KR100497300B1 - Raice paddy ridger - Google Patents

Abstract

In accordance with the rotation of the rotary granules, the pressing plate body is strongly compacted through the pressing plate body by the pressing surface part at the same time as compacting the accumulated soil, and intermittently compacted by the presence of the plurality of pressing surface parts, As a result, the pressing area is reduced compared to the structure of compacting on the entire outer circumferential surface of the rotary granules, so that the compaction force can be increased, and thus, the granules can be firmly formed.

A plurality of pressing surface portions K are formed on the outer circumferential surface portion of the rotary crotch organizer 13 at intervals, and at the same time, the pressing surface of the pressing surface portion at the rear position adjacent to the pressing surface portion side of the front position in the rotational direction of the rotary crotch structure It is made by arranging and pressing plate body (G) to reach.

Description

Irang Cleaning Machine {RAICE PADDY RIDGER}

The present invention relates to a mockup cleaning machine used for, for example, mockup work or restoration work.

Conventionally, as this kind of mock-up rearranging machine, JP-A-51-141212, JP-A 51-47785, JP-A-53-102411, JP-A-53-20316 JP-A-51-100409, JP-A-60-119209, JP-A-61-175905, JP-A-61-47103, JP-A-61-212202 The structures shown in Japanese Patent Application Laid-Open No. 62-1507, Japanese Patent Application Laid-Open No. 61-158105, Japanese Patent Application No. 3-79605, and Japanese Patent Application No. 5-60207 are known.

In these conventional structures, a rotary rotor which connects the machine frame to the traveling machine body as a coupling mechanism so as to be movable, and spreads soil on an old ridge as a fill mechanism on the machine frame, has its rotation axis parallel to the ridge composition direction. Or install in the cross direction, install the cover member on the upper side of the rotary rotor and the top of the rotator in the machine frame, and the gyrostructure in the shape of the top surface of the mockup and one side of the ridge in the rearward direction of the rotation rotor And a crank-type or hydraulic gyro-tapping mechanism for tapping the gyrus in a reciprocating manner with the power output shaft of the vehicle body as a driving source, and driving the vehicle body along the old ridge to rotate The mud in the field is piled up on the old ridge with the rotor, and the land is struck by the movement of the ridge on the ridge. It is configured to.

In another conventional structure, as a gynecological mechanism, a vibrating mechanism for vibrating the gynecological mechanism is provided by using the power output shaft of the traveling machine body as a driving source, and the soil accumulated on the old gyrus It is configured to be compacted by the vibration operation.

However, in the case of the conventional structure, there is an inconvenience in that it is not always possible to perform satisfactory mockup work depending on working conditions such as soil quality and weather of ridges that differ depending on the region.

The present invention aims at solving such inconveniences. In the present invention, the first invention connects a machine frame to a traveling machine body by a connecting mechanism, and piles up soil on an old ridge on the machine frame. It is made by installing the filling mechanism, and installing the mockup theorem which consists of a rotator angulation body that can be rotated and cleaned by the contact rotation at the rearward position of the ridge mechanism. A plurality of pressing surface portions are formed in the surface portion at intervals, and a pressing plate body is formed which is arranged from the pressing surface side of the front position in the rotational direction of the rotary rib arrangement to the pressing surface of the pressing surface portion of the adjacent rear position. This is a mockup cleaning machine.

The second invention is characterized in that a through hole is formed between the adjacent pressing surface portions, and the third invention is formed by forming the pressing plate body as a flexible plate material.

Embodiment

1 to 13 show an embodiment of the present invention, FIGS. 1 to 9 show a first embodiment, FIG. 10 shows a second embodiment, and FIG. 11 shows a third embodiment, 12 and 13. Is an example of the third embodiment.

In the first embodiment of Figs. 1 to 9, (1) is a traveling device body, in which case a tractor is used, and a three-point linkage linkage mechanism 2 is provided at the rear of the traveling device body 1. The machine frame (3) is connected to Shanghai East.

