JP3647973B2 - 畦 coating machine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a paddle coater, and more particularly to an apparatus for repairing an old paddle that partitions a paddy field to prevent water leakage.
[0002]
[Prior art]
  Conventionally, as this kind of cocoon coater, for example, as described in Japanese Patent Application Laid-Open No. 6-22604, a rotary having a tilling claw that fills the cocoon forming part (old cocoon) is provided rotatably. A rotary tool is provided at the rear part of the rotary so as to solidify the embankment of the paddle forming part to form a paddle. The rotary tool is mounted on a horizontal rotating shaft as shown in FIG. A configuration is known in which a cylindrical rotating body that forms the upper surface of the collar, and an inner rotating plate and an outer rotating plate having conical surfaces that form inner and outer surfaces of the collar are fixed to both ends of the rotating body. Further, as shown in FIG. 9, the rotating tool has an inner rotating plate having a conical surface fixed to the rotating body and an inner end portion of the rotating body by omitting an outer rotating plate on the horizontal rotating shaft. The structure which adheres is known.
[0003]
[Problems to be solved by the invention]
  In the configuration described in the above publication, a rotating plate and a rotating body having a conical surface are fixed to a horizontal rotating shaft, and the rotating body is cylindrical. The mud is pushed up from the bottom of the heel toward the top of the heel by the surface, and the mud and the mud pushed forward by the cylindrical rotating body that forms the upper surface of the heel makes a soil volume in front of the rotating body. As the swelled up puddle is formed, the mud of the puddle is easily pushed out to the side part of the rotating body, and the clogging is easy to be pushed up by the clogging as it progresses. There is a problem that the upper part and the shoulder part of the bag cannot be sufficiently compacted, and the wrinkles are liable to collapse from the shoulder part, which is not preferable in order to apply a wrinkle that can last for a long time.
[0004]
  The present invention has been made in view of the above points, and it is possible to sufficiently fix and repair the shoulder portion of the old bag as well as the side and upper portion of the old bag, and the old bag is difficult to collapse from the shoulder. It is an object of the present invention to provide a wrinkle coating machine that can repair wrinkles into wrinkles that can withstand long-term use.
[0005]
[Means for Solving the Problems]
  According to a first aspect of the present invention, there is provided a rotary coater having a rotary claw having a cutting claw for cutting and splashing the mud for spreading, and a rotary rotary unit positioned behind the rotary so as to be rotatable about a rotary shaft. The muddy soil bounced up by the cutting claws of the lacquer is applied to the old paddle to repair the old paddle, and the crushed body expands the side of the old paddle downward. A cone-shaped side restoration body that repairs to an inclined surface, and a cone that is connected to the reduced diameter end portion of the side restoration body, expands and projects from the reduced diameter end portion, and restores the upper part of the old ridge to a horizontal surface And a mounting means for attaching the plaster body to the rotary shaft so that it can be converted into eccentric rotation.The attachment means includes a first attachment body fixed to the rotating shaft, and a radial insertion of the brushed body that is fixedly attached to the inner surface of the brush coating so that the rotation shaft can be displaced in a central portion. A second attachment body having a hole; and a fixture for fixing the second attachment body to the first attachment body. The side restoration body and the upper surface restoration body are detachable from each other. Each of the flanges has a connecting hole, and each of the flanges has a guide hole through which the first mounting body fixed to the rotating shaft is inserted.Is.
[0006]
  When the rotary and the brushed body are respectively rotated along with the old edge, the side surface and the edge of the old edge are sequentially cut by the rotary cutting claws. The soil is spun up sequentially toward the paddy body as paddy mud. Moreover, the mud for dredging supplied to the dredging body is sequentially applied along the side of the old dredge by the side restoration body of the dredging body, and the side of the old dredging is directed downward. At the same time, the widened inclined surface is repaired sequentially, and at the same time, the upper surface of the wrinkle-coated body is sequentially applied along the upper part of the old wrinkle, and the upper part of the old wrinkle is successively restored to the horizontal surface. Therefore, the old wrinkles are sequentially restored to a predetermined form by the side restoration body and the upper surface restoration body of the wrinkle coat. At this time, the mud when repairing the side of the old fence with the side restoration body is pushed up toward the shoulder of the old fence on the reduced diameter side, and the upper part of the old fence is restored with the upper surface restoration body The mud is then directed toward the shoulders of the old fence on the reduced diameter side, and these mud soils are sequentially applied to the shoulders of the old fence at the reduced diameter ends of the side restoration bodies connected to the upper restoration body. Thus, the shoulders of the old heels are tightened and repaired sequentially. In addition, the plaster body having the side restoration body and the upper surface restoration body is eccentrically rotated by the rotation shaft, so that the mud soil is strongly pressed against the side portion of the old paddle with this side restoration body, At the same time, the side of the old fence was restored to the inclined surface that expanded downward, and at the same time, mud was strongly applied to the upper part of the old fence by the upper surface restoration body. The upper part is repaired sequentially to a horizontal surface. Therefore, as a whole, the side, shoulder and upper part of the old bag are firmly compacted and repaired sequentially. Moreover, the dredging body having the side restoration body and the upper surface restoration body is concentrically rotated around the rotation shaft, so that mud is sequentially applied along the side of the old fence by the side restoration body. At the same time, the side of the slab is restored to an inclined surface that expands downward, and at the same time, mud is applied sequentially along the upper part of the old slag by the top restoration body, and the upper part of this slag is made horizontal. Repaired sequentially. Therefore, as a whole, the side, shoulder and upper part of the old bag are firmly compacted and repaired sequentially.
