine. The agricultural machine 1 is connected to a rear portion of a tractor that is a traveling vehicle (not shown) via a three-point link mechanism (three-point link hitch) that is a working machine lifting support device. It is a scraping work machine or the like that is mounted so that it can be moved up and down.
[0012]
The farm work machine 1 includes a work machine main body 2 that is attached to a tractor in a longitudinal shape in the left-right direction, for example.
[0013]
The working machine body 2 is rotatably attached with a cultivating body 3 such as a cutting rotor that performs a cultivating operation while rotating in a predetermined direction (for example, a down cut direction). The cultivating body 3 includes, for example, a cultivating shaft 4 in the left-right direction and cultivating claws 5 fixed to the cultivating shaft 4 in a radial manner.
[0014]
In addition, a substantially plate-like cover body 6 that covers the top of the tillage body 3 is attached to the work machine body 2. A leveling body mounting portion 7 and a rake body mounting portion 8 are formed at the rear end of the cover body 6. The rake body mounting portion 8 is constituted by a support shaft 9 in the left-right direction located from one end portion in the left-right direction of the cover body 6 to the other end portion.
[0015]
Further, the ground leveling body mounting portion 7 at the rear end portion of the cover body 6 is provided with an approximately plate-shaped first leveling body (level plate) 11 that can rotate up and down around the front end side (upper end side) as an elastic body. It is attached via a rubber plate 12. Although not shown, the first leveling body 11 may be attached to the rear end portion of the cover body 6 via the rotation shaft in the left-right direction without using the rubber plate 12.
[0016]
The first leveling body 11 is located behind the tillage body 3 during the ground cutting work, and performs the leveling work in an inclined posture. The first leveling body 11 has, for example, a main body plate portion 13 that is long in the left-right direction, and side plate portions 14 are integrally provided at both ends of the main body plate portion 13. Further, a projecting plate portion 15 that protrudes downward is integrally provided at a substantially central portion in the left-right direction of the main body plate portion 13.
[0017]
Further, at the rear end portion (the rear end portion of the side plate portion 14) of the first leveling body 11, a substantially plate-shaped second leveling body (rake) 22 that can be turned up and down around the front end side is provided on the left and right sides. It is attached via a rotating shaft 23 in the direction.
[0018]
The second leveling body 22 is positioned behind the tillage body 3 during the ground cutting work, and performs the leveling work in a horizontal posture. Then, the lower surface of the second leveling body 22 is a substantially flat contact surface that flatly contacts the field surface H1 that is the surface of the field H such as a paddy field to level the field surface H1 flatly. Surface 24 is formed.
[0019]
The first leveling body 11 and the second leveling body 22 constitute a leveling body 25 that is positioned behind the tillage body 3 and that can rotate up and down to perform leveling work.
[0020]
Further, a spring rake body 31 that can be turned up and down around the front end side (upper end side) is attached to the rake body attachment portion 8 at the rear end portion of the cover body 6.
[0021]
The spring rake body 31 is located at least partially between the tillage body 3 and the first leveling body 11 and the second leveling body 22 at the time of cutting work, so that impurities (for example, rice straw or the like) in the soil are cultivated. ) Is embedded under the field surface H1.
[0022]
And this spring rake body 31 has the cylindrical part 32 of the substantially cylindrical shape elongated in the left-right direction so that rotation was fitted to the outer periphery of the spindle 9 which is the rake body attaching part 8, for example.
[0023]
The tubular portion 32 is integrally provided with an elastically deformable comb-shaped rake portion 33 over substantially the entire length of the tubular portion 32. The rake portion 33 is composed of a plurality of linear elastic rods 34 arranged at intervals in the left-right direction, and a curled portion 35 is formed on each elastic rod 34.
[0024]
Further, a contact plate portion 36 is integrally provided at a substantially central portion in the left-right direction of the cylindrical portion 32. The abutting plate portion 36 has a projection 37 projecting sideways at the rear end portion.
[0025]
On the other hand, the agricultural work machine 1 abuts on and away from the spring rake body 31 by soil pressure from the field H during the cutting operation, and the embedding depth a of the spring rake body 31 (the lower end of the spring rake body 31 and A rake setting means 41 is provided for changing the difference between the working surface 24 of the second leveling body 22 and the tillage depth b of the tillage body 3.
[0026]
The rake setting means 41 is configured by a substantially plate-shaped setting body (regulation guide body) 42 that is detachably attached to the protruding plate portion 15 of the first leveling body 11, for example.
