KR100798088B1 - Mud scraping device and agricultural machine - Google Patents

Abstract

The mud scraping device 1 includes a mud discharge member 6 having a mud scraping member 10 for scraping mud stuck to the wheel 102, and a support member for supporting the mud discharge member. 5) is included. The mud discharge member 6 includes an elastic member 11 which repeats bending and restoring upon rotation of the wheel 102. The elastic member 11 is composed of a coil spring. The mud scraping device 1 includes an arrangement and adjustment mechanism for adjusting the position of the mud scraping member 10. The mud discharge member 6 has an elastic member 11 and a mud scraping member 10 attached to an end of the elastic member 11. The elastic member is set as a mud scraping member. The elastic member extends axially from the support member side toward the equator line plane of the wheel. The mud scraping device can be attached to any farm machinery.

Mud scraping device, farm machinery

Description

Mud scraping device and agricultural machine

1 is a side view showing a mud scraping device according to an embodiment of the present invention.

FIG. 2 is a view seen from the direction of line A-A in FIG.

3 is a view seen from the direction of the B-B line of FIG.

4 is a view for explaining the motion of the elastic stay part corresponding to FIG. 3.

FIG. 5 is a view seen along the line C-C in FIG. 1. FIG.

FIG. 6 is an explanatory diagram showing a use state corresponding to FIG. 2. FIG.

FIG. 7 is an explanatory diagram showing a use state corresponding to FIG. 2. FIG.

8 is a side view showing an example attached to a farm machine.

9 is a side view of a modification of the mud discharge member.

10 is a side view illustrating and explaining a phenomenon which becomes a general problem.

11 is a side view showing another agricultural machine in the embodiment of the present invention.

FIG. 12 is a plan view showing a part of the mud scraping device provided in the farm machine of FIG.

Figure 13 is a side view showing a part of the farm equipment according to another embodiment of the present invention.

14 is a side view illustrating a farm machine according to a further embodiment of the present invention.

FIG. 15 is a side view illustrating the mud scraping device provided in the agricultural machine with a portion removed from FIG. 14. FIG.

FIG. 16 is a plan view illustrating the mud scraping device of FIG. 15.

FIG. 17 is a cross-sectional view taken along the line D-D of FIG. 15.

18 is a side view showing a part of another agricultural machine in a further embodiment of the present invention.

19 is a side view illustrating a farm machine according to an embodiment of the present invention.

20 is a partially enlarged plan view showing a part of the mud scraping apparatus attached to the agricultural machine of FIG. 19 with a rear wheel.

FIG. 21 is a cross-sectional view taken along the line E-E of FIG. 20 showing a state where the cover portion is in contact with the first mud scraping member and the second mud scraping member.

FIG. 22 is a cross-sectional view showing a state where the cover portion is in contact with the fixed first mud scraping member and the second mud scraping member. FIG.

FIG. 23 is a partially enlarged plan view showing a part of a modification of the mud scraping device shown in FIG. 20.

FIG. 24 is a cross-sectional view taken along the line G-G of FIG. 23 showing a state where the cover portion is in contact with the mud scraping member.

FIG. 25 is a cross-sectional view showing a state where the cover part is in contact with the mud scraping member so that the mud scraping member is curved. FIG.

26 is a side view illustrating a portion of a farm machine according to a further embodiment.

FIG. 27 is a plan view showing a part of a mud scraping apparatus provided to a farm machine according to a further embodiment; FIG.

FIG. 28 is a plan view showing a portion of a mud scraping apparatus provided to a farm machine according to a further embodiment. FIG.

29 is a side view illustrating a farm machine according to an embodiment of the present invention.

FIG. 30 is a plan view showing a part of the mud scraping apparatus provided in the farm machinery of FIG. 29. FIG.

31 is a side view illustrating a part of a farm machine according to another embodiment of the present invention.

32 is a plan view showing a part of the mud scraping of FIG. 31.

Explanation of symbols on the main parts of the drawings
1: mud scraping device 102: wheel
105: spoke 106: plate

 The present invention is Japanese Patent Application No. 2005-4257, filed on January 11, 2005, Japanese Patent Application No. 2005-176126, filed on January 16, 2005, and Japanese patent application on June 30, 2005. Priority claims were made based on Application No. 2005-191732, Japanese Patent Application No. 2005-216787 filed on July 27, 2005, and Japanese Patent Application No. 2005-310246 filed on October 25, 2005. The contents of the Japanese patent application are incorporated herein.

The present invention relates to mud scraping devices and agricultural machinery.

In the lifter, a wheel is used that includes an elastic ring member formed by covering a ring-shaped rim made of elastic material such as rubber material in order to ensure stable propulsion on soft ground such as rice fields. Lugs are disposed on the side of the elastic ring member at regular intervals in the circumferential direction of the wheel and the outer peripheral surface. These wheels are designed to include lugs to generate the tension and buoyancy needed for forward or rearward motion.

The lug includes a blade lug that protrudes significantly toward the side of the wheel, a triangular lug having a smaller side protrusion than in the blade lug, and a trapezoidal lug disposed on a horizontal plane such as the wheel.

When operating on soft ground, the mud sticks to the side of the wheel. In particular, the mud easily sticks to the plaid lugs. As the wheel rotates, the mud is lifted up, clinging to the wheel. In some cases, the mud lifted up is dropped by its own weight. Due to the falling mud, the mud sticking, breaking and falling occurs in the transition process. If the retractor travels on a pavement with mud stuck to the wheels, the road is contaminated. If the mud is solidified with the mud sticking to the wheel, it becomes difficult to remove the mud at the time of washing. In addition, the same problem occurs in the transfer machine and other agricultural machinery.

Japanese Laid-Open Patent Publication No. 2002-347404 describes an agricultural wheel in which mud resistance and tension of left and right blade lugs are considered. In the wheel, the axial protrusion amounts of the left and right blade lugs are almost equal to each other. Lugs having small and large elastic deformations or elastic curvatures are disposed on each other on the left and right sides in the circumferential direction. The amount of elastic deformation and the amount of elastic curvature are controlled by the thickness in the circumferential direction of the lug. The agricultural wheel has a structure in which the mud comes off according to the difference between the elastic deformation amount and the elastic bending amount of the left and right blade lugs.

Japanese Laid-Open Patent Publication No. 2001-80473 describes a mud scraping device for scraping mud stuck to a wheel by using the rotation of the wheel. The device has a large frame member that can surround front, rear, left and right portions of the wheel. It includes. The front and rear portions of the frame member scrape the mud stuck to the tread surface of the wheel. The blade formed by the elastic member is fixed inside the side of the frame member to scrape the mud stuck to the side of the wheel.

The agricultural machine described in Japanese Laid-Open Patent Publication No. 2002-347404 has a structure in which the mud falls off depending on the difference between the amount of elastic deformation or the amount of elastic bending of the left and right blade lugs. The lug structure has a problem that the mud removal efficiency is not reliable. In wheels with trapezoidal lugs with very small protrusions and triangular lugs with protrusions towards the side of the smaller wheels in blade lugs, there is no difference in the amount of elastic deformation or elastic curvature of the left and right lugs. Thus, mud cannot be removed using this difference. In such wheels, therefore, it is impossible to solve the problems caused by the above-mentioned mud sticking phenomenon.

 The frame member provided in the mud scraping apparatus described in JP 2001-80473 is larger than the outer diameter of the wheel. For this reason, the structure of the device has a very large size. In handovers with devices attached thereto, the weight of the vehicle is increased. Therefore, the runability on the soft ground such as rice fields is reduced.

In the apparatus described in Japanese Laid-Open Patent Publication No. 2001-80473, the scraped mud sticks to the rear and front portions of the frame member and accumulates thereon. As the mud sticks and accumulates in this way, a mud lump is formed. The frame member has a structure adapted to correspond to the outer diameter of the wheel. Thus, the frame member is attached to have the same height as the height of the axis of the wheel. For this reason, mud masses are formed at axial heights. In some cases, the mud lumps fall off at their height. Thus, the falling mud has energy. Thus, the transplanted seedlings to be transplanted are broken and fall off. The frame member surrounding the front, rear, left and right portions of the wheel has a structure for scraping mud. Therefore, there is a problem that the mud stuck on the inner side in the axial direction from the side of the wheel is not scraped.

It is an object of the present invention to provide a mud scraping device and agricultural machinery for scraping mud stuck to wheels without compromising the runability of the vehicle in a soft pair.

The mud scraping device according to the present invention includes a mud discharge member having a mud scraping member for scraping mud stuck to a wheel, and a support member for supporting the mud discharge member. The mud discharge member includes an elastic member that repeats bending and shape restoration with respect to the rotation of the wheel.

When the elastic member repeats the bending and shape restoration, the mud discharge member does not interfere with the rotation of the wheel while contacting the wheel. The mud discharge member is deformed repeatedly. Therefore, the durability against deformation is a very important factor. Through such a structure using the bending of the elastic member, the durability against repeated deformation is enhanced. The structure using the bending of the elastic member is useful for simplifying the structure and the cost. Contribute to savings The structure using the curvature of the elastic member facilitates the work on the replacement of the elastic member and the maintenance of the device.

In the mud scraping device, the elastic member is preferably made by a coil spring. By this structure of bending the coil spring, the durability against deformation caused by repetition can be further enhanced.

The mud scraping device should preferably include a position and an adjustment mechanism capable of adjusting the position of the mud scraping member.

In the mud scraping device, the elastic member is preferably made to be the mud scraping member.

In the mud scraping device, it is preferable that the elastic member extend from the supporting member side in the axial direction toward the horizontal plane of the wheel.

In the mud scraping device, it is preferable that the mud discharge member should include the mud scraping member and the elastic member attached to the end of the elastic member.

The agricultural machine according to the present invention comprises a wheel and a mud scraping device, wherein the mud scraping device comprises a mud discharge member and a mud discharge member having a mud scraping member for scraping mud stuck to a wheel. It includes a support member for supporting. The mud discharge member includes an elastic member that repeats bending and shape restoration with respect to the rotation of the wheel.

In an agricultural machine, the elastic member should extend axially from the support member towards the horizontal plane of the wheel and the wheel should comprise spokes. The spoke is configured to repeat the bending and shape restoration of the elastic member with respect to the rotation of the wheel.

An apparatus for scraping mud on a wheel for an agricultural machine according to the invention comprises a support member extending from the body of the agricultural machine towards the outer periphery of the rotating part, except for the contact of the wheel with the side protruding lugs provided to the agricultural machine; And a mud discharge member protruding from the support member toward the rotation of the lug protruding laterally at the time of rotation of the wheel. The mud discharging member includes a mud scraping member contacting the rotating tip surface of the lug protruding laterally to scrape the adhered mud and laterally by the mud scraping member upon rotation of the lug protruding laterally. And an elastic member which maintains a contact state on the protruding lugs and generates elasticity in the direction of returning to its original position after the rotation of the lug protruding to the side passes.

By attaching the mud scraping device to the agricultural machine and installing a mud discharge member contacting on the lug protruding to the side of the wheel which is rotated when driving, it is possible to reliably scrape the mud stuck to the lug protruding to the side. It becomes possible.

Further, the mud scraping member is supported through the elastic member. Thus, there is a repeated vertical oscillation operation in which the mud scraping member abuts on the lug protruding to the side, thereby returning to its original position (almost horizontal state), and contacting again on the lug protruding to the next side. Thus, in the mud scraping device itself, even when the mud sticks to it, the shape in which the mud immediately falls off due to the vibration becomes possible. As a result, the mud does not accumulate. In other words, the stuck mud is prevented from forming large lumps.