[0007]
  The rotating shaft is inserted into the insertion hole of the second mounting body of the smeared body, and the second mounting body of the smearing body is in contact with the first mounting body of the rotating shaft. The coating body is moved to a predetermined position within the range of the length of the insertion hole to set the rotation center of the glazed body, and the second mounting body is fixed to the first mounting body with a fixture. By doing so, the glazed body is easily converted into concentric rotation or eccentric rotation. Also, the side restoration body and the upper surface restoration body can be easily attached / detached / replaced when one of the side restoration bodies and the upper surface restoration body impedes the mud application work, for example, when one of them is worn or damaged. Further, at the time of attachment, the first attachment body fixed to the rotary shaft can be easily inserted and attached from the guide hole of the flange into the coating body.
[0008]
ContractClaim2The wrinkle coater described1In the above-described plating machine, one of the first mounting body and the second mounting body has a plurality of screw holes, and the other has a plurality of radial coatings of the coating body communicating with the plurality of screw holes. The fixture has a plurality of bolts that are respectively screwed into the plurality of screw holes from the plurality of attachment long holes.
[0009]
  Then, when converting the glazed body to eccentric rotation, the plurality of bolts are relaxed, and within the range of the length of the insertion hole and the plurality of attachment long holes via the rotation shaft and the plurality of bolts. By moving the coating and converting and setting the rotation center of the glazed body, and tightening a plurality of bolts in the screw holes, the glazed body is easily converted to eccentric rotation.
[0010]
  Claim3The wrinkle coater described1 or 2In the wrinkle coater described above, the first mounting body and the second mounting body are each formed in an arc shape with the rotation center portion in the vicinity of the enlarged diameter end portion of the upper surface restoration body of the wrinkling body as a virtual center point. is there.
[0011]
  When the smeared body is converted to eccentric rotation, when the smeared body is rotated around the virtual center point, the arcuate second attachment body of the smeared body is the arc-shaped first of the rotation axis. It is rotated by a circular arc movement that moves along one mounting body, and the glazed body is smoothly and easily converted into an eccentric rotation. Thus, the upper surface restoration body of the smeared body is converted to an eccentric rotation that swings with a small width, and the side surface restoration body of the wrinkle body is converted to an eccentric rotation that swings with a larger width than the upper surface restoration body.
[0012]
ContractClaim4The wrinkle coater according to claim 1, wherein the wrinkle coater according to claim 1 is provided between the side restoration body and the upper face restoration body and has a shoulder restoration portion that restores the shoulder portion of the old bag to an inclined surface. . Then, the muddy soil is sequentially applied to the shoulders of the old paddle at the shoulder repair section, and the shoulder parts of the old paddle are firmly fixed to the inclined surface and repaired sequentially.
[0013]
  Claim5The wrinkle coater described1In the wrinkle coater described above, the upper surface restoration body has a detachable guide body that is rotated along a side portion opposite to the side portion of the old wrinkle to be restored on the outer peripheral portion of the enlarged diameter end portion. Then, the glazed body is smoothly advanced along the side portion of the old ridge by this guide body. This guide body is particularly effective when repairing the middle collar.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
  Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
[0015]
  Reference numeral 1 denotes a machine frame. The machine frame 1 has a front-rear direction mission case 2 that also serves as a main frame, and a front-end input shaft 3 projects forward from the front end of the mission case 2 so as to be freely rotatable. The input shaft 3 is rotatably supported by front and rear bearing bodies 4 provided in the mission case 2, and the input shaft 3 includes a vicinity of the front bearing body 4 and a rear end of the input shaft 3. The bevel gears 5 are fixed to each other.
[0016]
  A hollow pipe-shaped first transmission frame 7 having a bearing body 6 is provided on the right side of the front side portion of the transmission case 2 so as to project at a predetermined inclination angle toward the lower right side. The transmission frame 7 is supported by support means (not shown).
[0017]
  Further, a left and right hollow pipe-like support frame 8 is integrally provided on the left side of the front side portion of the transmission case 2 so as to project substantially horizontally toward the left side. In addition, a connecting arm 9 in the front-rear direction is integrally fixed to the outer end portion of the support frame 8, and a lower pin 10 protrudes from the tip end portion of the left connecting arm 9.
[0018]
  Further, a mast 11 is integrally projected from the upper part of the transmission case 2 toward the front upper side, and a left and right connecting pin 12 is fixed to a bifurcated portion at the tip of the mast 11. In addition, a connecting arm in the front-rear direction (not shown) is integrally fixed to the transmission case 2 via a supporting member (not shown) in the same plane and in parallel with the connecting arm 9, and a lower pin projects from the tip of the connecting arm. Has been.
[0019]
  A three-point connecting portion of a quick coupler 13 connected to and supported by a three-point link mechanism of a tractor is detachable at three points of the lower pin 10 of the left and right connecting arms 9 and the connecting pin 12 of the mast 11. It is designed to be connected.