[0027]
The embedding depth a can be changed (adjusted) by exchanging the setting body 42 with a setting body (not shown) having another shape. Moreover, you may make it attach the setting body 42 to the 2nd leveling body 22 so that attachment or detachment is possible.
[0028]
Then, the lower surface of the setting body 42 is in a substantially arcuate contact with which the protrusion 37 of the contact plate portion 36 of the spring rake body 31 comes into contact with and separates from the lower surface of the spring rake body 31 based on the earth pressure from the field H during the cutting operation. It is a receiving surface 43. The protrusion 37 of the spring rake body 31 slides along the contact receiving surface 43 of the setting body 42 by the rotation of the spring rake body 31 and the first leveling body 11.
[0029]
The embedding depth a (cm) of the spring rake body 31 changes according to the change of the tilling depth b (cm) of the tillage body 3 based on the operation of the three-point link mechanism of the tractor. The relationship of a = (b / 4) +2 [cm] is established between a and the tilling depth b.
[0030]
Further, an input shaft 44 for inputting power from the tractor side is provided at the front center portion of the work machine body 2, and the power from the input shaft 44 is transmitted to the tillage body 3 through transmission means (not shown).
[0031]
Next, the operation of the above embodiment will be described.
[0032]
First, in the case of roughing (deep scraping), as shown in FIG. 2, a tractor three-point link mechanism is used so that the tillage depth b of the tillage body 3 is relatively deep, for example, about 15 cm. The farm work machine 1 is moved forward in the field H by the traveling of the tractor in a state where the entire farm work machine 1 is supported at a desired height position.
[0033]
Then, the soil of the field H is cultivated by the cultivating body 3, and the cultivated soil passes through the gap between the spring rake bodies 31 and is leveled by the first leveling body 11 and the second leveling body 22, and the field surface H1 is Flattened.
[0034]
Further, in the spring rake body 31 located between the tillage body 3, the first leveling body 11 and the second leveling body 22, impurities such as rice straw in the cultivated soil are embedded under the field surface H1.
[0035]
The embedding depth a of the spring rake body 31 is about 6 cm, for example, and is relatively deep corresponding to the tillage depth b of the tillage body 3, and the impurities in the soil are located at a relatively deep position below the field surface H1. Deep-filled.
[0036]
In the deep burying process, the spring rake body 31 receives the earth pressure from the field H side, so that the projection 37 of the contact plate portion 36 and the contact receiving surface 43 of the setting body 42 of the rake setting means 41. The front side of the rake portion 33 comes into contact with the rake portion 33 so that the substantially lower half portion of the rake portion 33 is inserted into the soil of the field H, and the embedding operation is performed.
[0037]
Then, after finishing the roughing, when finishing finishing (shallow scraping), as shown in FIG. 3, the tiller depth b of the tillage body 3 is relatively shallow, for example, about 8 cm. With the three-point link mechanism supporting the entire farm work machine 1 at a desired height position (a slightly higher position than in the rough), the farm work machine 1 is moved forward on the farm field H by running the tractor.
[0038]
Then, as in the rough era, the cultivating body 3 performs the cultivating work, the first grading body 11 in the inclined posture and the second grading body 22 in the horizontal posture perform the grading work, and the spring rake body 31 serves as the rice. The padding depth a of the spring rake body 31 is relatively shallow corresponding to the tilling depth b of the tillage body 3, for example, about 4 cm. A shallow embedding process is performed at a relatively shallow position below the surface H1.
[0039]
In the shallow burying process, the spring rake body 31 receives the earth pressure from the field H side, so that the projection 37 of the contact plate portion 36 and the contact receiving surface 43 of the setting body 42 of the rake setting means 41. And the lower end portion of the rake portion 33 is inserted into the soil of the field H (a state close to a standing posture), and the embedding operation is performed.
[0040]
At the time of finishing, since the embedding depth a of the spring rake body 31 is shallower than that at the time of the rough, the impurities once buried in the deep position at the time of the rough will not be lifted again. Further, since the spring rake body 31 is in a state close to a standing posture, the screen effect, that is, the soil breaking property is improved.
[0041]
Thus, according to the agricultural machine 1 of the above-described embodiment, the embedded depth a of the spring rake body 31 is set to the tillage body 3 by the contact between the spring rake body 31 and the setting body 42 of the rake setting means 41. For example, when the tillage depth b is deep, the embedding depth a becomes deep, and when the tillage depth b is shallow, the embedding depth a becomes shallow. Therefore, it is possible to improve the machining efficiency.