(4) is a filling mechanism, which in this case consists of a filling body (5) consisting of a rotating rotor, the filling body (5) protruding and installing a plurality of scraping blades (5b) on the outer circumference of the rotor body (5a) At the same time, the attachment shaft 5c is protruded and installed on the rotor body 5a, and the filling body 5 is rotatably attached to the machine frame 3 with its rotation axis parallel to the composition direction. The shaft 3 supports the main shaft 7 that is rotated by the power output shaft 6 installed in the traveling machine body 1 on the machine frame 3, and the soil body 5 is shifted from the main shaft 7 to the gear train for changing direction ( 8) and through the chain mechanism (9), and by the rotation of the fill body (5) is cut into the trajectory (N) for cutting the soil of the field surface (M) between the ridges, and piled up and stacked toward the old ridges. It is configured to

10 is a cover member, which is attached to the machine frame 3 in this case, and is formed in a shape covering the upper part of the fill body 5 and the upper part of the ridge W, and the ridge side of the cover member 10. The side cover member 11 is attached freely in Shanghai.

(12) is a gynecological theorem mechanism, in which case the gyrus (W) surface is composed of a rotary gyration organizer (13) and a rotary mechanism (14) capable of arranging the rotation by the contact contact rotation of the outer peripheral surface portion, clean body 13 are denoted by the one side (W ₂₎ the yirang clean as possible side yirang jeongribu (13a) and yirang top face (W ₁₎ to yirang clean as possible top yirang jeongribu (13b) of (W) of yirang (W) It is installed freely, and the rotation axis P1 is arranged in the horizontal direction, and the rotation groove arranging body 13 is forcedly rotated in the direction of the arrow in the drawing with the rotation mechanism 14 around the rotation axis P ₁ . It is configured as possible.

In this case, a plurality of pressing surface portions K · K are spaced apart from each other in the outer periphery surface portions of the side grain top portion 13a and the top surface top portion 13b as the rotary grain top 13, in this case, eight are formed. At the same time, arranging and installing the pressing plate body G extending from the pressing surface portion K side of the rotary surface arranging body 13 to the pressing surface K ₁ as the outer surface of the pressing surface portion K of the adjacent rear position. Thus, the through hole F is formed between the adjacent pressing surface portions K · K.

In this case, the mounting frame 15 is installed in the machine frame 3, the bracket 16 is protruded and installed in the mounting frame 15, and the bearing cylinder 17 is attached to the bracket 16, thereby supporting the bearing. The drive shaft 18 is horizontally installed in the cylinder 17 horizontally freely, and the frame body 19 is installed in the side surface of the rear part of the said machine frame 3, and the gear mechanism 20 and the chain mechanism 21 in the frame body 19 are provided. ), The transmission shaft 22 is installed horizontally in the lower part of the frame 19, and the transmission shaft 22 and the main shaft 7 are transmitted by the gear mechanism 20 and the chain mechanism 21 to be connected. At the same time, the drive shaft 18 and the transmission shaft 22 are connected to each other by a flexible flexible joint 23 which is freely stretched, and the rotor shaft 13c disposed at the center of the rotary gutter 13 in this drive shaft 18. And the rotary funnel 13 by the rotation of the main shaft 7 in the direction of the arrow in the drawing, by the rotary contact of the outer peripheral surface portion of the fungus 13 One side The surface (W ₂ ) is compacted and cleaned up at the same time, and the upper surface (W ₁ ) of the mockup (W) is configured to chop up.

In addition, the side ribs 13a as the rotary ribs 13 are provided with a plurality of plate-shaped horizontal plate members 24c spaced apart between the large-diameter ring member 24a and the small-diameter ring member 24b. The welding fixed attachment to the shape and the welding reinforcement ring (24d) is attached to the inner circumferential surface of each horizontal plate (24c), and the hexagonal rotor shaft (13c) in the center of the side ribs (13a) A connecting shaft 24e fixed through the joint, and a plurality of connecting pillars 24f are welded between the connecting shaft 24e and the large diameter ring member 24a and the small diameter ring member 24b by welding. In addition, the upper surface chamfering portion 13b is welded and fixed radially with a plurality of plate-shaped horizontal plate members 25c spaced between the ring member 25a and the ring member 25b of the same diameter. In addition, the connection is fixed to the center of the side surface trimming portion (13a) by fitting to the hexagonal rotor shaft (13c) The shaft 25d is disposed, and a plurality of connecting column 25e is welded between the connecting shaft 25d, the ring member 25a, and the ring member 25b, and the plurality of horizontal plate members 24c are formed. 25c) is formed in the pressing surface portion K, and is formed between the adjacent pressing surface portions K and K as through holes F, and the outer surface of the pressing surface portion K is the pressing surface K ₁ . , The attachment piece K ₂ is provided on the pressing surface portion K, the pressing plate body G is arranged in the attachment piece K ₂ by the attachment portion K ₃ made of a bolt nut, and the rotor shaft 13c. The top shaft trimming portion 13b is attached to the side grain trimming portion 13a by fitting and removing the connecting shaft 25d.