[0020]
  Next, a first output shaft 14 is rotatably inserted into the first transmission frame 7, and an inner end portion of the first output shaft 14 is rotatably supported by the bearing body 6. In addition, the outer end portion of the first output shaft 14 is rotatably supported by a bearing body 15 provided at the outer end portion of the first transmission frame 7.
[0021]
  A bevel gear 16 meshed with the bevel gear 5 on the front side of the input shaft 3 is fixed to the inner end portion of the first output shaft 14. A rotary 17 that cuts the mud for coating and flips it up toward a cocoon body to be described later is detachably connected.
[0022]
  The rotary 17 includes a rotary shaft 18 detachably connected to an outer end portion of the first output shaft 14 and a plurality of brackets 19 projecting radially at intervals in the axial direction of the rotary shaft 18. And a large number of cutting claws 20 detachably attached to the respective brackets 19. And the said rotary 17 is connected with the inclination angle adjusted according to the condition of the field, the state of the old fence A, etc.
[0023]
  Next, on the right side of the rear side portion of the transmission case 2, a hollow pipe-like second transmission frame 22 having a bearing body 21 is inclined and protruded integrally with the upper right side. A second output shaft 23 is rotatably inserted into the frame 22, and an inner end portion of the second output shaft 23 is rotatably supported by the bearing body 21. The outer end portion is rotatably supported by a bearing body 24 provided at the outer end portion of the second transmission frame 22. A bevel gear 25 meshed with the bevel gear 5 at the rear end of the input shaft 3 is fixed to the inner end of the second output shaft 23.
[0024]
  Further, a transmission case 26 in the vertical direction is attached to the outer end portion of the second transmission frame 22 so as to be rotatable rearward and downward in a state orthogonal to the second transmission frame 22. . In addition, an upper and lower bracket 27 is provided at an intermediate portion of the second transmission frame 22 in a state orthogonal to the second transmission frame 22 so as to be rotatable rearward and downward in parallel with the transmission case 26. It is attached.
[0025]
  Further, the transmission case 26 and the bracket 27 are connected by a connecting member (not shown), and a support piece 28 protruding integrally from the connecting member is pivotally attached to one end portion of the adjustment support means 29. The adjustment support means 29 is provided in the machine casing 1. The transmission case 26 and the bracket 27 are integrally rotated by the adjustment operation of the adjustment support means 29 and supported at an adjusted inclination angle.
[0026]
  Next, between the lower ends of the transmission case 26 and the bracket 27, the mud mud that is positioned behind the rotary 17 via the rotary shaft 30 and is spun up by the cutting claws 20 of the rotary 17 is removed. A plaster body 31 that is applied to A and repairs the old coral A is rotatably supported. The rotary shaft 30 is parallel to the second transmission frame 22 and in the state where the transmission case 26 side is high and the bracket 27 side is low so that the rotary shaft 30 is inclined at a predetermined angle with respect to the old rod A during operation. Between the bearing body 26a at the lower end portion of the case 26 and the bearing body 27a at the lower end portion of the bracket 27, a shaft is rotatably mounted.
[0027]
  The plaster body 31 is connected to a conical side repair body 32 that repairs the side B of the old scissors A to an inclined surface that is expanded downward, and a reduced diameter end portion 33 of the side repair body 32. And a conical upper surface restoration body 34 that expands outward from the reduced diameter end portion 33 and protrudes outward to restore the upper portion C of the old ridge A to a horizontal surface.
[0028]
  The side restoration body 32 is formed such that a cylindrical portion 37 having the reduced diameter end portion 33 projects integrally with a minimum reduced diameter portion 36 of a conical restoration surface 35, and the reduced diameter end of the cylindrical portion 37 is formed. An annular flange 39 having a guide hole 38 through which the rotating shaft 30 and a mounting body to be described later are inserted is fixed to the part 33 integrally. Thus, the side restoration body 32 includes a conical body 32a having a cylindrical portion formed of metal, and a cylindrical portion formed of a synthetic resin that is integrally fixed to the outer peripheral portion of the conical body 32a. And a conical envelope body 32b.
[0029]
  The upper surface restoration body 34 is integrally formed with a cylindrical portion 43 having a reduced diameter end portion 42 that abuts on the reduced diameter end portion 33 of the side surface restoration body 32 on the minimum diameter reduction portion 41 of the conical restoration surface 40. An annular flange 45 having a guide hole 44 through which the rotary shaft 30 and a mounting body described later are inserted is fixed to the reduced diameter end portion 42 of the cylindrical portion 43 integrally. The flange 45 abuts on the flange 39, and the guide hole 44 communicates with the guide hole 38.
[0030]
  Thus, the upper surface restoration body 34 includes a conical body 34a having a cylindrical portion formed of metal, and a cylindrical portion formed of a synthetic resin that is integrally fixed to the outer peripheral portion of the conical body 34a. And a conical outer casing 34b. The upper surface restoration body 34 has a conical envelope body 34b formed of a synthetic resin on the surface portion, and the side surface restoration body 32 is a conical envelope body 32b formed of a synthetic resin on the surface portion. As a result, the mud is not easily attached during work, and rusting is prevented.
