JPH09224401A - Field trencher - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the operability of trenching operation by giving vibration to a furrow opener through a machine casing by a vibration mechanism so as to allow the furrow opener to satisfactorily perforate into the surface of the field to make furrowing satisfactory. SOLUTION: The machine casing 3 is provided with furrow openers 7 and 8 furrowing the surface of the field, the machine casing 3 is also provided with a preprocessing part 24 discharging scattered materials in the surface of the field such as stover at the front position of the advancing direction of the furrow openers 7 and 8, and the machine casing 3 is provided with a furrowing member 11 shoveling field soil to discharge to the side at the rear position of the advance direction of the furrow openers 7 and 8. Then the machine casing 3 is provided with a vibration mechanism vibrating the machine casing 3 itself.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a field trench digging machine for forming drainage grooves in a field such as a paddy field.

[0002]

2. Description of the Related Art Conventionally, as a field trench digging machine of this type, a traveling machine body is provided with a machine frame as disclosed in JP-B-39-35323, JP-B-42-16323 and JP-B-43-6982. It is known that a rotating plow claw is provided on the machine frame, and the field soil is plowed and crushed by the plow claw, and at the same time, it is splashed and grooved.

As another conventional structure, there is a structure in which a plow member is provided on the machine frame, and the plow member is used to dig a groove when the traveling machine body travels.

In the case of the structure using the above-mentioned plowing claw, although the plowing and crushing action is good, the plowing soil is left because of the splashing action by the centrifugal force, and the ditch trace is not always satisfactory, and the plow member In the case of the one using the above, since the traction force of the traveling machine becomes excessive and it is necessary to make it into a large traveling machine which is difficult for ordinary farmers to purchase, as shown in Japanese Utility Model Publication No. 59-10214, the forward direction of the plow member There is proposed a structure in which a grooved body is arranged at a position so as to reduce the grooving resistance by a plow member, and a structure in which the grooved body is forcibly rotated is also proposed.

Further, as disclosed in Japanese Unexamined Patent Publication No. Hei 5-161403, when a field scene is grooved by a grooving body as the traveling machine advances, straw debris scattered in the field scene hinders grooving. It is also known that a pretreatment member capable of laterally discharging the straw chips and the like scattered in a field scene is provided at a position forward of the groove cutting body in the traveling direction.

[0006]

[Problems to be Solved by the Invention]

However, in the case of the above-mentioned conventional structure, the groove cutting bodies are arranged in front of each other in the forward direction of the plow member to reduce the digging resistance due to the plow member. There is a disadvantage that the grooving resistance of the cut body is large, work progress is hindered, and work efficiency is reduced accordingly.

[0008]

SUMMARY OF THE INVENTION The present invention is intended to solve these disadvantages. Of the present invention, the invention according to claim 1 is characterized in that the traveling machine body is connected with a machine casing, The frame is provided with a grooving body capable of grooving in the field scene, and the machine frame is provided with a pretreatment member at the front position in the traveling direction of the grooving body, which can laterally discharge the field scattered materials such as straw dust scattered in the field scene. The machine frame is provided with a plow member capable of scooping the field soil at the rear position in the traveling direction of the groove cutting body and discharging it sideways, and is provided with a vibration mechanism for vibrating the machine frame. It is in the field ditcher.

According to a second aspect of the present invention, the pretreatment member is rotatably disposed on the machine frame, a drive mechanism for rotating the pretreatment member is provided, and the pretreatment member serves as the vibration mechanism. The present invention is characterized in that an eccentric weight body is arranged, and the invention according to claim 3 can suppress the floating of the machine frame due to the digging resistance of the plow member on the machine frame. It is characterized in that the weight is detachably arranged.

[0010]

1 to 7 show an embodiment of the present invention, in which 1 is a traveling machine body, in this case a tractor, and a machine frame 3 is provided at a rear portion of the traveling machine body 1 by a connecting mechanism 2. The machine frame 3 is connected to the support machine frame 3a and the work machine frame 3b. The work machine frame 3b is arranged on the support machine frame 3a by the retracting mechanism 4 so that the posture can be freely changed between the working position and the retracted position. The retracting mechanism 4 supports the working machine frame 3b on the supporting machine frame 3a and the fulcrum shaft 4a.
Rotatably and pivotally attached to form a through hole 4b in the support machine frame 3a, an through hole 4c in the working machine frame 3b, and a locking pin 4d insertable in the through holes 4b and 4c. A spring member 4e is installed between the support machine frame 3a and the work machine frame 3b to pull up and retract the work machine frame 3b around the fulcrum shaft 4a, and the locking pin 4d is inserted into the insertion holes 4b and 4c. Thus, the working machine frame 3b is fixed to the working position, and the locking pin 4d is pulled out from the insertion holes 4b and 4c so that the working machine frame 3b is pulled up and rotated by the spring member 4e to the retracted position. The connecting mechanism 2 is composed of left and right lower links 5, upper links 6, and lifting links 7.