In this case, the press plate G is made of a synthetic resin plate such as a flexible nylon resin or a vinyl chloride resin, and at no load, becomes almost flat in plate shape, and bends into an arc shape by an external load. At the same time, when the load is released, a material which is almost flat and deformed by magnetic elasticity is used. On the other hand, the press plate body G may use metal plate materials, such as spring steel used for a leaf spring, and another resin plate material.

Reference numeral 26 is a mechanism for mowing the soil, in which case the intermediate shaft 27 is axially installed in the cover member 10 in the forward and backward directions, and the retaining frame 28 is vertically swinged up and down concentrically with the intermediate shaft 27. It attaches freely, and attaches the rotor shaft 29 freely to the front-end | tip of the holding | maintenance frame 28, and attaches the rotor 30 which cuts the soil which has a some long blade-shaped blade body to the rotor shaft 29, The chain mechanism 32 is rotated between the main shaft 7 and the intermediate shaft 27, and at the same time, the chain mechanism 32 is provided between the intermediate shaft 27 and the rotor shaft 29. The upper surface portion of the old ridge in the forward direction of the fill body 5 of the mechanism 4 is rotated by the trajectory S, which is cut by the rotor 30, which is rotated by the main shaft 7, to cut the soil. It is configured to be.

Reference numeral 33 is a stabilizing member, which in this case consists of wheels such as rubber tires.

Since the first embodiment has the configuration as described above, the traveling machine body 1 is driven along the old ribs, and when the power output shaft 6 is rotated, the rotary rotor as the fill body 5 is formed on one side. Field mud is continuously stacked on an old ridge, and the cover member 10 prevents the mud from scattering on the top and the ridge of the fill body 5, and the raised mud prevents the mud from scattering outward. By means of the drive output body 6 of the driving machine body 1 as a driving source, the gyro-organization mechanism 12 is driven, and the gyro-organization mechanism 13 is rotated by the rotary mechanism 14. And a plurality of pressing surface portions K · K are formed on the outer circumferential surface portion of the rotary gyrostructure 13 at the same time, and from the pressing surface portion K side at the front position of the rotary gyrostructure 13 in the rotational direction. adjacent to the pressing plane (K ₁₎ of the pressing surface (K) of the rear position Since the le is arranged in the pressing plate body G, as shown in Figs. 7 and 8, the rotary gripping device 13 is rotated in a direction to help advance the traveling device body 1 in the direction of the arrow in the drawing. The pressing plate body (G) is compacted by the pressing plate body (G) by the pressing surface portion (K) at the same time as compaction of the soil gradually accumulated, and is intermittently compacted by the presence of the plurality of pressing surface portions (K). Due to the presence of the pressing surface portion (K), the compaction area can be reduced compared to the structure of compacting on the entire outer circumferential surface of the rotary gyroscopic structure 13, thereby increasing the compaction force, and thus it is possible to stiffen the ridges accordingly. By increasing the rotational speed of the rotary grooved body 13 with respect to the traveling speed of the traveling device body 1, the pressing plate body G of the rotary grooved body 13 comes into rotational sliding contact with the grooved surface, and this rotational sliding contact By one side of mockup (W) The surface (W ₂ ) and the upper surface (W ₁ ) of the ridge (W) can be smoothly and firmly arranged to form a mockup, thereby obtaining a more rigid mockup.

At this time, since the through hole F is formed between the adjacent pressing surface portions K · K, the through hole F is intermittently concave the ridged surface, so that it can be firmly made. At the same time, the presence of the through hole F can suppress the adhesion of soil to the outer circumferential surface portion of the rotary granules 13, and can perform good granularity work and press plate body G. ) Is formed of a flexible plate, the pressing plate body (G) can gradually compact the accumulated soil while bending in a flat shape, and can reliably compact the accumulated soil.