[0031]
  The flange 45 of the upper surface restoration body 34 is brought into contact with the flange 39 of the side restoration body 32, and the flanges 39, 45 are connected to the plurality of bolts and nuts 46 in a state where the mutual guide holes 38, 44 are communicated. The upper surface restoration body 34 is attached to the side restoration body 32 in a state where the reduced diameter end portion 42 of the upper surface restoration body 34 is in contact with and connected to the reduced diameter end portion 33 of the side restoration body 32. It is connected continuously.
[0032]
  Thus, the shoulder of the old heel A is located between the side restoration body 32 and the upper surface restoration body 34, that is, by the cylindrical portion 37 of the side restoration body 32 and the cylindrical portion 43 of the upper surface restoration body 34. A shoulder repair portion 47 having a predetermined width for repairing the portion D to an inclined surface is configured.
[0033]
  Next, an attachment means 48 is provided on the rotating shaft 30 for attaching the brushed body 31 having the side restoration body 32 and the upper surface restoration body 34 so that it can be converted into eccentric rotation. The attachment means 48 is attached to the rotary shaft 30 so that it can be variably adjusted so that it can be converted into a concentric rotation around the axis 31 of the central portion of the brushed body 31 and an eccentric rotation moved from the concentric rotation to the eccentric position.
[0034]
  The attachment means 48 includes a disk-shaped first attachment body 49 that is fixed to a substantially intermediate portion of the rotary shaft 30 and that passes through the guide holes 38 and 44 of the flanges 39 and 45, and a side surface of the glazed body 31. A disc-shaped second mounting body 51 having a radial insertion hole 50 of a brushed body 31 that is fixed in the restoration body 32 and is inserted through the rotation shaft 30 so as to be able to be displaced in the center, and the second mounting body 51 A fixing tool 52 for fixing the second mounting body 51 to the first mounting body 49 in a state where the rotation center of the brushed body 31 is converted and set to the rotating shaft 30 inserted through the insertion hole 50 of the mounting body 51. And have.
[0035]
  Further, the first mounting body 49 has a plurality of screw holes 53 formed at predetermined intervals on the peripheral edge, and the second mounting body 51 is positioned on the peripheral edge of the insertion hole 50. And a plurality of attachment long holes 54 in the same direction as the insertion hole 50 communicating with the plurality of screw holes 53 (in the radial direction of the plaster body 31). The fixture 52 is composed of a plurality of bolts 55 inserted through the plurality of screw holes 53 and the plurality of attachment long holes 54, respectively.
[0036]
  Further, the first mounting body 49 and the second mounting body 51 are slidable with the rotation center portion in the vicinity of the enlarged diameter end portion of the upper surface restoration body 34 of the glazed body 31 being slidable. It is curved and formed in an arc shape. The rotation center portion in the vicinity of the enlarged diameter end portion of the upper surface restoration body 34 refers to the rotation center portion of the expansion end portion of the upper surface restoration body 34 and a predetermined position on the axis of the rotation center portion of the expansion edge portion. Then, the glazed body 31 has a first attachment body 49 and a second attachment centered on the virtual center point a in a state where a plurality of bolts 55 are relaxed from a state of concentric rotation about the rotation shaft 30. It is converted into eccentric rotation by being moved to the eccentric position b by the circular motion of the body 51.
[0037]
  In addition, the conversion to the eccentric rotation of the brushed body 31 centered on the virtual center point a was performed by inserting the insertion hole 50 of the second mounting body 51 and the plurality of bolts 55 inserted through the rotation shaft 30. It is performed within the range of the plurality of attachment long holes 54 of the second attachment body 51, and the eccentric amount of the glazed body 31 is adjusted within the range of the insertion hole 50 and the plurality of attachment long holes 54. It has become. Then, the plaster body 31 having the side restoration body 32 and the upper surface restoration body 34 is eccentrically rotated by the rotation shaft 30 at the eccentric position b.
[0038]
  Thus, the upper surface restoration body 34 is formed in a small and similar shape to the side surface restoration body 32. The side restoration body 32 is formed to expand toward the bracket 27, and the upper surface restoration body 34 is formed to expand toward the transmission case.
[0039]
  Next, one end portion of the rotating shaft 30 protrudes into the lower end portion of the transmission case 26, and a sprocket 56 is fixed to the protruding end portion of the rotating shaft 30 and protrudes into the upper end portion of the transmission case 26. A sprocket 57 is fixed to the projecting end portion of the second output shaft 23, and an endless chain 58 is suspended between the upper and lower sprockets 56 and 57 so as to be rotatable.
[0040]
  In the figure, reference numeral 59 denotes a soil-proof cover that covers the upper portions of the rotary 17 and the plaster body 31. Further, a gauge wheel (not shown) is rotatably mounted on the transmission case 2 via a connecting member, and a stand (not shown) is movable up and down on the left and right connecting arms 9. It is designed to be detachable.
[0041]
  Next, the operation of the embodiment will be described.