[0042]
In addition, as shown in FIG. 4, the spring rake body 31 is rotated downward by its own weight so as to be separated from the leveling body 25 when the tractor is lifted by the three-point link mechanism (at the time of lift-up). Therefore, impurities such as rice straw sandwiched between the leveling body 25 (first leveling body 11) and the spring rake body 31 can be easily eliminated.
[0043]
That is, for example, after the end of the scraping operation, when the entire farm work machine 1 is lifted to a desired height position (position where the spring rake body 31 is separated from the field surface H1) by the three-point link mechanism of the tractor, as shown in FIG. The spring rake body 31 is rotated downward about the support shaft 9 by its own weight and hangs down. As a result, the projection 37 of the contact plate portion 36 is separated from the contact receiving surface 43 of the setting body 42 of the rake setting means 41. And the space between the 1st leveling body 11 and the spring rake body 31 is expanded. For this reason, the foreign substance pinched | interposed between the leveling body 25 (1st leveling body 11) and the spring rake body 31 can be excluded easily.
[0044]
Further, as apparent from the two-dot chain line in FIG. 4, when the second leveling body 22 is placed on the heel surface in an attempt to start the cutting work from the side of the heel, it is the tip side of the spring rake body 31. The lower end side does not collide with the eaves and the spring rake body 31 can be prevented from being damaged.
[0045]
In addition, the rake setting means 41 of the agricultural machine 1 is not limited to the one configured by the setting body 42 attached to the first leveling body 11, for example, as shown in FIGS. 5 and 6, the cover body 6. And a setting rotation arm body 51 attached so as to straddle the leveling body 25.
[0046]
The setting rotation arm body 51 has, for example, a long hole 52 formed in a front end portion which is one end portion and a connection hole 53 formed in a rear end portion which is the other end portion. The support shaft 9 of the cover body 6 is slidably inserted along the long hole 52 into the long hole 52 of the setting rotation arm body 51. The rotation shaft 23 of the leveling body 25 is rotatably connected to the connection hole 53 of the setting rotation arm body 51. Although not shown, the rear end portion of the setting rotation arm body 51 may be rotatably connected to the second leveling body 22.
[0047]
Further, the lower surface of the set turning arm body 51 is linearly abutted on and away from the protrusion 37 of the abutting plate portion 36 of the spring rake body 31 based on the earth pressure from the field H side during the cutting operation. A contact receiving surface 54 is formed. The protrusion 37 of the spring rake body 31 slides along the contact receiving surface 54 by the rotation of the spring rake body 31 and the first leveling body 11. At this time, the setting rotation arm body 51 rotates about the rotation shaft 23 in conjunction with the first leveling body 11. 5 and 6 are basically the same as those of the agricultural machine 1 shown in FIG. 1 and the like.
[0048]
5 and 6 also, the embedded depth a of the spring rake body 31 is set to the tillage body 3 by the contact between the spring rake body 31 and the setting rotation arm body 51 of the rake setting means 41. Therefore, when the tillage depth b is deep as shown in FIG. 5, for example, when the tillage depth b is deep, the embedding depth a is also deep, and when the tillage depth is as shown in FIG. When the depth b is shallow, the embedding depth a also becomes shallow, so that an appropriate embedding operation can be performed, and therefore, the work efficiency can be improved, and the removal of trapped impurities can be facilitated. The effect similar to the agricultural machine 1 shown can be show | played.
[0049]
Further, as shown in FIG. 7 and FIG. 8, for example, the agricultural working machine 1 rotates the operation unit 60 that protrudes from the leveling body 25, that is, the first leveling body 11, with the embedded depth a of the spring rake body 31. It can also be set as the structure which can be adjusted by operation.
[0050]
The rake setting means 41 of the agricultural machine 1 shown in FIGS. 7 and 8 has a movable setting lever body (movable contact body) 61 that is an operation lever integrally formed in a hook shape, and this movable setting lever body. 61 is rotatably attached to the leveling body 25, that is, the first leveling body 11 via a rotation shaft 62 in the left-right direction.
[0051]
One end side of the movable setting lever body 61 projects upward from the main body plate portion of the first leveling body 11, and this projecting portion serves as the operation portion 60. Further, a plurality of, for example, two upper and lower holes 63 and 64 are formed on the other end side of the movable setting lever body 61.
[0052]
In FIG. 7, fixing is performed to the hole 63 above the movable setting lever body 61 and the hole (not shown) of the fixed setting body (fixed contact body) 65 fixed to the first leveling body 11. The pin 66 is inserted, and the movable setting lever body 61 is in the normal state. In the state of FIG. 7, at the time of scraping work, a spring rake body is applied to the substantially arc-shaped contact receiving surface 67 formed on the lower surface on the other end side of the movable setting lever body 61 based on the earth pressure from the field H side. The protrusions 37 of the contact plate portion 36 of the 31 abut on and away from each other.