Numerals 7 and 8 are a pair of groove cut bodies, which have several blade portions 7a and 8a cut out on the outer peripheral portion thereof, and the working machine frame 3
The axle 9 is attached to the lower end of b, the axle 10 is rotatably borne on the axle 9, and the grooved bodies 7 and 8 are attached to the left and right ends of the axle 10 at predetermined intervals.

Reference numeral 11 denotes a plow member, and in this case, the width of the tip of the plow member 11 is formed to be substantially the same as the width between the grooved bodies 7 and 8, and the tip of the plow member 11 is tapered. The rear portion is formed on 11a, and the rear portion is formed on a discharge portion 11b which is twisted so as to discharge the cut soil laterally.

In this case, the tip of the U-shaped mounting arm 12 is pivotally attached to the lower part of the working machine frame 3b by the support shaft 13, and the nut body 15 is pivotally attached to the upper part of the working machine frame 3b by the pin 14 while rotating. The screw rod 16 is movably provided, the screw rod 16 is screwed to the nut body 15, and the nut rod 15 is rotated by the rotation of the handle 17 so that the screw rod 16 can be moved up and down, and the screw rod 16 is provided in the middle of the mounting arm 12. The lower end portion is pivotally attached by a pin 18, and the plow member 11 is attached to the attachment arm 12 by a bolt 19.

Reference numeral 20 denotes a stabilizing member. In this case, the stabilizing member 20 includes a contact plate surface 20a capable of contacting the field scene a and a side contact capable of contacting the inner side surface W ₁ of the dug groove W. Contact surface 2
0b is formed, and the support piece 2 is formed on the rear surface of the mounting arm 12.
1, the connecting piece 22 is formed on the stabilizing member 20, and the supporting piece 21 and the connecting piece 22 are connected by the connecting pin 23, whereby the stabilizing member 20 is attached to the mounting arm 12 in a slightly swingable manner. There is.

Reference numeral 24 denotes a pretreatment member, in this case, a mounting disk 24a and a plurality of discharge members 24b radially mounted on the mounting disk 24a by bolts 24c, which are rotationally driven by a drive mechanism 25. A rotary shaft 26 is horizontally mounted on a supporter frame 3a as the frame 3 by bearings 27, a power take-off shaft 28 of the tractor which is the traveling machine body 1 and a rotary shaft 26 are connected by a universal joint 29, and the rotary shaft 25 is mounted on the disc 2
4a is attached and the cover member 30 is attached to the machine frame 3.

Reference numeral 31 denotes a vibrating mechanism, in which case the fan-shaped eccentric weight body 3 is mounted on the mounting disk 24a of the pretreatment member 24.
2 is attached by a bolt 33 in a deviated state.

Reference numeral 34 denotes a weight, which is detachably mounted near the rear portion of the supporting machine frame 3a serving as the machine frame 3 and has a weight 3
The weight of the plow member 4 suppresses the floating of the machine frame 3 due to the digging resistance of the plow member 11.

Since this embodiment has the above structure,
The lower part of the groove cutting bodies 7 and 8 and the plow member 11 by the traveling machine body 1.
When the machine frame 3 is run while piercing the lower part of the field a into the field a, the groove cutting bodies 7 and 8 advance while rotating together and cut the two row grooves R in the field scene a, and in this case, the blade portion 7a.・ The groove cutting resistance is reduced by 8a, and the soil between the two grooves is scraped off by the plow member 11 at the rear of the groove and discharged laterally. As a result, the work for digging the groove W in the field is performed. Can
First, the groove is cut with the groove cutting bodies 7 and 8, and this is used for the plow member 1.
1 excavates the excavated soil T to the side to reduce the digging resistance, can suppress an increase in the traction force of the traveling machine body 1, and can be used in front of the field scene a in the traveling direction of the grooving bodies 7 and 8. The field scattered matter E such as straw scraps and stocks which are scattered on the side are discharged laterally by the pretreatment member 24, and the grooving resistance of the grooving bodies 7 and 8 and the grooving resistance of the plow member 11 can be reduced accordingly. Further, the vibrating mechanism 31 vibrates the grooving bodies 7 and 8 through the machine frame 3, so that the grooving bodies 7 and 8 can be well inserted into the field scene a, and the grooving is good. Therefore, the workability of the trench digging work can be improved.

In this case, the pretreatment member 2 is attached to the machine frame 3.
4 is rotatably attached, a drive mechanism 25 for rotating the pretreatment member 24 is provided, and the pretreatment member 24 is used as the vibration mechanism 31.
Since the eccentric weight body 32 is attached to the eccentric weight body 32, the field scattered matter E can be smoothly discharged to the side by the rotation of the pretreatment member 24, and the eccentric weight body 32 vibrates with a simple structure. Further, in this case, since the weight 34 is detachably attached to the machine frame 3, it is possible to suppress the floating of the machine frame 3 due to the digging resistance of the plow member 11, and the plow member 11 can be used. Ditching can be performed well.