The support member includes closed position adjusting means for adjusting the position of the mud discharge member in the radial direction of the wheel, height adjusting means for adjusting the position of the mud discharge member in the direction of the height from the contact point, of the wheel It is appropriate that side projection adjusting means capable of adjusting the position of the mud discharge member in the axial direction and angle adjusting means capable of adjusting the contact angle that the mud scraping member of the mud discharge member contacts on the side protrusion lug be provided. Do. By providing the closed position adjusting means, the height adjusting means, the lateral position adjusting means, the angular adjusting means and the like, it becomes possible to derive a modification to wheels or agricultural machines of various types and sizes.

It is preferable that the mud scraping member of the mud discharge member has a tip portion formed to have a circular portion in the sliding direction in contact with the rotary tip surface of the side protruding lug. As a result, it becomes possible to make smooth contact with the side protruding lugs and sliding contacts, and to prevent scratches from occurring on the side protruding lugs and the like. The mud scraping member of the mud discharging member may have a tip portion formed to have an inclination angle parallel to the protruding inclination angle of the rotation tip surface of the lug protruding laterally from the side of the wheel corresponding thereto. As a result, the function of scraping mud and preventing scratches on the side protruding lugs can be further enhanced.

The mud scraping member of the mud discharge member is L-shaped or shaped so as to impact the rotational end surface of the side protruding lug at an angle close to the right angle and to prevent the winding phenomenon on the side protruding lug at the reverse rotation of the wheel or It is preferably formed to have the shape of a concave curve. By adopting such a shape, it becomes possible to enhance the function of scraping mud. In addition, during the reverse rotation of the wheel, it is possible to prevent the winding on the side protruding lugs. This has the advantage of preventing breakage of the side protruding lugs and the mud scraping device. The mud scraping member of the mud discharge member is suitable for the side edge portion of the mud scraping member turned over toward the side of the wheel to contact or approach the side of the wheel.

As a result, it becomes possible to reliably scrape the mud stuck to the side of the wheel in addition to the mud sticking to the side protruding lugs. The mud discharge member preferably includes a mud scraping member and an elastic member provided by the separated member and provided to be freely separated and connected to each other. Thus, only the mud scraping member or only the elastic member is replaced to enable the reduction of the maintenance cost. In addition, various elastic members can be suitably used experimentally and can be selected according to the sum of the elastic forces.

The mud discharge member is provided with a coupling plate between the mud discharge member and the elastic members, and a base rod of the bottom of the elastic member may be provided. In this case, the mud discharge member and the coupling plate, the coupling plate and the elastic member, and the elastic member and the base rod should be fixed by the coupling means, respectively. In addition, the side of the mud scraping member can be adjusted based on the coupling plate, the spacing between the mud scraping member and the wheel can be adjusted corresponding to the width of the wheel.

The mud scraping device for agricultural machinery according to the present invention has a holding part attached to a machine body, a stay extending in the longitudinal direction of the machine body and attached to the holding part, and the length of the machine body along the side of the wheel. A mud scraping member extending in a direction and attached to the stay. The holding portion includes a cylinder, a buffer member accommodated in the cylinder, and a fixture. The stay includes an elastic member that is curved when a force is applied and is restored when the force is removed. The elastic member has a component that is received in the cylinder, fixed by a fixture through the buffer member, and fixed to the cylinder.

The farm equipment according to the invention comprises a machine body, a wheel, a mud scraping device. The wheel has a front wheel having only block-shaped lugs on the outer peripheral surface and a rear wheel having blade lugs on the outer peripheral surface. The mud scraping device includes a holding part attached to the machine body, a stay extending in the longitudinal direction of the machine body and attached to the holding part, extending in the longitudinal direction of the machine body along the side of the wheel and attached to the stay. And mud scraping members. The stay includes an elastic member that is curved when a force is applied and is restored when the force is removed.

In a farm machine, the holding unit preferably includes a cylinder, a buffer member accommodated in the cylinder, and a fixture. The elastic member has a component that is received in the cylinder and is fixed to the fixed body through the buffer member and fixed to the cylinder.

The agricultural machine according to the invention comprises a machine body, a wheel, a mud scraping device. The wheel has a front wheel having a block-shaped lug on its outer peripheral surface and a rear wheel. The mud scraping device includes a holding part attached to the machine body, a stay attached to the holding part and extending in the longitudinal direction of the machine body, and extending in the longitudinal direction of the machine body along the side of the wheel. And a mud scraping member to which it is attached. The stay includes an elastic member that is curved when a force is applied and is restored when the force is removed.

In a farm machine, the holding portion includes a cylinder, a buffer member accommodated in the cylinder, and a fixture. The elastic member has a component that is received in the cylinder and is fixed to the fixture through the buffer member and eventually fixed to the cylinder.

The mud scraping device according to the present invention includes a support member and a mud discharge member. The support member includes a first arm extending along one of the sides of the wheel, a second arm axially extending from the first arm and a third arm extending along the other side of the wheel from the second arm. It includes. The mud discharge member includes a first mud scraping member extending axially from the first arm side toward the equator line plane of the wheel and axially extending from the third arm side toward the equator line plane. And a second scraping member.

In the mud scraping device, the first mud scraping member and the second mud scraping member are preferably curved when a force is applied in the rotational direction of the wheel and restored when the force is removed.

In the mud scraping device, the first scraping member and the second scraping member are preferably made by a coiled spring.

The mud scraping device preferably includes an arrangement and adjustment mechanism capable of adjusting the position of the first mud scraping member and the second mud scraping member.

The farm equipment according to the present invention includes a wheel and a mud scraping device. The mud scraping device includes a support member and a mud discharge member. The support member includes a first arm extending along one of the sides of the wheel, a second arm extending axially from the first arm, and a third arm extending along the other side from the second arm. Include. The mud discharge member includes a first mud scraping member extending axially from the first arm side toward the equator line plane of the wheel, and a first axially extending from the third arm side toward the equator line plane. 2 mud scraping member.

In the farm machinery, the wheel preferably includes spokes. The spokes are configured to pass through a portion between the first mud scraping member and the second mud scraping member by rotation of the wheel.

The mud scraping device for farm machinery according to the present invention includes a holding part fixed to the machine body, and a mud scraping member extending from the holding part along the side of the wheel in the longitudinal direction of the machine body. The mud scraping member is fixed directly to the holding part.

In the mud scraping device, the mud scraping member preferably includes a tip side provided with an elastic member extending in the axial direction.

The agricultural machine according to the present invention comprises a machine body, a wheel, and a mud scraping device attached to the wheel. The wheel includes lugs on its outer peripheral surface. The lug is composed of only block lugs. The mud scraping device includes a holding part fixed to the machine body, and a mud scraping member extending from the holding part along the side of the wheel in the longitudinal direction of the machine body. The mud scraping member is fixed directly to the holding part.

In the agricultural machine, the mud scraping member preferably has a tip side provided with an axially extending elastic member.

According to the present invention, it becomes possible to reliably scrape the mud stuck to the wheels without damaging the runningability of the vehicle.

The invention will be described in more detail on the basis of the following preferred embodiments with reference to the drawings.

Embodiments of the present invention will be described below with reference to the drawings.

As shown in FIG. 8, the mud scraping device 1 operates on a wheel 102 that becomes a rear wheel (drive wheel) provided to a farming machine 2 such as a retractor. As shown in FIG. 1, in the wheel 102, the three spokes 105 are reinforced by the central reinforcement plate 106 and project radially around the axial attachment boss 110 and the rubber (elastic material is An elastic ring member 111 having a metal ring shaped core material embedded in an elastic material such as vulcanized and sticking around the core material is supported by each tip of the spoke 105.

The side protruding lugs 100 are provided at predetermined intervals from each other in the circumferential direction at the outer periphery of the elastic ring member 111. The side protruding lug 100 is a so-called "blade lug" protruding toward left and right (outside) in an inclined state on a vertical line extending radially from the center of the axis of the boss 110. Lateral projecting lugs 100 are provided from the inner peripheral end to the outer peripheral end on both sides of the elastic ring member 111. The inclined direction of the side protruding lug 100 is reversed in such a way that the radially inner end of the side protruding lug 100 is provided on the front side of the rotational direction (forward movement) from its radially outer end. Thus, the surface that comes into contact with the mud in the rotation of the wheel 102 acts as a rotating tip 112.

In addition, the plurality of (three in the example of the figure) trapezoidal lugs 113 are lugs protruding laterally from the central side in the transverse direction of the wheel of the side protruding lugs 100 on the outer peripheral edge of the elastic ring member 111. It is provided successively in the circumferential rectangle of the elastic ring member 111 between 100). The mud scraping device 10 according to the invention has a support member 5 and a mud discharge member 6. The support member 5 is a part for attaching the mud scraping device 1 to the main body of the farm machine 2. It is preferable to appropriately adopt the detailed structure of the attachment portion with respect to the farm machinery 2 or the like in accordance with the vehicle shape of the farm machinery 2 which arranges the same thing as the wheel 102 or the like. In the embodiment shown in the figure, the mud discharge member 6 extends rearward from the bottom of the agricultural machine 2 in a horizontal state at a position on the rear side of the wheel 102 at the outer periphery of the outer periphery of the wheel 102. It is a cantilever in shape. The mud discharge member 6 scrapes the mud stuck to the wheel 102.

The side protruding lug 100 rotates with the wheel 102. The mud discharge member 6 is provided in a state of protruding from the support member 5 toward the rotational zone of the side protruding lug 100 which is to rotate with the wheel 102. In this embodiment, the side protruding lugs 100 are provided on the left and right sides of the wheel 102. Thus, a pair of left and right whole soil discharge members 6 are provided as shown in FIG. The mud discharge member 6 includes an elastic stay portion 11 serving as an elastic member and a squeegee portion 10 serving as a mud scraping member. When the squeegee portion 10 and the elastic stay portion 11 are formed of a material having elasticity and strength such as, for example, metal, resin, rubber, etc., they are the whole portion of the mud discharge member 6 (the In addition to the squeegee portion 10 and the elastic stay portion 11, the coupling plate 15 described below and the entire portion including the base rod 13) are integrally formed (including integral bonding such as welding). . In the present embodiment, the squeegee portion 10 and the elastic stay portion 11 are each formed by separate members and connect the bolts 12 and each other.

The left and right mud discharge members 6 are connected to each other like a shape sharing the base rod 13. The two elastic stays 11 are connected to the base rod 13 at predetermined intervals corresponding to the width of the wheels 102 via fixing means 14 such as bolts. The coupling plate 15 is provided between the tips of the elastic stay portion 11. The left and right squeegee portions 10 are connected to each other through the coupling plate 15 with the bolt 12. The same number of squeegee portions 10 and elastic stay portions 11 are arranged in a coaxial relationship, respectively. The squeegee portion 10 and the elastic stay portion 11 are arranged in a coaxial relationship (the squeegee portion 10 is adapted to correspond to the width of the wheel and the elastic stay portion 11 is wider or narrower than the same width), The elastic stay portion is shared by the left and right squeegee portions 10.

The coupling portion of the coupling plate 15 and the squeegee portion 10 is provided with a slot 16 extending in the lateral direction of any one of them, and the arrangement of the left and right squeegee portions 10 with respect to the coupling plate 15. Can be adjusted. The squeegee portion 10 is formed of a material such as a metal plate, a resin plate, or a rubber plate and has an L hook shape. The end on the long side of the L hook shape is the rear end 20 used to be connected to the elastic stay portion 11, and the end on the short side is the tip portion 21 abutting on the laterally projecting lug 100.