[0053]
Further, in FIG. 8, the fixing pin 66 is inserted into the hole 64 below the movable setting lever body 61 and the hole (not shown) of the fixed setting body 65 fixed to the first leveling body 11. The movable setting lever body 61 is in the retracted state, that is, the state in which the embedding action is small. In the state shown in FIG. 8, the spring rake body 31 is applied to the substantially linear contact receiving surface 68 formed on the lower surface of the fixed setting body 65 on the basis of the earth pressure from the field H during the shaving operation. The protrusion 37 of the contact plate portion 36 abuts on and off.
[0054]
The movable setting lever body 61 is rotatably attached to the fixed setting body 65 via a rotation shaft 62. Moreover, the other structural members of the agricultural machine 1 shown in FIGS. 7 and 8 are basically the same as the structural members of the agricultural machine 1 shown in FIG. 1 and the like.
[0055]
In the agricultural machine 1 shown in FIGS. 7 and 8, the embedding depth a of the spring rake body 31 is set by the contact between the spring rake body 31 and the movable setting lever body 61 in the normal state of the rake setting means 41. Since it changes according to the change in the tillage depth b of the tillage body 3, the embedding depth a becomes deep when the tillage depth b is deep as in the roughing period, and the tilling depth b is shallow as in the finishing period. Sometimes the embedding depth a is also shallow, so that an appropriate embedding operation can be performed, and therefore, the work efficiency can be improved and the removal of trapped impurities can be facilitated. The same operational effects can be achieved.
[0056]
Moreover, according to this farm work machine 1, the embedding depth a of the spring rake body 31 can be easily adjusted by operating the operation unit 60 of the movable setting lever body 61, and can appropriately cope with the soil quality of the field. That is, for example, in the case of a field where the soil mass is hard, the movable setting lever body 61 is switched to the retracted state, and the embedding depth a is made extremely shallow so that the spring rake body 31 and other impurities such as rice straw together with the soil mass. It is possible to appropriately prevent problems such as pulling the wire.
[0057]
In addition, although not shown in the drawings, the farm working machine 1 may be configured such that the embedding depth of the spring rake body does not change in accordance with the change in the tilling depth of the tilling body.
[0058]
【The invention's effect】
According to the first aspect of the present invention, the spring rake body is rotated downward so as to be separated from the leveling body side when lifted by the work implement lifting and lowering support device, so that the spring rake body is sandwiched between the leveling body and the spring rake body. Contaminants can be easily eliminated.
[0059]
According to invention of Claim 2, since the embedding depth of a spring rake body changes according to the change of the cultivation depth of a tilling body, for example, when a tilling depth is deep, an embedding depth also becomes deep and a tilling depth is shallow. Sometimes the embedding depth becomes shallower and appropriate embedding work can be performed.
[Brief description of the drawings]
FIG. 1 is a side view showing an embodiment of an agricultural machine according to the present invention.
FIG. 2 is a side view of the agricultural working machine in the rough generation.
FIG. 3 is a side view at the time of finishing of the agricultural working machine.
FIG. 4 is a side view of the agricultural working machine when lifted up.
FIG. 5 is a side view at the time of rough generation showing another embodiment of the agricultural machine according to the present invention.
FIG. 6 is a side view at the time of finishing of the agricultural working machine.
FIG. 7 is a side view at the time of rough generation showing still another embodiment of the agricultural working machine of the present invention.
FIG. 8 is a side view showing a state where the movable setting lever body of the agricultural working machine is switched to a retracted state.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Farming machine 3 Tillage body 25 Leveling body 31 Spring rake body H1 Field surface

Claims (2)

Agricultural work machine mounted on the rear part of the traveling vehicle so as to be able to be raised and lowered via a work machine lifting support device,
A plowing body for plowing work,
A leveling body that is positioned behind this tillage body and that can rotate up and down to perform leveling work,
A spring rake body that is positioned between the tillage body and the leveling body and is capable of rotating up and down to embed impurities under the soil surface;
The farm work machine according to claim 1, wherein the spring rake body is rotated downward so as to be separated from the leveling body side when being lifted by the work machine lifting support device. The agricultural working machine according to claim 1, wherein the embedding depth of the spring rake body changes according to a change in the tilling depth of the tilling body.

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