[0042]
  The three-point connecting part (left and right lower pins 10 and 12) of the machine frame 1 is connected to the three-point connecting part of the quick coupler 13 connected to the three-point link mechanism of the tractor, and the power transmission shaft is connected to the PTO shaft of the tractor. The input shaft 3 of the mission in the mission case 2 is connected via
[0043]
  Also, the working height position of the rotary 17 and the hail coat 31 is adjusted according to the situation of the field or the situation of the old hail A, and this rotary 17 and the haze body 31 is adjusted according to the situation of the field or the old hail A. Set to the working height position. Then, the glazed body 31 is adjusted and set to a height for repairing the old jar A and an appropriate position for compacting the old jar A corresponding to the working height position of the rotary 17.
[0044]
  Further, when the field is, for example, a wet paddy field, the padding body is attached to the rotating shaft 30 by the attaching means 48 so that the rotating shaft 30 is positioned at the center of the side surface repair body 32 and the top surface repair body 34 of the padding body 31. By attaching 31, the side surface restoration body 32 and the upper surface restoration body 34 of the brushed body 31 are fixed to the rotating shaft 30 in a concentric rotation state in which it is not eccentrically rotated.
[0045]
  Next, a coater is arranged along the edge of the tractor, and the coater is pulled forward along the edge of the tractor, and the power transmission shaft is driven by the output from the PTO shaft of the tractor. When the input shaft 3 is rotated, the first output shaft 14 in the first transmission frame 7 is rotationally driven by the input shaft 3 and the second output in the second transmission frame 22 is rotated. The shaft 23 is driven to rotate.
[0046]
  Further, when the first output shaft 14 is rotationally driven, the rotary 17 is rotationally driven by the first output shaft 14 in the traveling direction. Further, when the second output shaft 23 is driven to rotate, the second output shaft 23 is coated with a glazed body via the interlocking medium (the upper and lower sprockets 56 and 57 and the endless chain 58 in the transmission case 26). The rotary shaft 30 of 31 is rotated, and the rotary coat 30 is rotationally driven at a high speed at which the coated body 31 slips and rotates with respect to the mud in the traveling direction.
[0047]
  Then, the side B of the old hammer A and the edge of the old hammer A are sequentially cut by the respective cutting claws 20 of the rotary 17, and these cutting soils are removed by the respective cutting claws 20 as the clay for mud coating. The material is sequentially splashed toward the coating body 31, and is guided by the soil-proof cover 59 and supplied to the front of the coating body 31.
[0048]
  At this time, the rotary 17 having a large number of cutting claws 20 projecting radially in the axial direction is connected to a rotatable first output shaft 14 with the old hook A side inclined at a low angle. The side B of the old hammer A is projected at an angle that makes it easy to cut, and the side B of the old hammer A and the edge of the old hammer A are reliably cut by the cutting claws 20 of the rotary 17. The cutting soil is surely supplied to the plaster body 31 as the mud mud.
[0049]
  Further, the mud for dredging supplied to the dredging body 31 is sequentially applied along the side B of the old dredge A on the conical restoration surface 35 of the side restoration body 32 of the dredging body 31. At the same time, the side B of the old hammer A is restored to the inclined surface which is expanded downward, and at the same time, the conical repair surface 40 of the upper face restoration body 34 of the hammer coat 31 The upper part C is sequentially applied along the upper part C, and the upper part C of the old basket A is repaired in order to a horizontal surface.
[0050]
    At this time, the side B of the old heel A can be restored to the inclined surface by the conical restoration surface 35 of the side restoration body 32, and the upper part C of the old heel A by the conical restoration surface 40 of the upper surface restoration body 34. Since the glazed body 31 is inclined at a predetermined angle with respect to the old heel A so that the surface can be restored to a horizontal surface, The mud when repairing B is guided to be pushed up toward the shoulder D of the old anchor A on the reduced diameter side of the repair surface 35, and the upper surface C of the old anchor A is repaired by the repair surface 40 of the upper surface restoration body 34 The mud at this time is guided toward the shoulder D of the old dredge A on the reduced diameter side of the restoration surface 40.
[0051]
  Then, these mud soils are sequentially applied to the shoulder portion D of the old paddle A at the shoulder restoration portion 47 formed by the cylindrical portion 37 of the side restoration body 32 and the cylindrical portion 43 of the upper surface restoration body 34. The shoulder D of the heel A is tightly compacted and repaired to an inclined surface sequentially. That is, the mud collected in the reduced diameter continuous portion of the side restoration body 32 and the upper surface restoration body 34 is sequentially applied to the shoulder D of the old fence A at the shoulder restoration section 47, and the shoulder D of the old restoration A is It is firmly fixed on the inclined surface and repaired sequentially.
[0052]
  In this case, the upper surface restoration body 34 is formed in a conical shape having the shoulder D side of the old heel A as the reduced diameter end portion and the diameter opposite to the shoulder D of the old heel A as the enlarged diameter portion. When repairing the upper part C of the old fence A with the restoration body 34, the mud of the upper part C of the old fence A flows out of the conical diameter expansion side to the outside at the conical restoration surface 40 of the upper restoration body 34. Is prevented as much as possible.
[0053]
  Therefore, the side B, the shoulder D and the upper C of the old heel A are firmly compacted by the side restoration body 32, the shoulder restoration portion 47 and the upper surface restoration body 34 of the glazed body 31, and the old heel A is attached to the side B. It is repaired sequentially in a predetermined shape with the inclined surface expanded in the downward direction, the shoulder D as the inclined surface, and the upper portion C as the horizontal surface.