The mud discharge member 6 is provided to turn the rear end 20 (connection to the elastic stay portion 11) backward and to rotate the tip 21 forward and downward on the rear side of the wheel 102. . The position of the mud discharge member 6 is a side protruding lug that causes the tip portion 21 of the squeegee portion 10 to disperse mud from the inside of the ground by rotation in the forward motion of the wheel 102 at approximately right angles ( A radially inner end of the rotating tip surface 112 of 100 is impacted. As shown in FIG. 3, the tip portion 21 of the squeegee portion 10 is rounded so that the squeegee portion 10 does not scratch the side protruding lug 100 during impact.

Further, in the squeegee portion 10, the side edge portion turned toward the side of the wheel 102 is formed adjacent to or in contact with the side of the wheel 102. As exemplarily shown in the figure, the side edge portion rotated toward the side of the wheel 102 is straight (see FIG. 2, etc.). If the side of the wheel 102 has a sharp bend in the swell direction (the bend has a small radius of curvature), the side edge portion rotated toward the side of the wheel 102 is given to the side of the wheel 102. It is formed to have a concave curved portion in accordance with the curved portion. In addition, as shown in FIG. 5, the tip portion 21 of the squeegee portion 10 has a rotating end surface 112 of the side protruding lug 100 from which the tip portion 21 protrudes from the side surface of the wheel 102. Is formed in such a manner as to form an angle parallel to the inclination angle?.

From the foregoing, as shown in FIGS. 6 and 7, the squeegee portion 10 abuts on the radially inner end of the rotating tip surface 112 of the side protruding lug 100, and the wheel 102. At the time of rotation of the rotating front end surface 112, the sliding contact is performed while maintaining the contact state toward the radially outer end. As a result, the squeegee 10 reliably scrapes the mud stuck to the rotary tip surface 112. At the same time, the squeegee portion 10 reliably scrapes the mud stuck to the side of the wheel 102. The elastic stay part 11 is, for example, a coiled spring, a plate spring (of metal, resin or rubber). As described above, the elastic stay portion 11 is connected to the rear end 20 of the squeegee portion 10 via a fixing means 12 such as a bolt.

As shown in FIG. 4, the squeegee portion 10 is free to vibrate at least in the vertical direction by the elastic stay portion 11, and returns to an almost original horizontal state, when the external load is removed. This state is maintained. As described above, when the squeegee portion 10 is brought into contact with the rotary front end surface 112 of the side protruding lug 100 which is in sliding contact, the contact state of the squeegee portion 10 on the side protruding lug 100 is consequently. Can be maintained with an appropriate excitation force. After the side protruding lug 100 rotates and passes through a position where the squeegee portion 10 cannot reach, the squeegee portion 10 is returned to its original position (almost horizontal state). The elastic stay portion 11 made of an elastic member repeats bending and shape restoration with respect to the rotation of the wheel 102.

The squeegee portion 10 has an L-shaped hook shape and is supported by the elastic stay portion 11. When the wheel 102 rotates in the reverse direction, it is thus smoothed down without difficulty by the side protruding lug 100 in which the rear portion of the L-shaped hook rotates in the reverse direction. When the wheel 102 is rotated in the reverse direction, therefore, the winding which is a problem on the side protruding lug 100 does not occur. As described above, the squeegee portion 10 and the elastic stay portion 11 are members separated from each other and are connected to each other through the fixing means 12. Thus, only the squeegee portion 10 or only the elastic stay portion 11 can be replaced.

The support member 5 supporting the mud discharge member 6 includes a closed position adjusting means 30, a height adjusting means 31, a side position adjusting means 32 and an angle adjustment as shown in FIGS. 1 and 2. Means 33 and the like are provided. The closed position adjusting means 30, the height adjusting means 31, the side position adjusting means 32 and the angle adjusting means 33 are positioning and adjusting mechanisms. The closed position adjusting means 30 adjusts the position of the mud discharge member 6 in the radial direction of the wheel 102 (which is a horizontal direction as exemplarily shown in the figure). More specifically, the closed position adjusting means 30 is a slide member 36 slidably supported with respect to the body shaft 35 and the body shaft 35 extending substantially horizontally rearwardly from the farm machinery 2. ). The mud discharge member 6 is provided through the slide member 36. The slide member 36 is provided with suitable fastening means (not shown), such as a setting screw, to be positioned (fixed) relative to the body shaft 35.

The height adjusting means 31 can adjust the position of the mud discharge member 6 in the direction of the height from the contact ground. In more detail, the height adjusting means 31 is supported so as to slide with respect to the vertical rod 37 and the vertical rod 37 protruding downward from the slide member 36 of the closed position adjusting means 30. An up-down member 38. The mud discharge member 6 is provided through the up-down member 38. The up-down member 38 is provided with suitable fastening means (not shown) as a setting screw to be positioned (fixed) with respect to the vertical rod 37 therebetween. The side position adjusting means 32 adjusts the position of the mud discharge member 6 in the axial direction of the wheel 102. In the present embodiment, the lateral position of the squeegee portion 10 is on the coupling plate 15 provided between the squeegee portion 10 and the elastic stay portion 11 of the mud discharge member 6 as described above. It can be adjusted along the slot 16 provided in. Thus, such a structure is a means for adjusting the lateral position. However, this structure mainly controls the spacing between each of the squeegee portion 10 and the wheel 102.

The side position adjusting means 32 is provided to reliably adjust the position of the entire mud discharge member 6 including the elastic stay portion 11 and the like. In more detail, the side position adjusting means 32 is provided on the up-down member 38 of the height adjusting means 31 and is formed integrally thereon and has a bracket having a guide hole 40 therethrough. 41 and an arm 42 which is slidably supported by penetrating laterally through the guide hole 40 of the bracket 41. The arm 42 is curved in an L shape in plan view, and the tip portion is curved to the cantilever of the base rod 13 of the mud discharge member 6 so as to protrude laterally.

The bracket 41 is provided with suitable fastening means (not shown), such as a setting screw, to position (fix) the bottom side (side extending in the lateral direction) of the arm 42. The adjustment means 33 can adjust the contact angle of the squeegee portion 10 of the mud discharge member 6 on the side protruding lug 100. In this embodiment, the side position adjusting means 32 functions as an angular adjusting means 33. More specifically, the angle of the base rod 13 can be adjusted by adjusting the rotation angle of the arm 42 inserted through the guide hole 40 of the bracket 41, the mud discharge member 6 The angle of) may be adjusted by adjusting the angle of the base rod 13.

As shown in the detailed description, when the mud scraping device 1 according to the present invention is attached to the agricultural machine 2, the closed position adjusting means 30 of the support member 5, height adjusting means. 31, the side position adjusting means 32, the angle adjusting means 33, etc. are properly operated if necessary, and the squeegee portion 10 of the mud discharge member 6 is provided with respect to the wheel 102. Mud sticking to the side protruding lug 100 of the wheel 102, which is set to a position and rotated upon operation of the agricultural machine 2, is radially on the rotation of the wheel 102 from the radially inner end. It is reliably scraped by the squeegee portion 10 in sliding contact with the rotating leading surface 112 of the side protruding lug 100 between the outer ends. At the same time, the mud stuck to the side of the wheel 102 is scraped off by the side edge of the squeegee portion 10 on the mud discharge member 6. In addition, the squeegee portion 10 is supported through the elastic stay portion 11. Thus, the squeegee portion 10 repeats the oscillating operation in the vertical direction, that is, it contacts the side protruding lug 100 and returns to its original position (almost horizontal state), and then the side protruding lug 100 follows. You will be in contact with In the mud scraping device 10 itself, the mud is scraped directly by vibration (vibration in the vertical direction) even when the mud sticks. Therefore, it is possible to prevent the mud from accumulating in the mud scraping device 1 itself. More specifically, it becomes possible to prevent the stuck mud from becoming a large lump.

In the case where two squeegee portions 10 are provided, it is appropriate that two elastic stay portions 11 should be provided corresponding to the squeegee portions 10. A large space is formed between the two elastic stay portions 11. When the vibrating movement is repeated in the vertical direction by the squeegee portion 10, the mud is scraped directly from the space. Thus, the mud is reliably prevented from sticking to the base rod 3, the coupling plate 15, etc. in addition to the squeegee portion 10 and the elastic stay portion 11, and is prevented from growing. Naturally, the space between the two elastic stay portions 11 is prevented from filling as the mud grows.

From the foregoing, the transplanted seedlings 103 are damaged by mud falling and directly impacting. By setting the attachment height of the squeegee portion 10 to a relatively low position (lower portion near the center portion of the wheel 102), in particular, the mud is removed in all the movements of the wheel from the ground surface (such as the farm floor), The clinging mud can be prevented from growing. Thus, mud scraped from the sides of the side protruding lugs 100 and the wheels 102 or brushed from the mud scraping device 1 itself has a small drop force and is " quiet " Position and placement ". Thus, the seedlings 103 can be protected to diffuse.

In addition, the paved road can be prevented from being contaminated by the falling mud, and there is no problem in removing the mud stuck to the wheel 102 at the time of washing. As mentioned above, in the mud scraping device itself, the stuck mud does not accumulate and does not form large lumps. Therefore, in the mud scraping body 1, there is no problem in removing the stuck mud. The present invention is not limited to the above, but appropriate modifications may be made in accordance with embodiments. For example, as in the modification shown in FIG. 9, the squeegee portion 10 of the mud discharge member 6 is configured to form a concave curved portion when viewed from the side. The squeegee portion 10 having such a shape impacts the rotational end surface 112 of the side protruding lug 100 at an angle close to the right angle, so that the reverse rotation of the wheel 102 on the side protruding lug 100. Winding is prevented. The mud scraping device 10 according to the present invention can also be applied to handpickers and other agricultural machinery. The wheel 102 also becomes a front wheel or a rear wheel and is attached to all of the aircraft wheels. The mud scraping member 6 may be attached to one of the sides with respect to the wheel 102. In the closed position adjusting means 30, the height adjusting means 31, the side position adjusting means 32, the angle adjusting means 33 and the like of the supporting member 5 are not limited to this structure. .

According to the mud scraping device 1 of the wheel for agricultural machinery according to this embodiment, it becomes possible to reliably remove the mud stuck to the side protruding lug of the wheel, the side of the wheel, and the like. By setting the attachment position of the mud scraping device (the position where the stuck mud is removed) to a low position, in particular, the mud is removed at every rotation of the wheel from the ground (such as a farm floor), which causes the stuck mud to grow. It becomes possible to remove. Therefore, it is possible to eliminate the problem of damaging the transplanted seedlings by immediately impacting the mud. However, the portion (squeegee portion) for removing the mud is in contact with the side protruding lug repeatedly and separated from it, thereby performing the vibration operation in the vertical direction. Thus, the mud stuck to the mud scraping device itself is immediately removed by vibrating and the mud is prevented from accumulating. Thus, the sticking mud is prevented from growing. From the foregoing, it is possible to prevent the paved road from being contaminated with fallen mud so that there is no problem in removing the mud stuck to the mud scraping device itself or the wheel during washing.

Fig. 11 is a side view showing the farm machine 2x according to the second embodiment of the present invention. The farm machine 2x comprises a machine body 4x, a wheel 6x, and a mud scraping device 8x. The wheel 6x consists of a front wheel 10x and a rear wheel 12x. Sai agricultural machine 2x is a four-wheel type transfer machine. The machine body 4x is mounted thereon with the function of a lifter. In the agricultural machine 2x, the mud scraping device 8x is attached to the front wheel 10x and the rear wheel 12x. In Fig. 11, the transverse direction represents the direction of the length of the machine body 4x. The left side in the ground represents the front face of the farm machinery 2x. The direction perpendicular to the ground indicates the axial direction of the wheel 6x.