At this time, the abutting plate surface 20 of the stabilizing member 20
Since a progresses while abutting on the field scene a near the dug trench W, the height of the plow member 11 can be made stable, and the plow member 11 becomes excessively large depending on the state of the field soil. It is possible to suppress the increase of the traction force by scooping the blades, and to obtain the effect of keeping the depth of the groove W constant, and the abutting plate surface 20a of the stabilizing member 20 is located behind the plow member 11 in the traveling direction. since it is, the less with entanglement of the field scattered object E straw dust, etc. interspersed field surface or the like, further abuts against the inner surface W ₁ of the side abutment plate surface 20b of the stabilizing member 20 is dug taken grooves W Possible plow member 11 and groove cutting body 7
It is possible to suppress the lateral shake of No. 8, and it is possible to satisfactorily perform the groove digging work.

In the above embodiment, the pair of groove cutting bodies 7 and 8 is a pair of groove cutting bodies. However, the groove cutting bodies 7 and 8 may be blade-shaped groove cutting blades or one of the groove cutting bodies. Not only the cut body but also the structure in which the groove cut body is forcibly rotated may be used, and in the above embodiment, a pair of the groove cut bodies 7 and 8 and the plow member 11 are arranged. There may be two or more sets, and as the vibration mechanism 31, another mechanism such as a hydraulic vibrator may be adopted.

[0022]

As described above, according to the present invention, the traveling machine body travels the machine frame while piercing the lower part of the groove cutting body and the lower part of the plow member into the field. As a result, the groove cutting body advances while rotating and a groove is cut in the field scene, and the ground soil is scraped off by the plow member behind it and discharged to the side, and as a result, the groove is dug in the field. The field dispersal material such as straw chips and stocks that can be worked and are scattered in the front of the field in the forward direction of the grooved body is discharged laterally by the pretreatment member, and the groove cutting resistance of the grooved body is that much. And it is possible to reduce the grooving resistance of the plow member, it is possible to suppress the increase in the traction force of the traveling machine body, further, vibration is imparted to the grooving body through the machine frame by the vibrating mechanism, only that much of the grooving body. Workability of grooving work is improved due to good penetration into the field and good grooving. It can be improved.

According to the second aspect of the invention, a pretreatment member is rotatably attached to the machine frame, a drive mechanism for rotating the pretreatment member is provided, and an eccentric weight is attached to the pretreatment member as a vibration mechanism. Since the body is attached and configured, the scattered matter in the field can be smoothly discharged to the side by the rotation of the pretreatment member, and the eccentric weight body can obtain the vibration action with a simple structure. In the invention according to claim 3, since the weight is detachably attached to the machine frame, it is possible to suppress the floating of the machine frame due to the grooving resistance of the plow member, and the grooving by the plow member is favorable. Can be done.

As described above, the intended purpose can be sufficiently achieved.

[Brief description of drawings]

FIG. 1 is an overall side view of an embodiment of the present invention.

FIG. 2 is an enlarged side view of the embodiment of the present invention.

FIG. 3 is a partial plan view of the embodiment of the present invention.

FIG. 4 is a partial vertical sectional view of an embodiment of the present invention.

FIG. 5 is a partially exploded perspective view of the embodiment of the present invention.

FIG. 6 is a partial side view of the embodiment of the present invention.

FIG. 7 is a partial perspective view of an embodiment of the present invention.

[Explanation of symbols]

 a field E field scattered matter W groove 1 traveling machine body 3 connecting mechanism 7 groove cutting body 8 groove cutting body 11 plow member 24 pretreatment member 31 vibration mechanism 32 eccentric weight body 34 weight

Claims (3)

[Claims] 1. A machine frame connected to a traveling machine body, the machine frame is provided with a grooving body capable of grooving in a field scene, and the machine frame is provided with straw scraps scattered in the field scene at a front position in the traveling direction of the grooving body. A pretreatment member capable of discharging scattered fields in the field to the side is provided, and a plow member capable of scooping field soil at the rear position in the traveling direction of the grooved body and discharging to the side is provided in the machine frame. A field digging machine comprising a vibration mechanism for vibrating the machine frame. 2. The pretreatment member is rotatably disposed on the machine frame, a drive mechanism for rotating the pretreatment member is provided, and an eccentric weight body is disposed on the pretreatment member as the vibration mechanism. The field ditcher according to claim 1, wherein the field ditcher is configured as follows. 3. The field according to claim 1 or 2, wherein a weight is attached to the machine frame so as to be capable of suppressing floating of the machine frame due to grooving resistance of the plow member. Ditcher.