[0054]
  Next, when the padding body 31 is converted to eccentric rotation, for example, when the farm is a dry paddy field, the insertion holes 50 are inserted through the rotating shaft 30 and the plurality of bolts 55 in a relaxed state. When the smeared body 31 is pivotally adjusted around the virtual center point a within the range of the lengths of the plurality of long mounting holes 54, the arcuate second mounting body 51 of the smeared body 31 is rotated by the rotating shaft 30. Thus, the glazed body 31 is smoothly and easily converted into an eccentric rotation.
[0055]
  Then, by tightening a plurality of bolts 55 in the plurality of screw holes 53 of the first mounting body 49 of the rotating shaft 30, the second mounting body of the glazed body 31 is attached to the first mounting body 49 of the rotating shaft 30, respectively. 51 is easily fixed, and the plaster body 31 is fixed to the rotary shaft 30 in a state where it is easily converted to eccentric rotation. Then, the overcoat 31 is converted into an eccentric rotation by an arc motion around the virtual center point a of the center of rotation in the vicinity of the enlarged diameter end of the top surface restoration body 34, so that the top surface of the overcoat 31 The restoration body 34 is converted into an eccentric rotation that has an amplitude with a small width, and the side surface restoration body 32 of the brushed body 31 is converted into an eccentric rotation that has an amplitude larger than that of the upper surface restoration body 34.
[0056]
  Next, when the side portion B and the upper portion C of the old tack A are repaired by the side restoration body 32 and the upper face restoration body 34 of the glazed body 31, the side restoration body 32 and the upper face restoration body 34 are restored. The side surface restoration body 32 and the upper surface restoration body 34 are fixed with respect to the side B of the old basket A and the upper part C of the old basket A, respectively. It is eccentrically rotated so as to hit a wave with a period.
[0057]
  That is, the upper surface restoration body 34 of the glazed body 31 has an eccentric rotation with a small amplitude and the side restoration body 32 has an eccentric rotation with an amplitude larger than the upper surface restoration body 34 and is shown in a state shown by a solid line in FIG. While repeating the state, eccentric rotation is performed so as to strike the waves at a constant period with respect to the side B of the old hammer A and the upper part C of the old hammer A.
[0058]
  Then, the mud is applied on the restoration surface 35 of the side restoration body 32 while being strongly pressed against the side B of the old dredger A in a strong tone, and the mud is imprinted on the restoration surface 40 of the upper restoration 34. It is applied while pressing strongly against the upper part of A with a strong tone.
[0059]
  Therefore, as a whole, the side B, shoulder D and upper part C of the old scissors A are firmly compacted and repaired sequentially, and the scissors after the scissoring are compacted sufficiently tightly and smoothed as a whole, The surface portion of the cocoon after the lacquering is neatly finished and looks good, and the cocoon is easily arranged so that it does not collapse or leak.
[0060]
  Further, the side restoration body 32 and the upper surface restoration body 34 have flanges 39 and 45 detachably connected by a plurality of bolts and nuts 46 in a state where the reduced diameter ends 33 and 42 are joined to each other, Since the flanges 39 and 45 have guide holes 38 and 44 through which the first mounting body 49 fixed to the rotary shaft 30 is inserted, the first mounting body 49 of the rotary shaft 30 is passed through the guide holes 38 and 44. The second attachment body 51 is easily brought into contact with the second attachment body 51 of the coating body 31, and the second attachment body 51 is easily connected to the first attachment body 49 with a plurality of bolts 55. The coated body 31 can be easily attached. The coated body 31 is easily adjusted and set to a concentric rotation state around the rotation shaft 30 and an eccentric rotation state on the rotation shaft 30.
[0061]
  Further, the side restoration body 32 and the upper surface restoration body 34 are detachably connected by a plurality of bolts and nuts 46, so that, for example, one of the side restoration body 32 and the upper surface restoration body 34 is worn or damaged. When the mud smearing and repairing work is hindered as in the case of, it can be easily replaced and replaced.
[0062]
  Next, in the said embodiment, the case where the side part B, shoulder part D, and upper part C of the old scissors A are restored in the side restoration body 32, the upper surface restoration body 34, and the shoulder restoration part 47 of the glazing body 31 is demonstrated. However, at this time, in particular, when repairing the old center, it is preferable that the guide body 60 for guiding the progress of the upper surface restoration body 34 is detachably attached to the upper surface restoration body 34.
[0063]
  In this case, for example, as shown in FIG. 9, the upper surface restoration body 34 is formed with a plurality of attachment holes 61 at predetermined intervals on the outer peripheral portion of the enlarged diameter end portion. The guide body 60 includes an annular mounting base 62 that fits on the outer peripheral portion of the enlarged diameter end of the upper surface restoration body 34, and an old part that is integrally formed with the mounting base 62 and is repaired by the side restoration body 32. A plurality of conical guide plates 63 that are rotated along a side opposite to the side B of the flange A, and the mounting base 62 communicates with a plurality of mounting holes 61 of the upper surface restoration body 34; The communication holes 64 are respectively formed.