The front wheel 10x includes only block shaped lugs 14x on its outer peripheral surface. In the farm machinery 2x, the block-shaped lugs 14x are made up of trapezoidal lugs 16x and triangular lugs 18x. The trapezoidal lug 16x is disposed on the equator line plane of the front wheel 10x. The triangular lugs 18x extending outward in the axial direction of the trapezoidal lugs 16x are alternately arranged in the transverse direction in the rotational direction on both sides of the trapezoidal lugs 16x. The rear wheel 12x includes a blade lug 20x and a trapezoidal lug 16x on the outer peripheral surface. In the rear wheel 12x, the trapezoidal lugs 16x and the blade lugs 20x are alternately arranged in the rotational direction. The blade lugs 20x protrude significantly laterally. The lateral protrusions of the triangular lugs 18x are smaller than the lateral protrusions of the blade lugs 20x. The trapezoidal lugs 16x do not have side projections. Thus, in the front wheel comprising the trapezoidal lugs 16x and the triangular lugs 18x, the side projections are small in size. In the rear wheel comprising the blade lugs 20x, the lateral protrusions are large in size. The wheel 6x including the lug is formed by burning a rubber material into a ring-shaped rim.

FIG. 12 is a plan view showing a part of the mud scraping device 8x provided in the farm machine 2x of FIG. 11. In FIG. 12, the vertical direction represents the axial direction of the wheel 6x, and the horizontal direction represents the longitudinal direction of the machine main body 4x. The left side of the ground represents the front face of the farm machinery 2x. The mud scraping device 8x includes a support member 22x and a mud discharge member 24x. The mud discharge member 24x scrapes the mud stuck to the wheel 6x. The support member 22x includes an arm portion 26x attached to the machine body 4x and a holding portion 28x disposed from the arm portion 26x along the contact surface of the wheel 6x. The mud discharge member 24x extends in the longitudinal direction of the machine body 4x and is attached to the stay 30x and the stay 30x attached to the holding portion 28x and the length of the machine body 4x. Direction squeegee portion 32x.

The arm portion 26x includes a first rod 34x, a second rod 36x, a third rod 38x, a first ring 40x, a second ring 42x and a third ring 44x. do. The first rod 34x extends from the machine body 4x in the longitudinal direction toward the rear side. The second rod 36x extends in the vertical direction of the machine body 4x. The first ring 40x is fixed to the upper end of the second rod 36x by welding. The third rod 38x is subjected to a bending process. Thus, the third rod 38x is configured to extend in the axial direction and the longitudinal direction. A portion of the third rod 38x extending in the axial direction is inserted through the third ring 44x. The longitudinally extending portion of the machine body 4x is welded on its rear portion and fixed to the holding portion 28x. In the agricultural machine 2x, the third ring 44x and the second ring 42x are fixed to each other by welding.

The first ring 40x may slide along the first rod 34x and is fixed at a predetermined position. The second ring 42x slides along the second rod 36x and can be fixed at a predetermined position. The third ring 44x can slide along the axially extending portion of the third rod 38x and be fixed in a predetermined position. In the agricultural machine 2x, all the first rods 34x, the second rods 36x and the third rods 38x are composed of round bar members. Each rod is formed by a square member with square sections.

The holding part 28x includes a substrate 46x, a bolt 48x, and a nut 50x. The substrate 46x has a long structure in the axial direction. The holding portion 28x includes bolts 48x and nuts 50x and other fastening means. Bolt holes into which the bolts 48x can be inserted are formed on both sides of the substrate 46x although not shown.

The stay 30x includes a coil spring 52x which becomes an elastic member that is bent under force and restored when the force is removed. Hooks 54xa and 54xb are formed on both ends of the coil spring 52x. A hook 54xa located on the rear side is provided below the substrate 54xa and a nut 50x is disposed below it. The bolt 48x is inserted into the bolt hole and hook 54xa on the substrate 46x. The coil spring 52x is fixed to the bolt 48x and the nut 50x and fixed to the substrate 46x.

The material of the coil spring 52x is preferably a metal material in terms of strength. Examples of metal materials include steel, aluminum alloys, stainless steels. In view of corrosion resistance, stainless steel is preferred.

The squeegee member 32x includes a mud scraping member 56x, a connecting plate 58x, a bolt 60x and a nut 62x. The mud scraping member 56x has a structure for scraping mud 64x stuck to the wheel 6x. In the agricultural machine 2x, the mud scraping member 56x includes a longitudinally extending shaft 66x and a click 68x extending downward from the end of the shaft 66x towards the road surface. . In the agricultural machine 2x, the mud scraping member 56x extends in the longitudinal direction of the machine body 4x along the side of the wheel 6x. The tip of the mud scraping member 56x is rounded. The stay 30x of the mud scraping member 56x is provided with an adjustment hole 70x. The adjustment hole 70x has a shape that is long in the axial direction. The mud scraping member 56x is appropriately determined in consideration of the shape of the lug, the size of the wheel 6x, and the like.

Examples of the material of the mud scraping member 56x include metal materials and synthetic polymer materials. Examples of metal materials include steel, aluminum alloys and stainless steels. In view of corrosion resistance, stainless steel is preferred. Examples of synthetic polymer materials include plastic materials, and rubber materials. In view of strength and deformability, plastic materials are preferred. Examples of plastic materials include polyvinyl chloride, polystyrene, polyethylene, polypropylene, polyacetal and nylon, and the like.

The connecting plate 58x has a long structure in the axial direction. Bolt holes into which the bolts 60x are inserted are formed on both sides of the connecting plate 58x. The bolt 60x is inserted into the adjustment hole 70x of the mud scraping member 56x, the bolt hole of the connecting plate 58x, and the hook 54xb disposed on the front side of the coil spring 52x. Screwed to a nut 62x provided below the hook 54xb. The coil spring 52x, the connecting plate 58x and the mud scraping member 56x are fixed to the bolt 60x and the nut 62x so that the squeegee member 32x is fixed to the stay 30x. Thus, the mud scraping member 56x is attached to the end of the coil spring 52x which is an elastic member. As described above, the adjustment hole 70x of the mud scraping member 56x has an elongated shape in the axial direction. Thus, the axial position of the mud scraping member 56x can be adjusted. The squeegee member 32x is fixed to the stay 30x by bolt 60x and nut 62x and other fastening means. The squeegee member 32x and the stay 30z are formed as one member using a rubber material that is an elastic member.

In the agricultural machine 2x, since the first ring 40x can slide in the longitudinal direction of the machine body 4x, the longitudinal direction of the mud scraping member 56x can be adjusted in position. Since the second ring 42x can slide in the vertical direction, the vertical position of the mud scraping member 56x can be adjusted. Since the third rod 38x can slide in the axial direction, the axial position of the mud scraping member 56x can be adjusted. Since the third rod 38x can rotate in the same direction as the wheel, the angle formed with respect to the longitudinal direction of the mud scraping member 56x can be adjusted. The farm machinery 2x includes a placement and adjustment mechanism via a slide lock. Thus, in the agricultural machine 2x, the position of the mud scraping member 56x is adjusted according to the farm floor condition, the diameter of the wheel 6x, the width of the wheel 6x, and the stuck state of the mud 64x. Can be.

As mentioned above, the front wheel 10x of the agricultural machine 2x is comprised of the block-shaped lug 14x which has a small side protrusion. The mud scraping member 56x is disposed along the slide surface of the front wheel 10x. Thus, the mud scraping member 56X reliably scrapes the mud 64x stuck to the slide surface. The rear wheel 12x of the farm machine 2x includes a blade lug 20x with a large side projection. The mud scraping member 56x is fixed to the coil spring 52x via the connecting plate 58x. Thus, the mud scraping member 56x is moved outward in the longitudinal direction of the machine frame 4x while in contact with the lug front end face 72x, so that mud 64x sticks to the rotary front end face 72x. Will be removed. The coil spring 52x made of an elastic member repeats bending and shape restoration against rotation of the front wheel 10x. The tip of the mud scraping member 56x is rounded. Thus, the contact resistance between the rotating tip surface 72x and the tip of the mud scraping member 56x is reduced. Thus, the mud scraping member 56x moves smoothly over the rotating tip surface 72x.

In the agricultural machine 2x, the mud 64x stuck to the wheel 6x is reliably scraped off. Therefore, the mud 64x does not accumulate in the wheel 6x. Since the scraped mud 64x does not accumulate, a lump of mud 64x is not formed. Sai agricultural machine 2x includes a placement and regulation mechanism. Thus, the mud scraping member 56x may be disposed at a lower position from the road surface. For this reason, the position of the scraped mud 64x becomes low. Since the location of the scraped mud is low, the force of mud 64x falling on the road surface is also reduced. In the agricultural machine 2x, the mud 64x does not fall into agglomerates, and the force of the falling mud 64x can also be reduced. As a result, the seedlings and the like are prevented from being damaged.

Fig. 13 is a side view showing a part of farm machinery 74x according to the third embodiment of the present invention. 13 shows the adjacency of the rear wheel 76x of the farm machinery 74. In the farm machinery 74x, the structure of the rear wheel 76x and other portions is the same as that of the farm machinery 2x shown in FIG. The rear wheel 76 has an outer peripheral surface provided with only block shaped lugs 78x having small side projections.

In the farm machinery 74x, the stay 30x includes a coil spring 52x, which is an elastic member having a structure that is bent when a force is applied and restored when the force is removed. The squeegee member 32x includes a mud scraping member 56x disposed along the side of the wheel 80x. For this reason, the mud scraping member 56x reliably scrapes the mud 64x stuck to the side of the wheel 80x. Since the mud 64x is reliably scraped, the mud does not accumulate in the wheel 80x. Also in the agricultural machinery 74x, the arm portion 26x is provided with the same placement and adjustment mechanism as the agricultural machinery of FIG. do . Thus, the mud scraping member 56x may be disposed at a lower position from the road surface. For this reason, the position of the scraped mud 64x becomes low. Since the position of the scraped mud 64x is low, the force of the mud 64x falling on the road surface is reduced. In the farm machinery 74x, the mud 64x does not fall into agglomerates, and the force of the falling mud 64x is not reduced. As a result, the seedlings and the like are prevented from being damaged.

Fig. 14 is a side view showing an agricultural machine 82x according to the fourth embodiment of the present invention. The farm machine 82x includes a machine body 4x, a wheel 6x and a mud scraping device 84x. The machine body 4x is mounted thereon with a functioning function as a lifter. The wheel 6x consists of a front wheel 10x and a rear wheel 12x. The farm machinery 82x may be a four-wheel type handover machine. The mud scraping device 84x is attached to the front wheel 10x and the rear wheel 12x. In Fig. 14, the transverse direction represents the longitudinal direction of the machine body 4x. The left side of the ground represents the front side of the farm machinery 82x. The direction perpendicular to the ground indicates the axial direction of the wheel 6x. The structure of the mud scraping device 84x and the other farm machinery 82 is the same as that of the farm machinery 82x in FIG.

The front wheel 10x has an outer peripheral surface provided with a block shaped lug 14x comprising a triangular lug 18x and a trapezoidal lug 16x. For this reason, the projection toward the side of the front wheel 10x is small in size. The rear wheel 12x has an outer peripheral surface provided with a trapezoidal lug 16x and a blade lug 20x. For this reason, the projection toward the side of the rear wheel 12x is large in size.

FIG. 15 is a side view illustrating the mud scraping device 84x provided in the farm machine 82x of FIG. 14. FIG. 16 is a plan view illustrating the mud scraping device 84x of FIG. 15. The mud scraping device 84x includes a support member 86x and a mud discharge member 88x. The support member 86x includes an arm portion 90x attached to the machine body 4 and a holding portion 92x disposed from the arm portion 90x along the contact surface of the wheel 6x. The mud discharge member 88x is attached to the holding portion 92x and extends in the longitudinal direction of the machine body 4x, and the stay 94x is attached to the stay 94x and in the longitudinal direction of the machine body 4x. And a squeegee 96x extended to it. In the mud scraping device 84x, the portions different from the holding part 92x and the stay 94x have the same structure as that of the mud scraping device 8x shown in FIG. In Fig. 15, the direction perpendicular to the ground indicates the axial direction. The transverse direction represents the longitudinal direction of the machine main body 4x. In Fig. 16, the vertical direction represents the axial direction of the wheel 6x. The transverse direction represents the longitudinal direction of the machine body 4x of the rear wheel 6x.