In addition, in this case, the old ridged surface can be cut in advance by the soil cutting mechanism 26, and the soil is piled up by the landfill mechanism 4 on the ridged surface where the soil is cut, so that the soil of the old ridged and the accumulated soil and The binding property of the upper surface can be increased and the rigid ridges can be obtained, and in this case, the upper surface confinement portion 13b is attached to the side surface confinement portion 13a so as to be freely attached and detached. By removing the arranging part 13b, the side surface of a high ridge, a road, and a bank surface can be refined, and the flexibility of a use can be improved.

The second embodiment of Figure 10, shows a further example structure of a rotating yirang clean body 13, in this case, one side of the axis of rotation (P ₁₎ of the rotary yirang clean body 13 yirang (W) ( W ₂ ) is disposed in an upward direction of a predetermined angle θ that is inclined from the side to the ridge (W) side, and the rotary groove arranging body 13 is centered on the rotation axis P ₁ by the rotation mechanism 14. It is configured to be forcibly rotated in the direction of the arrow in the drawing.

According to the second embodiment, the same effects as those of the first embodiment can be obtained, and at the same time, the rotation axis P ₁ of the rotary groove organizer 13 has one side surface W _{2 of the} groove W. Since it is disposed in the upward direction of a predetermined angle θ that is inclined upwardly from the side of the side to the ridge (W) side, one side surface of the ridge (W) formed by the outer circumferential surface portion of the rotary groin organizer (13) W ₂ ) can lengthen the length of pressing the soil, it is possible to improve the compaction of the soil, and at the same time lower the height of the vertical direction of the rotary gutters 13, the whole of the device The height of the machine can be lowered and the size can be reduced.

The third embodiment of Figure 11, shows a further example structure of a rotating yirang clean body 13, in this case, the first embodiment example attached to delete the piece (K _3), and the rotation yirang clean body 13 The pressing plate body G is attached to the pressing surface part K in the rotational front position by the attachment part K ₃ , and the pressing plate body G is the pressing surface K as the outer surface of the pressing surface part K in the rear position. _It is formed to reach ₁ ).

According to this third embodiment example, the same effects as those of the first embodiment can be obtained.

12 and 13 also show the structure of another example of the rotary crotch organizer 13, in which case the side crotch organizer 13a and the top crotch organizer 13b of the rotary crotch organizer 13 are formed. Arrange and install the tubular front cover plate (T) on the outer circumferential surface, and space the pressing surface portion (K) of the horizontal plate shape on the outer surface of the front cover plate (T), in this case, fix it The pressing plate body G is attached to the pressing surface part K side of the front surface plate T in the rotational front position of the rotary groove arranging body 13 by the attachment part K ₃ , and the adjacent pressing surface part K is attached. The through hole F does not exist between the two sides, and the pressing plate body G is formed so as to reach the pressing surface K ₁ serving as the outer surface of the pressing surface portion K at the rear position. The pressing surface K ₁ is formed on the outer circumferential surface portion of the rotary furrow organizer 13 by protruding outward from the front in the rotational direction of the rotary furrow organizer 13 to the rear. Doing.

In the fourth embodiment, the same effects as those of the first embodiment can be obtained except for the effects of the through holes F. FIG.

In addition, this invention is not limited to the said embodiment example, For example, as a filling mechanism 4, the rotating rotor which has a rotation axis of the direction which cross | intersects with a ridge | corner composition direction can also be employ | adopted, and the said embodiment example In addition, an additional structure for vibrating the rotary funnel organizer 13 by a hydraulic or eccentric weight vibrating mechanism, or by tapping with a crank or hydraulic method, may be employed. Moreover, the pressing surface of the pressing surface part K of the said 1st-3rd example may become a shape which protrudes outward gradually as it goes to the back from the front of the rotation direction of the rotary grooves 13, and , The pressing plate body (G) is formed of a non-flexible material or a plate of a material that is not elastically restored, and the pressing plate body (G) is a pressing surface of the front position in the rotational direction of the rotary gutter (13) Rotation direction front side of the (K) said array disposed to the outer press surfaces (K ₁₎ as a side, and further, the push plate body (G) is rotated yirang clean body 13 of the pressing surface (K) of the rear position adjacent from the sides In some cases, it is installed so as to protrude outward toward the rear side. In addition, the number or shape of the pressing surface portion (K) and the through hole (F), and the size or material of the pressing plate body (G) are appropriately changed. do.