[0064]
  Then, a countersunk screw 65 is inserted into each mounting hole 61 of the upper surface restoration body 34 from each communication hole 64 of the mounting base 62 of the guide body 60, and a nut 66 is inserted into each countersunk screw 65 protruding from each mounting hole 61. The guide body 60 can be easily attached to the outer peripheral portion of the enlarged diameter end portion of the upper surface restoration body 34 by screwing and tightening each. Other configurations are the same as those in the above-described embodiments, so that corresponding reference numerals are entered and description thereof is omitted.
[0065]
  By configuring in this way, the side restoration body 32 can repair the side B of the old heel A so that the upper surface restoration body 34 can repair the upper part C of the old heel A and the side restoration body 32 The plaster body 31 is rotationally driven in a state where the conical guide plate 63 of the guide body 60 is along the side B opposite to the side B of the old scissors A to be repaired.
[0066]
  Then, the glazed body 31 is smoothly advanced along the side portion B of the old ridge A by the guide plate 63 of the guide body 60. This guide body 60 is particularly effective when repairing the old lieutenant. Further, the guide body 60 is detachably attached to the upper surface restoration body 34 with a plurality of countersunk screws 65 and nuts 66, and this guide body 60 can be easily attached / detached as necessary, for example, when repairing an old center. be able to.
[0067]
  Next, in each of the above-described embodiments, a plurality of screw holes 53 are formed in the first attachment body 49 of the rotating shaft 30, and the second attachment body 51 of the side surface restoration body 32 of the glazed body 31 is formed in the above-described manner. Although the case where each of the plurality of attachment long holes 54 communicating with the plurality of screw holes 53 is formed has been described, the present invention is not limited to this, and the plurality of screw holes 53 are formed in the second attachment body 51 to form a plurality of attachment long holes. 54 may be formed on the first mounting body 49.
[0068]
  The side restoration body 32 and the upper surface restoration body 34 may be reinforced so as to sufficiently withstand the earth pressure by providing a reinforcement member in each of the side restoration body 32 and the rotating shaft via the bearing body. You may make it support 30 rotatably.
[0069]
【The invention's effect】
  According to the invention of claim 1, the wrinkle coating body repairs the side surface of the old scissors into an inclined surface that is expanded downward, and repairs the upper portion of the old scissors into a horizontal surface. Since it has a conical upper surface restoration body, the mud when restoring the side part of the old fence with this side restoration body can be pushed up toward the shoulder of the old fence on the reduced diameter side of the side restoration body, The mud when the upper part of the old mound is restored with the upper surface restoration body can be guided toward the shoulder of the old mound on the reduced diameter side of the upper surface restoration body, and these mud soils are connected to the side restoration body with the upper surface restoration body. The shoulders of the old kite can be applied in sequence to the shoulders of the old kite at the reduced diameter ends. In addition, since there is a mounting means for attaching the smeared body to the rotation shaft so that it can be converted into eccentric rotation, the smearing body can be attached according to the work situation as well as the concentric rotation around the rotation shaft by this mounting means. It is possible to easily convert to eccentric rotation, that is, it is possible to easily convert the padding body for wet fields or dry fields. Then, the side surface restoration body and the upper surface restoration body can be eccentrically rotated so as to strike the side of the old iron and the upper part of the old iron, respectively, by rotating the wrinkle body eccentrically with the rotation shaft. For this reason, the mud is strongly applied with strong tone against the side of the old fence with the side restoration, and the mud is strongly pressed against the upper part of the old with the upper restoration. Painted while being done. Therefore, as a whole, the side and upper part of the old bag can be repaired by firmly tightening the shoulders, and the bag after coating is sufficiently trimmed and difficult to collapse as a whole. The finish is neatly finished and looks good, and this cocoon can be easily broken and can be repaired to a cocoon that can withstand long-term use without leaking water.
[0070]
  In addition, in a state in which the second mounting body of the smearing body is in contact with the first mounting body of the rotating shaft that has been inserted into the insertion hole of the second mounting body of the smearing body, the insertion hole with respect to the rotating shaft The center of rotation of the glazed body can be easily converted by adjusting the movement of the glazed body within the range of the length, and the first mounting body and the second mounting body can be connected with a fixture. By fixing, it can be securely held in a state where the glazed body is converted to eccentric rotation, and by rotating the glazed body eccentrically with the rotating shaft, the shoulder part as well as the side and upper part of the old jar are sufficiently secured It can be repaired by compaction. Further, the side restoration body and the upper surface restoration body each have a flange for detachably connecting them, and each flange has a guide hole through which the first attachment body fixed to the rotating shaft is inserted. The restoration body and the upper surface restoration body can easily be attached and detached when the mud soil application work is hindered, for example, when one of them is worn or damaged. Further, at the time of attachment, the first attachment body fixed to the rotary shaft can be easily inserted and attached from the guide hole of the flange into the coating body.
[0071]
ContractClaim2According to the invention, either one of the first attachment body and the second attachment body has a plurality of screw holes, and the other has a plurality of radial coats of the smearing body communicating with the plurality of screw holes. Since the fixing tool has a plurality of bolts that are screwed into the plurality of screw holes from the plurality of mounting long holes, the bolts are converted into the eccentric rotation. In the relaxed state, the center of rotation of the glazed body can be easily converted by moving and adjusting the glazed body within the range of the length of the insertion hole and the plurality of mounting elongated holes using the rotation shaft and the plurality of bolts as a guide. By tightening a plurality of bolts in the respective screw holes, the smeared body can be reliably held in a state where it has been converted to eccentric rotation, and an adjustment operation of this smeared body is easy.