Arm portion 90x includes a first rod 98x, a second rod 100x, a third rod 102x, a first ring 104x, a second ring 106x and a third ring 108x. . The arm portion 90x has the same placement and adjustment mechanism as the mud scraping device 8x provided in the agricultural machine 2x of FIG.

The holding part 92x includes a cylinder 110x, a substrate 112x, a fixture 114x, and a buffer member 116x. In the holding portion 92x, two cylinders 110x are disposed on both sides of the substrate 112x. The number and positions of the cylinders 110x provided to the holding portion 92x are appropriately determined. One cylinder 110x is provided at the center of the substrate 112x.

The stay 94x includes a coil spring 118x that is an elastic member. The coil spring 118x has such a structure that it bends when a force is applied and restores when the force is removed. In the farm machinery 82x, one end of the coil spring 118x is received in the cylinder 110x. The hook 120x is formed on the other end of the coil spring 118x.

The squeegee 96x includes a mud scraping member 122x, a connecting plate 124x, a bolt 126x and a nut 128x. The mud scraping member 122x has a structure adapted to scrape mud 64x. The mud scraping member 122x is attached to the end of the coil spring 118x. The mud scraping member 122x is disposed along the side of the wheel 80x. An adjustment hole 130x is provided on the stay 94x side of the mud scraping member 122x. Bolt holes into which the bolts 126x are inserted are formed on both sides of the connecting plate 124x although not shown. The bolt 126x is inserted through the adjustment hole 130x of the mud scraping member 122x, the bolt hole of the connecting plate 124xz, and the inside of the hawk 120x of the coil spring 118x, and the hook ( Screwed with a nut 128x provided below. In the farm machinery 82x, the coil spring 118x, the connecting plate and the mud scraping member 122x are fixed with the bolt 126x and the nut 128x, so that the squeegee 96x is fixed to the stay 94x. do. The adjusting hole 130x has a long shape in the axial direction. Thus, the axial position of the mud scraping member 122x can be adjusted.

The front wheel 10x of the farm machinery 82x is composed of block shaped lugs 14x with small side projections. The mud scraping member 122x is disposed along the side of the front wheel 10x. Thus, the mud scraping member 122x scrapes the mud 64x stuck to the side surface. The rear wheel 12x of the farm machinery 82x includes a blade lug 20x with a large side projection. The mud scraping member 122x is fixed to the coil spring 118x via the connecting plate 124x. Thus, the mud scraping member 122x can be moved outwardly in the longitudinal direction of the machine body 4x while in contact with the rotating tip surface 72x of the lug, thus different from the rotating tip surface 72x. It will reliably scrape off the stuck mud (64x). The coil spring 118x, which is an elastic member, repeats bending and shape restoration upon rotation of the rear wheel 12x. The tip of the mud scraping member 122x is rounded. Thus, the contact resistance between the tip of the rotary tip surface 72x and the mud scraping member 122x is reduced. Thus, the mud scraping member 122x moves smoothly over the rotating tip surface 72x.

Since the arm portion 90x is provided to the placement and adjustment mechanism, the position of the mud scraping member 122x is located on the farm floor, the diameter of the wheel, the width of the wheel 6x, and the mud 64x is stuck. And so on. In the farm machinery 82x, the mud scraping member 122x is disposed at a lower position from the road surface. For this reason, the position of the mud 64x to be scraped becomes low. Since the position of the mud 64x being scraped is low, the force of mud 64x falling on the road surface is reduced. In the farm machinery 82x, the mud 64x does not fall into agglomerates, so that the force of the fallen mud 64x can be reduced. As a result, such as seedlings are not damaged.

FIG. 17 is a cross-sectional view taken along the line D-D of FIG. 15. FIG. 17 shows a state where the coil spring 118x is fixed to the cylinder 110x. FIG. 17 shows a cylinder 110x, a coil spring 118x, a buffer member 116x, and a fixture 114x that includes a bolt 132x and a nut 134x. A portion of coil spring 118x is received in cylinder 110x. The buffer member 116 is accommodated in the cylinder 110x and is disposed between the cylinder 110x and the coil spring 118x. The cylinder 110x is provided with a fixing hole 136x penetrating from the outside of the cylinder 110x toward the inside thereof. In this arrangement, the bolt 132x is screwed into the fixing hole 136x from the outside of the cylinder 110x. As a result, the tip of the bolt 132x passes through the side of the coil spring 118x passing through the buffer member 116x. The nut 134x fixes the cylinder 110x from the outside thereof so that the bolt 132x does not move. Thus, coiled spring 118x is fixed to cylinder 110x. In this arrangement, the stay 94x can be fixed to the holding portion 92x. Coil spring 118x is fixed to cylinder 110x. As a result, the coiled spring 118x does not deform or bend. The mud scraping device 84x has excellent durability. The fixture 114x is composed of a clamp or the like.

The buffer member 116x is a flat sheet having a predetermined size. The buffer member 116x is a curved sheet formed before the section having a curved shape that matches the shape of the outer surface of the cylinder 110x. The buffer member 116x is configured to cover the entire circumference of the cylinder 110x. As examples of the buffer member 116x, plastic materials and rubber materials are preferred. In view of elastic deformation, rubber materials are preferred. Examples of rubber materials include natural rubber, styrene butadiene rubber, butadiene rubber, and isoprene rubbers. Natural rubber is preferred in view of variability.

The inventors of the present invention investigated the durability of the mud scraping devices 8x and 84x of agricultural machines 2x and 82x, respectively. According to the investigation, the time taken for the elastic members of the mud scraping devices 8x and 84x to break is when the transfer speed is changed from 1.5 km / h to 1.7 km / h to operate the lifter. In the mud scraping device 8x attached to the agricultural machine 2x shown in FIG. 11, it was confirmed that the coil spring 52x took 2 hours from the start of operation. On the other hand, in the said mud scraping apparatus 84x, even if work continued for 40 hours or more, the breakage of the coil spring 118x did not occur in some cases. According to the results obtained by the actual machine, similarly, the durability of the mud scraping device 84x was shown to be superior to the mud scraping device 8x of FIG.

18 is a side view showing a part of farm machinery 138x according to the fifth embodiment of the present invention. 18 shows the abutment of rear wheel 140x of farm machinery 138x. The configuration of the rear wheel 140x and other portions of the farm machinery 138x is the same as that of the farm machinery 82x shown in FIG. The rear wheel 140x includes only block shaped lugs 142x with small side projections.

In the farm machinery 138x, the stay 94x includes a coil spring 118x of an elastic member having a structure that is curved when a force is applied and is restored when the force is removed. The coil spring 118x repeats bending and restoring at rotation of the wheel 144x. Squeegee 96x includes mud scraping member 122x disposed along the side of wheel 144x. Thus, the mud scraping member 122x reliably scrapes the mud 64x stuck to the side of the wheel 144x. Since the mud 64x is reliably scraped, it does not accumulate in the wheel 144x.

The holding portion 92x of the farm machinery 138x includes a substrate 112x, a cylinder 110x, a fixture 114x, and a buffer member 116x. The coil spring 118x is partially accommodated in the cylinder 110x and is fixed by the fixture 114x via the buffer member 116x. Thus, the coil spring 118x is prevented from being deformed or broken. The mud scraping device 84x has surprising durability.

Arm portion 90x of farm machinery 138x includes a placement and adjustment mechanism such as farm machinery 82x of FIG. 14. Thus, the mud scraping member 122x may be disposed at a lower position from the road surface. For this reason, the position of the scraped mud 64x becomes low. Because the position of the scraped mud 64x is low, the force of the mud 64x falling on the road surface can be reduced. In the agricultural machine 138x, the mud 64x does not fall into agglomerates, and the force of the falling mud 64x can be reduced. As a result, the seedlings and the like are prevented from being damaged.

Since the mud scraping device according to the second to fifth embodiments includes a mud scraping member disposed along the side of the wheel, the mud stuck to the side of the wheel can be reliably scraped. have. Thus, the mud does not accumulate in the wheel. The stay includes an elastic member that is curved when a force is applied and is restored when the force is removed. In wheels with large lateral protrusions, such as blade lugs, the tip of the mud scraping member is thus able to move outward in the longitudinal direction of the machine body while in contact with the rotating tip of the blade lug. Thus, the mud scraping device scrapes the mud stuck to the rotating tip of the blade lug. The elastic member is partially received in the cylinder, and is fixed to the fixed body through the buffer member. Thus, in farm machinery including a mud scraping device, the elastic member does not deform or break in operation. Such mud scraping devices have surprising durability.

19 is a side sectional view of a farm machine 2y according to a sixth embodiment of the present invention. The farm machine 2y includes a main body 4y, a wheel 6y and a mud scraping device 8y. The main body 4y is mounted thereon with the same function as a handover device. The wheel 6y is composed of a front wheel 10y and a rear wheel 12y. The farm machinery 2y is a four-wheel type transfer machine. The mud scraping device 8y is attached to the rear wheel 12y. In Fig. 19, the left side of the ground shows the front side of the farm machinery 2y. The direction perpendicular to the ground indicates the axial direction of the wheel 6y. The farm machinery 2y is a two-wheeled vehicle.

The structure, size, and the like of the wheel 6y are appropriately determined in consideration of the details of the farm machinery 2y and the like. In the farm machinery 2y, the wheels 6y are attached to the hubs 14ya and 14yb, spokes 16ya and 16yb extending radially from the hubs 14ya and 14yb and the ends of the spokes 16ya and 16yb. Ring-shaped rims, and elastic ring members 18ya and 18yb covering the rims. The shaft is fastened to the hubs 14ya and 14yb. The number of spokes 16yz and 16yb provided in the wheel 6y is three each. The number of spokes 16yz and 16yb may be four or more. In Fig. 19, the rim is not shown because it is covered with elastic ring members 18ya and 18yb.

Each spoke 16ya, 16yb and the rim are formed of a metal pipe. Examples of the material of the spokes 16yz, 16yb and the rim are steel or stainless steel. In view of corrosion resistance, stainless steel is preferred.

The hubs 14ya and 14yb and the spokes 16ya and 16yb, the spokes 16ya and 16yb and the rim are respectively joined by welding. These are joined by rivet or bolted connections. In the farm machinery 2y, the spokes 16ya and 16yb joined adjacent to the rim are partially covered with the elastic ring members 18ya and 18yb. In the spokes 16ya and 16yb, the cover portion 20y is covered by the elastic ring members 18ya and 18yb.

The elastic ring members 18ya and 18yb include lugs 22ya and 22yb. In the farm machinery 2y, the lugs 22ya and 22yb have different structures in the front wheel 10y and the rear wheel 12y. The lug 22ya of the front wheel 10y includes a protrusion 24y and a pushing portion 26y. The protrusion 24y is disposed on the equator plane of the wheel 6y. The pushing portions 26y extending in the axial direction from the protrusions 24y are disposed mutually in the transverse direction in the rotational direction on both sides of the protrusions 24y. The lug 22yb of the rear wheel 12y includes a straight running tip 28y and a blade 30y. The linear traveling tip portion 28y and the blade portion 30y are alternately arranged in the rotational direction. The shape of the lugs 22ya and 22yb is determined according to the details of the farm machinery 2y and the like. Therefore, the lug 22yb of the rear wheel 12y is composed of the protrusion 24y and the pushing portion 26y. In the agricultural machine 2y, the elastic ring members 18ya and 18yb are made of a rubber material.