As described above, in the first aspect of the present invention, when the traveling machine body is driven along the ridges, the clay mechanism on one side piles up the mud of the field on the ridge, and on the other side, the ridge arrangement mechanism is driven and rotated. The gynecological body rotates and forms a plurality of spaced pressing surfaces on the outer circumferential surface of the rotary gyroscopic body, and at the same time, the pressing surface part of the rear surface adjacent to the pressing surface side of the front position in the rotational direction of the rotary gyroscopic body is pressed. Since the pressing plates reaching the surface are arranged, the pressing plates are compacted by the pressing surface as the rotary plate is rotated, and the pressing plates are strongly concentrated by the pressing surface. It is intermittently compacted and compared to the structure of compacting on the entire outer circumferential surface of the rotary granules by the presence of a plurality of pressing surface portions. It becomes smaller as the area is possible to increase the compaction force, it is possible to lay the yirang much solid can be carried out in good yirang cleanup operations.

In the second aspect of the invention, since the through hole is formed between the adjacent pressing surface portions, the ridge surface is intermittently interposed by the through hole, and the solid surface can be firmly formed. Since the adhesion of soil to the outer circumferential surface portion of the rotary granules can be suppressed, good granules can be cleaned, and in the third aspect of the invention, the press plate is formed of a flexible plate. The pressing plate body can slowly compact the accumulated soil while bending from a flat shape, and can reliably compact the accumulated soil.

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

1 is an overall side view of a first embodiment example of the present invention.

2 is a side view of a first embodiment example of the present invention.

3 is a plan sectional view of a first embodiment example of the present invention.

4 is a rear view of a first embodiment example of the present invention.

5 is a front view of a first embodiment example of the present invention.

6 is an enlarged cross-sectional view of an example of the first embodiment of the present invention.

Fig. 7 is a partially enlarged cross sectional view of a first embodiment example of the present invention.

Fig. 8 is a partially enlarged cross-sectional view of a first embodiment example of the present invention.

9 is an explanatory perspective view of an example of the first embodiment of the present invention.

10 is a partial rear view of a second embodiment example of the present invention.

Fig. 11 is a partially enlarged cross-sectional view of a third embodiment example of the present invention.

12 is an explanatory perspective view of a fourth embodiment example of the present invention.

Fig. 13 is a partially enlarged cross-sectional view of a fourth embodiment example of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: driving device body 2: connection mechanism

3: machine frame 4: fill mechanism

5: fill body 5a: rotor body

5c: Attached shaft 6: Power output shaft

7: Spindle 8: Direction shift gear train

9, 21, 31, 32: chain mechanism 10: cover member

11: side cover member 12: gyrus cleaning mechanism

13: Rotating theorem 13a: Sides and theorem

13b: upper surface trimming part 13c, 29: rotor shaft

14: rotating mechanism 15: attachment frame

16 bracket 17 bearing barrel

18: drive shaft 19: frame

20: gear mechanism 22: transmission shaft

23: flexible joint 24a: large diameter ring member

24b: small diameter ring member 24c, 25c: horizontal plate

24d: Reinforcing ring 24e, 25d: Connecting shaft

24f, 25e: connecting column 25a, 25b: ring member

26: the mower 27: the intermediate shaft

28: holding frame 30: rotor

33: stabilizer W: mockup

W ₁ : Top W ₂ : Side

K: Pushing surface part K ₁ : Pushing surface

K ₂ : Attachment piece K ₃ : Attachment part

G: Pressing plate F: Through hole

P ₁ : axis of rotation T: front cover plate

Claims (3)

The machine frame is connected to the body of the driving machine by the coupling mechanism, and the machine mechanism is installed on the machine frame to pile up the soil on the old ridge, and the ridge surface is pushed in the rearward direction of the soil mechanism by the contact rotation. It is made by installing a mockup theorem consisting of a rotary gyrus theorem, which is possible to organize the gyro, and forming a plurality of spaced pressing surfaces on the outer circumferential surface of the rotary gynecological body and at the same time the rotational direction of the rotary gynecological body And a pressing plate body which is arranged from the pressing surface side of the pressing surface to the pressing surface of the pressing surface of the adjacent rear position. 2. The ridge cleaning machine according to claim 1, wherein a through hole is formed between the adjacent pressing surface portions. 3. The gyrus cleaning machine according to claim 1 or 2, wherein the press plate body is formed of a flexible plate material.