[0072]
  Claim3According to the invention, since the first attachment body and the second attachment body are formed in an arc shape with the rotation center portion in the vicinity of the enlarged diameter end portion of the upper surface restoration body of the glazed body as a virtual center point, respectively. When the smear body is converted to eccentric rotation, when the smear body is rotated about the virtual center point, the arc-shaped second attachment body of the smear body is the arc-shaped first attachment of the rotation axis. It can be rotated by an arc motion that moves along the body, and the smeared body can be smoothly and easily converted to eccentric rotation. Then, the upper surface restoration body of the smeared body is converted into an eccentric rotation that swings with a small width, and the side surface restoration body of the wrinkle body is converted into an eccentric rotation that has an amplitude larger than that of the upper surface restoration body. The side of the old casket can be strengthened and repaired with little difficulty.
[0073]
ContractClaim4According to the invention of the present invention, since the shoulder restoration portion is located between the side restoration body and the upper restoration body and restores the shoulder portion of the old paddle to the inclined surface, the mud soil is shouldered by the shoulder restoration section. Can be repaired by firmly tightening the shoulder of the old bag on the inclined surface, and the old bag can be repaired in a state that is difficult to collapse.
[0074]
  Claim5According to the invention, since the upper surface restoration body has the detachable guide body rotated along the side portion opposite to the side portion of the old heel to be repaired on the outer peripheral portion of the enlarged diameter end portion, this guide body Can smoothly advance the glazed body along the side of the old fence, and can prevent the glazed body from coming off the old rivet, and this guide body is particularly effective when repairing the middle wall. .
[Brief description of the drawings]
FIG. 1 is a cross-sectional view of a smeared body showing an embodiment of the present invention.
FIG. 2 is a cross-sectional view showing the conversion mechanism unit.
[Fig. 3] Fig. 3 is a plan view in which a part of the glazing machine provided with the glazing body is omitted.
FIG. 4 is a side view of the same as above.
FIG. 5 is a side view of the old wrinkle repair mechanism.
FIG. 6 is a cross-sectional view showing a state in which the above-described glazed body is converted into an eccentric rotation around a virtual center point.
FIG. 7 is an operation explanatory view of the same smeared body.
FIG. 8 is an explanatory view showing the same haze state.
FIG. 9 is a cross-sectional view of a plaster body according to another embodiment.
[Explanation of symbols]
        17 Rotary
        20 Cutting nails
        30 axis of rotation
        31 Painted body
        32 Side restoration
        33 Reduced diameter end
        34 Top face restoration
        38 Guide hole
        39 Flange
        45 Flange
        47 Shoulder Repair Department
        48 Mounting method
        49 First mounting body
        50 insertion hole
        51 Second mounting body
        52 Fixture
        53 Screw hole
        54 Mounting hole
        55 volts
        60 Guide body
        A old fox
        B Side of the old fence
        C Top of the old wall
        D Shoulder of the old bag
        a Virtual center point

Claims (5)

A rotary rotary having a cutting claw that cuts and splashes mud for dredging, and a mud that is provided behind the rotary and is rotatable by a rotary shaft and is flipped by the rotary claw. And a lacquered body for repairing the old casket.
The wrinkle-coated body is provided with a conical side surface repair body that repairs the side surface of the old scissors to an inclined surface that is expanded downward, and a reduced diameter end portion of the side surface repair body. A conical upper surface restoration body that expands and projects from the portion and restores the upper part of the old ridge to a horizontal surface;
Have a mounting means attachable to convert the eccentric rotation of said ridges painted body to the rotary shaft,
The attachment means includes a first attachment body fixed to the rotating shaft, and a radial insertion hole of the smearing body fixed to the inner surface of the coating and passing through the rotation shaft so that the rotation shaft can be displaced. Having a second mounting body, and a fixture for fixing the second mounting body to the first mounting body,
The side restoration body and the upper surface restoration body each have a flange for detachably connecting the flanges, and each flange has a guide hole for inserting the first attachment body fixed to the rotating shaft.畦 coating machine characterized by. Either one of the first attachment body and the second attachment body has a plurality of screw holes, and the other has a plurality of attachment long holes in the radial direction of the smeared body communicating with the plurality of screw holes. , fixture ridge coating machine according to claim 1, characterized in that a plurality of bolts each screwed into the plurality of screw holes from the plurality of mounting slots. First mounting member and the second mounting body, or claim 1 and forming an arc shape, respectively the rotational center in the vicinity of the enlarged diameter end portion of the upper surface repair of ridge painted body as a virtual center point 2. A coater according to item 2 . The wrinkle coater according to claim 1, further comprising a shoulder repair portion that is located between the side restoration body and the upper surface restoration body and restores the shoulder portion of the old bag to an inclined surface. Top repair body, ridges of claim 1, wherein the the outer periphery of the enlarged diameter end portion having a repair sides with removable guide body which is rotated along the opposite side of the old ridge Coating machine.

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