20 is a partially enlarged plan view showing a part of the mud scraping device 8y of FIG. 19 together with the rear wheel 12y. In Fig. 20, the transverse direction on the ground indicates the axial direction. The mud scraping device 8y includes an adapter 32y, a support member 34y, and a mud discharge member 36y. In FIG. 20, the dashed-dotted line CLy represents the equator line plane of the wheel 6y.

The adapter 32y is disposed between the main body 4y and the support member 34y. The adapter 32y is attached to the main body 4y and extends toward the rear wheel 12y. In the farm machine 2y, the end 44y of the adapter 32y is curved in parallel with the axial direction. The structure and attachment portion of the adapter 32y are determined in consideration of the structure of the farm machinery 2y, the size of the wheel 6y, and the like. The support member 34y is directly attached to the main body 4y.

The support member 34y has a first arm 48y extending from the adapter 32y along the side 46y of the wheel 6y and a second arm 50y extending axially from the first arm 48y. ), A third arm 52y extending from the second arm 50y along the other side 46y of the wheel 6y.

The first arm 48y includes a first ring 54y on one of the outer ends and a second ring 56y on the other of the outer ends. The third arm 52y has a third ring 58y on one of the outer ends. The second arm 50y is supported by the first ring 54y and the third ring 58y and is fixed to the first arm 48y and the third arm 52y. The second ring 56y supports the adapter 32y such that the support member 34y is fixed to the adapter 42y.

The mud discharge member 36y includes a first mud scraping member 60y, a second mud scraping member 62y, a first holding member 64y, and a second holding member 66y. The first mud scraping member 60y extends axially from the support member 34y side, that is, from the first arm 48y side toward the equator plane of the wheel 6y. The first holding member 64y has a fourth ring 68y on its outer end. The first holding member 64y is disposed between the first arm 48y and the second scraping member 60y, and fixes the first mud scraping member 60y, and further includes a fourth ring ( The first arm 48y is supported through 68y). The second mud scraping member 62y extends axially from the third arm 52y side toward the equator line plane of the wheel 6y. The second holding member 66y has a fifth ring 70y on its outer end. The second holding member 66y is located between the third arm 52y and the second scraping member 62y and fixes the second mud scraping member 62y and further includes the fifth ring ( And 70y) to support the third arm 52y.

The first mud scraping member 60y and the second mud scraping member 62y have such a structure that it bends when a force is applied in the rotational direction of the wheel 6y and restores when the force is removed. The mud scraping members 60y and 62y repeat curvature and shape restoration upon rotation of the wheel. In the agricultural machine 2y, the first mud scraping member 60y and the second mud scraping member 62y are coil springs. Examples of the material of the coil spring include metal materials, and synthetic polymer materials. In terms of strength, the metal material is preferably a material of a coil spring. Examples of such metal materials include steel, aluminum alloys, and stainless steel. In view of corrosion resistance, the stainless steel is preferred. The first mud scraping member 60y and the second mud scraping member 62y are composed of bar members formed of a rubber material. In this case, examples of the rubber member include natural rubber, styrene butadiene rubber, butadiene rubber, and isoprene rubber. In view of deformability, natural rubber is preferred.

The first ring 54y and the third ring 58y are fixed to a predetermined position of the second arm 50y and are configured to slide along the second arm 50y. The fourth ring 68y is configured to slide along the first arm 48y and to be fixed at a predetermined position of the first arm 48y. The fifth ring 70y is configured to slide along the third arm 52y and to be fixed to a predetermined position of the third arm 52y. The second ring 56y is configured to slide along the adapter 32y and to be fixed at a predetermined position of the adapter 32y.

In the farm machinery 2y, all the first arms 48y, the second arms 50y, the third arms 52y, and the adapters 32y are composed of round bar members. The round bar member is replaced with a square member having a square section. The first ring 54y is fixed on the outer periphery surface of the first ring 54y with the slide hole into which the round bar member constituting the second arm 50y is inserted, and the round bar member is not shown. It is provided with a screw fixing portion. The screw fixing portion is composed of the screw hole and the screw. When the screw is screwed into the screw hole, it presses the side of the round bar member. By pressing the screw, the round bar member is fixed. In the agricultural machine 2y, the second ring 56y, the third ring 58y, the fourth ring 68y and the fifth ring 70y have the same structure as that of the first ring 54y. The farming machine 2y is provided with a placement and adjustment mechanism via a slide lock. In the agricultural machine 2y, the positions of the first mud scraping member 60y and the second mud scraping member 62y are different from the farm ground, the diameter of the wheel 6y, the width of the wheel 6y, and the mud are different. Can be adjusted by placement and adjustment mechanisms depending on the state of attachment. In the agricultural machine 2y, the mud easily sticks to the adjacent portion of the cover 20y. In the agricultural machine 2y, the first mud scraping member 60y and the second mud scraping member 62y are disposed at a position where the cover portion 20y is in contact thereon. The arrangement and adjustment mechanism is constituted by a clamp or the like.

The round bar member and the fixture are preferably formed of a metal material in terms of strength. Examples of the metal material include steel, aluminum alloy, stainless steel. In view of corrosion resistance, the stainless steel is preferred.

In FIG. 20, the arrow line DAy of the second mud scraping member 62y disposed on the tip 72ya of the first mud scraping member 60y and the equator line plane of the wheel 6y. Represent the space between the tips 72yb. Point PAy represents the center of the gap DAy. In the agricultural machine 2y, the point PAy is disposed on the equator line plane of the wheel 6y. Point PAy is shifted from the equator plane. The tip 72ya of the first mud discharge portion and the tip 72yb of the second mud discharge portion come into contact with each other.

FIG. 21 is a cross-sectional view taken along the line E-E of FIG. 20. FIG. 21 shows the first mud scraping member 60y, the part of the first holding member 64y, the second mud scraping member 62y, the part of the second holding member 66y, and the device. The cover part 20y of 8y is shown. As the wheel 6y rotates, the cover portion 20y comes close to the first mud scraping member 60y and the second mud scraping member 62y. Then, the cover portion 20y is in contact with the first mud scraping member 60y and the second mud scraping member 62y. In FIG. 21, the arrow F indicates the rotation direction of the wheel 6y.

FIG. 22: is sectional drawing which shows the state which the cover part 20 contact | connects on the said 1st mud scraping member 60y and the 2nd mud scraping member 62y. When the cover portion 20y comes in contact with the first mud scraping member 60y and the second mud scraping member 62y, a force is applied to the first mud scraping member 60y and the second. It is applied to the mud scraping member 62y. The first mud scraping member 60y and the second mud scraping member 62y are curved by the applied force. The cover portion 20y passes through the portion between the first mud scraping member 60y and the second mud scraping member 62y while both of them are curved. When the cover portion 20y passes between them, the force applied to the first mud scraping member 60y and the second mud scraping member 62y is removed. The first mud scraping member 60y and the second mud scraping member 62y have shape resilience. When the force applied to the first mud scraping member 60y and the second mud scraping member 62y is removed, the first mud scraping member 60y and the second mud scraping member ( 62y) returns to the state shown in FIG. In the agricultural machine 2y, the bending and shape restoration of the first mud scraping member 60y and the second mud scraping member 62y are repeated. Thus, the spokes 16ya and 16yb are configured to repeat the bending and shape restoration of the mud scraping members 60y and 62y which are elastic members at the time of rotation of the wheel 6y. In addition, in FIG. 22, arrow F shows the direction of change of the wheel 6y.

The cover portion 20y is in contact with the first mud scraping member 60y and the second mud scraping member 62y so that the mud stuck to the cover portion 20y is scraped. As described above, the apparatus 8y has a structure passing through a position between the first mud scraping member 60y and the second mud scraping member 62y. Thus, the mud stuck inward in the axial direction from the side 46y of the wheel 6y is surely scraped. Thus, the scraped mud does not accumulate, so no mud mass is formed.

In the agricultural machine (y), a tip consisting of a mud scraping member having a first mud scraping member 60y and a second mud scraping member 62y in contact with the cover portion 20 above the equator plane. It has a small size compared with the mud discharge member having a. In the farm machinery 2y, the abrasion of the cover portion 20y is suppressed. In an agricultural machine in which wear of the cover portion 20y is suppressed, it becomes possible to prevent the durability of the wheel 6y from being lowered.

In the agricultural machine 2y, the mud scraping device 8y does not need to cover the wheel 6y in the longitudinal direction and the transverse direction like a normal mud scraping device. Thus, the weight increase of the vehicle is minimized. Therefore, deterioration of the runability in the soft terrain such as rice fields is prevented. In addition, the dark black discharge member 36y is disposed at a position having a small height from the road surface. Thus, the position having the height at which the mud is scraped becomes low. Thus, the force of mud falling on the road surface is weakened. In the farm machinery 2y, the mud does not fall into agglomerates, so that the force of the falling mud becomes weak. As a result, damage such as seedlings is prevented.

23 to 25 show a mud discharge member 37y according to a modification of the mud discharge member 36y according to the sixth embodiment. In the mud discharge member 36y, two elastic members (coil springs) extend axially from the support member 34y toward the equator line plane of the wheel 6y. On the other hand, in the mud discharge member 37y, the elastic member (coil spring) extends axially from the support member 34y side toward the equator line plane of the wheel 6y. The elastic member is provided only on one side in the axial direction of the wheel 6y. In the following description of the mud discharge member 37y, the same reference numeral as that of the mud discharge member 36 is shown in the same structure as the mud discharge member 36y, and the same description is omitted.

The mud discharge member 37y includes a mud scraping member 61y and a holding member 65y. The mud scraping member 61y extends axially from the support member 34y side, that is, from the arm 49y side toward the equator plane of the wheel 6y. The holding member 65y has a ring 69y on its outer end. The holding member 65y is a mud scraping member 61y and an arm 49y that fixes the mud scraping member 61y. Disposed between and support the arm 49y by the ring 69y.

The mud scraping member 61y is provided within an axial range that overlaps the width in the axial direction of the cover portion 20y (or the spoke 16yb). The mud scraping member 61y is provided with a position on the other end in the axial direction from a position on the one end side in the axial direction of the cover portion 20y (or the spoke 16yb). In other words, the mud scraping member 61 is provided over the entire axial width of the cover portion 20y (or the spoke 16yb). The mud scraping member 61y has such a structure that it bends when a force is applied during rotation of the wheel 6y and restores when the force is removed. The mud scraping member 61y repeats bending and shape restoration upon rotation of the wheel 6y. The mud scraping member 61y is a coil spring. Examples of the material of the coil spring include metal materials and synthetic polymer materials. In terms of strength, the metal material is preferred as the material of the coil spring. Examples of metal materials include steel, aluminum alloys, and stainless steels. In view of corrosion resistance, stainless steel is preferred. The mud scraping member 61y is composed of a bar member made of a rubber material. In this case, examples of the rubber material include natural rubber, styrene butadiene rubber, butadiene rubber and isoprene rubber. In view of deformation, natural rubber is preferred.

Similar to the first arm 48y, the arm 49y is composed of a round bar member. As mentioned above, all the second arm 50y, the third arm 52y and the adapter 32y are composed of round bar members. The round bar member is replaced with a rectangular member having square sections. Although not shown, the mud discharge member 37y is provided with an arrangement and adjustment mechanism through a slide lock. By means of the arrangement and adjustment mechanism, the position of the mud scraping member 61y is adjusted according to the farm ground, the diameter of the wheel 6y, the width of the wheel 6y, the mud stuck state, and the like. In the agricultural machine 2y, the mud scraping member 61y is disposed at a position where the cover portion 20y is in contact thereon. The positioning and adjusting mechanism is composed of a clamp or the like.

The round bar member and the fixture are preferably formed of a metal material in terms of strength. Examples of metal materials include steel, aluminum alloys, stainless steels. In view of corrosion resistance, stainless steel is preferred.

24 is a cross-sectional view taken along the line G-G of FIG. 24 shows the mud scraping member 61y, the part of the holding member 65y, and the cover part 20y. At the time of rotation of the wheel 6y, the cover portion 20y approaches the mud scraping member 61y. Then, the cover portion 20y is in contact with the mud scraping member 61y. In FIG. 24, the arrow line H shows the rotation direction on the wheel 6y.

25 is a cross-sectional view showing a state in which the cover portion 20 is in contact with the mud scraping member 61u. When the cover portion 20y comes in contact with the mud scraping member 61y, a force is applied to the mud scraping member 61y. The mud scraping member 61y is bent by the applied force. The cover portion 20y passes through the tip portion of the mud scraping member 61y while the mud scraping member 61y is curved. When the cover portion 20y passes through the tip portion, the force applied to the mud scraping member is removed. The mud scraping member 61y has shape resilience. When the force applied to the mud scraping member 61y is removed, the mud scraping member 61y returns to the state shown in FIG. As a result, the curvature and shape restoration of the mud scraping member 61y, which is an elastic member, is repeated with the rotation of the wheel 6y. Thus, the spokes 16ya and 16yb are configured to repeat the bending and shape restoration of the mud scraping member 60y, which is an elastic member, upon rotation of the wheel 6y. In FIG. 25, the arrow H indicates the rotation direction of the wheel 6y.

The cover portion 20y abuts on the mud scraping member 61y so that the mud stuck to the cover portion 20y is scraped. As described above, this structure is adopted such that the cover portion 20y passes through the tip portion of the mud scraping member 61y while contacting on the mud scraping member 61y. Thus, the mud stuck inward in the axial direction from the side 46y of the wheel 6y is surely scraped. Scraped mud does not accumulate or form mud masses.

Fig. 26 is a side view showing a part of farm machinery 74y according to the seventh embodiment of the present invention. The farm machinery 74y includes a main body 4y, a wheel 6y, and a mud scraping device 8y. The agricultural machine 74y is a four-wheeled vehicle in which the wheel 6y is composed of a front wheel 10y and a rear wheel 76y. 26 shows a part of the mud scraping device 8y and the rear wheel 76y. The mud scraping device 8y is attached to the rear wheel 76y. The rear wheel 76y includes a blade lug 78y protruding from its inner peripheral surface. The structure of the rear wheel 76y and other portions of the farm machinery 74y is the same as that of the farm machinery 2y in FIG. Thus, the mud scraping device 8y is disposed and adjusted to adjust the position of the first mud scraping member 60y and the second mud scraping member 62y provided to the mud discharge member 36y. It includes a mechanism. Therefore, in the agricultural machine 74y, the first mud scraping member 60y and the second mud scraping member 62y are disposed at a position where a balance between running and scraping of mud is considered. Therefore, in the agricultural machinery 74, the running property is prevented from being lowered by the interference between the first mud scraping member 60y having the blade lug 78y and the second mud scraping member 62y. In addition, the farm machinery 74y is sure to scrape the mud stuck to the wheel 6y.

Fig. 27 is a plan view showing a part of the mud scraping device 82 provided in the farm machinery 80y according to the eighth embodiment of the present invention. The farm machinery 80 includes a body 4y, a wheel 6y and a mud scraping device 82y. The main body 4y and the wheel 6y of the farm machinery 80y have the same structure as that of the farm machinery 2y of FIG. The farm machinery 80y has a four-wheel structure in which the wheel 6y is composed of a front wheel 10y and a rear wheel 12y. In the farming machine 80y, the mud scraping device 82y is attached to the rear wheel 12. 27 shows a part of the mud scraping device 82y and a part of the rear wheel 12y.

The mud scraping device 82y includes an adapter 84y, a support member 86u and a mud discharge member 88y. The support member 86y has a first arm 90y extending from the adapter 84y along one side 46y of the wheel 6y and a second arm axially extending from the first arm 90y. 92y, and a third arm 94y extending along the other side 46y from the second arm 92y. The mud discharge member 88y includes a first mud scraping member 96y extending axially from the first arm 90y toward the equator plane of the wheel 6y and the equator line of the wheel 6y. And a second mud scraping member 98y extending axially from the third arm 94y towards the plane. The first mud scraping member 96y and the second mud scraping member 98y are coil springs.

In FIG. 27, the arrow line DBy represents a gap between the tip 100ya of the first mud scraping member 96y and the tip 100yb of the second mud scraping member 98y. Arrow line WBy represents the width | variety of the axial direction of the cover part 20y. The point PBy represents the center of the gap DBy. In the agricultural machine 80y, the tip 100ya of the first mud scraping member 96y and the tip 100yb of the second mud scraping member 98y are on the axial outer side of the cover portion 20y. Is placed. The tips 100ya and 100yb are configured to contact the side surfaces of the cover part 20y. In the farm machinery 80y, the gap DBy is set to be equal to or larger than the width WBy. In this agricultural machine 80y, the area where the first mud scraping member 96y and the second mud scraping member 98y contact on the cover portion 20y is minimized. Therefore, wear of the cover part 20y is suppressed. Since the wear of the cover part is suppressed, the durability of the wheel 6y is prevented from being lowered. In the agricultural machine 80y, the point PBy is disposed on the equator plane of the wheel 6y. Point PBy is shifted from the equator plane.

28 is a plan view showing a part of the mud scraping device 104y provided in the farm machine 102y according to the ninth embodiment of the present invention. The farm machine 102y includes a main body 4y, a wheel 6y, and a mud scraping device 104y. The main body 4y and the wheel 6y of the farm machine 1021y have the same structure as that of the farm machine 2y of FIG. The agricultural machine 102y has a four-wheel structure with a wheel 6y composed of a front wheel 10y and a rear wheel 12y. In the farm machine 102y, the mud scraping device 104y is attached to the rear wheel 12y. 28 shows a portion of the rear wheel 12y and a portion of the mud scraping device 104y.

The mud scraping device 104y includes an adapter 106y, a support member 108y and a mud discharge member 110y. The support member 108y has a first arm 112y extending from the adapter 106y along one side 46y of the wheel 6y and a second arm axially extending from the first arm 112y. 114y, and a third arm 116y extending from the second arm 114y along the other side 46y of the wheel 6y. The mud discharge member 110y is a first mud scraping member 118y extending axially from the first arm 112y side toward the support member 108 side, that is, toward the equator plane of the wheel 6y. And a second mud scraping member 120y extending axially from the third arm 116y toward the equator line plane of the wheel 6y. In the same manner as the mud scraping device 104y shown in FIG. 28, the tip 122y of the first mud scraping member 118y and the second mud scraping member 120y is covered with a cover portion 20y. It is disposed on the axial outer side of). In the agricultural machine 102y, the tips 122ya and 122yb on the equator line plane side of the first mud scraping member 118y and the second mud scraping member 120y are not in contact with the cover portion 20y. .

In FIG. 28, the arrow DCy indicates the gap between the tip 122ya of the first mud scraping member 118y and the tip 122yb of the second mud scraping member 120y. Arrow line WCy represents the axial width of cover part 20y. The point PCy represents the center of the gap DCy. In the agricultural machine 102y, the tip 122ya of the first mud scraping member 118y and the tip 122yb of the second mud scraping member 120y are disposed on the axial outer side of the cover portion 20y. Is placed on. For this reason, the gap DCy is larger than the width WCy. In the agricultural machine 102y, the first mud scraping member 118y and the second mud scraping member 120y are not in contact with the cover portion 20y. Therefore, the cover portion 20y is not worn. Since the cover portion 20y is not worn, the durability of the wheel 6y does not decrease. In the agricultural machine 102y, the point PCy is disposed on the equator line plane of the wheel 6y. Point PCy is displaced from the equator plane.

In the agricultural machine 102y, the first mud scraping member 118y and the second mud scraping member 120y are not in contact with the cover portion 20y. Thus, bar members for which curvature and elastic recovery are not considered are used for the first mud scraping member 118y and the second mud scraping member 120y. By using the first mud scraping member 118y and the second mud scraping member 120y, it becomes possible to reduce the manufacturing cost of the mud scraping device 104y. For example, the section shape of the bar member is round or square. As the material of the bar member, a metal material or a synthetic polymer material is preferable. Examples of such metallic materials include steel, aluminum alloys and stainless steels. In view of corrosion resistance, stainless steel is preferred. Examples of synthetic polymer materials include plastic materials, and rubber materials. In view of deformability and processability, plastic materials are preferred. Examples of plastic materials include polyvinyl chloride, polystyrene, polyethylene, polypropylene, polyacetal and the like.

The mud scraping device according to the sixth to ninth embodiments does not have a large-scale structure in which the wheels are elongated to cover the directions in the cross direction. Thus, the weight increase of the vehicle is minimized. For this reason, the runability in soft ground such as rice fields does not decrease. The device is also attached to a location with a small height from the road surface. Thus, the mud is scraped at a location with a low height from the road surface. The apparatus includes a first mud scraping member and a second mud scraping member extending axially toward the equator plane of the wheel. With this flow path, the device reliably scrapes the mud stuck inward in the axial direction from the side of the wheel. Since the mud is scraped, it does not accumulate or form lumps. In this arrangement, the mud does not fall into agglomerates, and the mud is scraped at low heights. Thus, the seedlings are prevented from being damaged.

29 is a side view of the farm machine 2z according to the tenth embodiment of the present invention. The farm machine 2z includes a machine body 4z, a wheel 6z and a mud scraping device 8z. The machine body 4z is mounted thereon with a functioning function as a handover machine. The wheel 6z consists of a rear wheel 12z attached to the rear part of the machine body 4z and a front wheel 10z attached to the front part of the machine body 4z. The farm machinery 2z is a four-wheel type handover machine. The mud scraping device 8z is attached to the front wheel 10z and the rear wheel 12z. In Fig. 29, the transverse direction represents the longitudinal direction of the machine body 4z. The left side in the ground represents the front side of the farm machinery 2z. The direction perpendicular to the ground indicates the axial direction of the wheel 6z.

The wheel 6z includes an iron wheel 14z and a ring-shaped elastic ring member 16z on the outer side in the radial direction of the iron wheel 14z. The iron wheel 14z consists of a boss 18z, a spoke 20z extending radially from the boss 18z, and a ring-shaped rim fixed to an end of the spoke 20z. The wheel 6z is of spoke type. The rim is covered with an elastic ring member 16z and is therefore not shown. The elastic ring member 16z includes lugs 22z on its outer peripheral surface. The lug 22z is composed of a block lug 24z. The block shaped lug 24z is composed of a trapezoidal lug 26z and a triangular lug 28z. The elastic ring member 16z does not include a blade lug 22z with a large protrusion towards the side of the wheel 6z. The trapezoidal lug 26z is disposed on the equator line plane of the wheel 6z. The trapezoidal lug 26z does not have a protrusion toward the side of the wheel 6z. The triangular lug 28z extends outward in the axial direction of the trapezoidal lug 26z. The triangular lugs 28z are arranged transversely and mutually in the rotational direction on both sides of the trapezoidal lugs 26z. The projection of the triangular lug 28z towards the side of the wheel 6z is smaller than the blade lug 22z. The size of the protrusion facing the side of the wheel 6z is small. The lugs 22z of the wheels 6z of the front wheels 10z and the rear wheels 12z attached to the farm machinery 2z consist of only block-shaped lugs 24z. In this case, the mud scraping device 8z is attached to the wheel 6z whose lugs 22z are made up of only the block-shaped lugs 24z. In some cases, the farm machinery 2z includes an axial wheel. In this case, it is possible to attach the mud scraping device 8z to an additional wheel comprising only block shaped lugs 24z without providing blade lugs 22z on its outer peripheral surface.

FIG. 30 is a plan view showing a part of the mud scraping apparatus provided in the farm machinery 2z of FIG. 29. In Fig. 30, the vertical direction represents the axial direction of the wheel 6z. The lower side on the ground indicates the outside of the wheel 6Z. The lateral direction represents the longitudinal direction of the machine body 4Z. The left side of the ground represents the front side of the farm machinery 2z. The dashed-dotted line CLz represents the center line of the wheel 6z. The center line CLz is on the equator line plane of the wheel 6.

The mud scraping device 8z includes a support member 30z and a squeegee 32z serving as a mud scraping member. The support member 30z includes an arm portion 34z fixed to the machine frame 4z and a holding portion 36z disposed along the contact surface of the wheel 6z from the arm portion 34z. The squeegee 32z extends from the holding portion 36z in the longitudinal direction of the machine frame 4z.

The arm portion 34z includes a first rod 38z having one end welded to the machine body 4z, a second rod 42z having one end welded to the first ring 40z, and a bending process. A third rod 44z and a second ring 46z and a third ring 48z. The first rod 38z extends in the longitudinal direction toward the rear side of the machine body 4z. The second rod 42z extends down from the first ring 40z. The third rod 44z is subjected to a bending process, and includes a portion extending in the axial direction and a portion extending in the longitudinal direction.

The holding part 36z includes a substrate 50z, a bolt 52z, and a nut 54z. The substrate 50z has a long structure in the axial direction. A bolt hole into which the bolt 52z can be inserted is formed on both sides of the substrate 50z although not shown. In the mud scraping apparatus 8z, the inner surface 56z of the substrate 50z and the outer peripheral surface 58z of the longitudinally extending portion of the third rod 44z are fixed to each other by welding.

The squeegee 32z is disposed along the sliding surface of the wheel 6z. The squeegee 32z has a shaft 60z extending longitudinally from the holding portion 36z toward the front of the machine body 4z, and a click extending downward from the end of the shaft 60z toward the road surface. 62z). An adjustment hole 64z is provided on the side of the holding portion 36z of the shaft 60z. The adjustment hole 64z has a long shape in the axial direction. The tip of the click 62z is rounded. The shape of the squeegee 32z is appropriately determined in consideration of the shape of the lug 22z, the size of the wheel 6z, and the like.

In the mud scraping device 8z, the shaft 60z is disposed on the substrate 50z. The bolt 52z is inserted through the adjustment hole 64z and the bolt hole, and is screwed to the nut 54z disposed in the bolt hole areh. The squeegee 32z and the substrate 50z are fixed with bolts 52z and nuts 54z so that the squeegee 32z is fixed directly to the holding portion 36z. As described above, the adjustment hole 64z of the squeegee 32z has an elongated shape in the axial direction. Thus, the axial position of the squeegee 32z can be adjusted. The squeegee 32z is fixed to the holding portion 36z by bolts 52z and nuts 54z and other fastening means.

The first ring 40z slides along the first rod 38z and is fixed to a predetermined position of the first rod 38z. The first ring 40z slides along the first rod 38z so that the longitudinal position of the squeegee 32z can be adjusted. The second ring 46z slides along the second rod 42z and is fixed at a predetermined position. The second ring 42z slides along the second rod 42z such that the longitudinal position of the squeegee 32z is adjusted. The third ring 48z slides along the axially extending portion of the third rod 44z and is fixed at a predetermined position. The third ring 48z slides along an extended portion at the axial position of the third rod 44z such that the position of the squeegee 32z is adjusted at the axial position of the wheel 6z. The third rod 44z rotates in the same direction as the wheel 6z. Therefore, the angle formed with respect to the longitudinal direction of the squeegee 32z can be adjusted. The farm machinery 2z is provided with a placement and adjustment mechanism via a slide lock. Therefore, the squeegee 32z is disposed at an optimum position according to the farm ground, the diameter of the wheel 6z, the width of the wheel 6z, the stuck state of the mud 66z, and the like.

As described above, the squeegee 32z is disposed along the side of the wheel 6z. Thus, in the agricultural machine 2z, the squeegee 32z reliably scrapes the mud 66z that clings to the slide surface of the wheel 6z. Since the mud 66z stuck to the wheel 6z is reliably scraped, the mud 66z does not accumulate on the wheel 6z. Since the mud 66z does not accumulate, the mud 66z does not form into agglomerates.

The farm machinery 2z includes a placement and regulation mechanism. Thus, the squeegee 32z is disposed at a lower position from the road surface. For this reason, the position of the scraped mud 66z becomes low. Because the position of the scraped mud 66z is low, the force of the mud 66z falling on the road surface is reduced. In the agricultural machine 2z, the mud 66z does not fall into agglomerates, and further, the force of the falling mud 66z is reduced. As a result, the seedlings and the like are prevented from being damaged.

Examples of the material of the squeegee 32z include metal materials and synthetic polymer materials. Examples of metal materials include steel, aluminum alloys, stainless steels. In view of corrosion resistance, stainless steel is preferred. Examples of synthetic polymer materials include plastic materials and rubber materials. In terms of strength and burnability, plastic materials are preferred. Examples of plastic materials include polyvinyl chloride, polystyrene, polyethylene, polypropylene, polyacetal, and the like.

Fig. 31 is a side view showing a part of farm machinery 68z according to the eleventh embodiment of the present invention. Sai agricultural machine 68z includes a machine body, a wheel 70z and a mud scraping device 72z. The farm machinery 68z is a four-wheel type transfer machine in which the wheel 70z is composed of a front wheel and a rear wheel. 31 shows a wheel 70z and a mud scraping device 72z attached to the wheel 70z. The structure of the parts different from the mud scraping device 72z of the farm machinery 68z is the same as that of the farm machinery 2z shown in FIG. In Fig. 31, the transverse direction represents the longitudinal direction of the machine body. The left side of the ground represents the front side of the farm machinery 68z. The direction perpendicular to the ground indicates the axial direction of the wheel 70z.

FIG. 32 is a plan view showing a portion of the mud scraping device 72z of FIG. 31. In FIG. 32, the vertical direction represents the axial direction of the wheel 70z. The lower side of the ground represents the outside of the wheel 70z. The transverse direction represents the longitudinal direction of the machine body. The left side of the ground represents the front side of the farm machinery 68z. The dashed-dotted line CLz represents the center line of the wheel 70z. The center line CLz is on the equator line plane of the wheel 70z.

The mud scraping device 72z includes a support member 74z and a squeegee 76z. The support member 74z includes an arm portion 78z fixed to the machine frame, and a holding portion 80z disposed along the contact surface of the wheel 70z from the arm portion 78z. The squeegee 76z extends in the longitudinal direction of the machine body from the holding portion 80z. The squeegee 76z is fixed directly to the holding portion 80z by bolts 82z and nuts 84z. The structure of the squeegee 76z and other portions of the mud scraping device 72z is the same as that of the mud scraping device 8z shown in FIG.

The squeegee 76z is disposed along the side of the axis 70z. The squeegee 76z includes a shaft 86z extending longitudinally from the holding portion 80z and a click 88z extending down from an end of the shaft 86z toward the road surface. An adjustment hole 90z is provided on the side of the holding portion 80z of the shaft 86z. The adjusting hole 90z has a long shape in the axial direction. The tip of the click 88z is round in shape. In the mud scraping device 72z, the squeegee 76z disposed inside the wheel 70z further includes an elastic member 92z that is an elastic member on its tip interior.

The elastic member 92z is positioned below the click 88z and is fixed to the front face of the click 88z. The elastic member 92z extends axially from the inside of the wheel 70z toward its outer side. The tip of the elastic member is above the equator line plane of the wheel 70z and reaches the tip side of the squeegee 76z disposed on the outside of the wheel 70z. Each squeegee 76z disposed outside and inside the wheel 70z includes an elastic member 92z extending toward the equator plane of the wheel 70z. In this case, the elastic member 92z has a structure in which its tip is disposed on the equator plane.

The elastic member 92z includes a fixing portion 94z welded to the click 88z and a coil spring 96z that is an elastic member. The arm portion 78z includes a placement and adjustment mechanism. Thus, the coil spring 96z is disposed at the optimum position. In the wheel 70z, the boundary 98z is provided between the spoke 20z and the elastic ring member. In the mud scraping device 72z, the coil spring 96z is arranged in such a manner that the boundary portion 98z abuts thereon.

Upon rotation of the wheel 70z, the boundary 98z abuts on the coil sprinkling 96z. When the boundary portion 98z comes in contact with the coil spring 96z, a force is applied to the coil spring 96z. By the applied force, the coil spring 96z is bent. The boundary 98z is moved while the coil spring 96z is curved. When the boundary portion 98z is away from the coil spring 96z, the force applied to the coil spring 96z is removed. When the force applied to the coil spring 96z is removed, the shape of the coil spring 96z is restored. In the farm machinery 68z, the bending and shape restoration of the coil spring 96z are repeated. In traveling, the coil spring 96z is curved when a force is applied, and when the force is removed, the shape of the coil spring 96z is restored. Therefore, the joining of the boundary portion by the coil spring 96z is repeated without damaging runability.

The boundary portion 98z abuts on the coil spring 96z. Thus, mud 66z stuck to the boundary portion 98z is scraped. In the agricultural machine 68z, the mud 66z stuck inside from the side of the wheel 70z is reliably scraped. As described above, the squeegee 76z is disposed along the side of the wheel 70z. As a result, the mud 66z stuck to the side of the wheel 70z is reliably scraped off. Since the mud 66z is reliably scraped, the accumulation of mud on the wheel 70z is prevented. Since the mud 66z does not accumulate, no mud mass is formed. In the farm machinery 68z, a placement and adjustment mechanism is used such that the squeegee 76z is placed in a position with a low height from the road surface. Thus, mud 66z is scraped at a lower position from the road surface. Because the height of the scraped mud 66z is low, the force of the falling mud 66z is reduced. In the farm machinery 68z, the mud 66z does not fall into the lump state, and the force of the falling mud 66z is reduced. As a result, seedlings and the like are not damaged.

Examples of the material of the coil spring 96z include metal materials, synthetic polymer materials. In terms of strength, a metal material is preferably used for the coil spring 96z material. Examples of metal materials include steel, aluminum alloys, stainless steels. In view of corrosion resistance, stainless steel is preferred. The coil spring 96z is made of a bar member made of rubber material. In this case, examples of the rubber material include natural rubber, styrene butadiene rubber, butadiene rubber and isoprene rubber. In view of deformation, natural rubber is preferred.

The mud scraping device according to the tenth and eleventh embodiments includes a squeegee that becomes a mud scraping member extending along the side of the wheel. Thus, the mud stuck to the side of the wheel is reliably scraped off. As a result, the mud does not accumulate on the wheels. Since the mud does not accumulate on the wheels, no mud mass is formed. In farm machinery having a mud scraping device attached thereto, the mud does not fall into agglomerates. Thus, the seedlings and the like are prevented from being covered with mud or falling off.

The mud scraping device according to the invention can be attached to a variety of agricultural machinery.

The foregoing descriptions are exemplary, without departing from the scope of the present invention, and have various modifications.

Claims (36)

A mud scraping device comprising a mud discharge member having a mud scraping member for scraping mud stuck to a wheel, and a support member supporting the mud discharge member, The mud discharge member includes an elastic member connected to the support member to repeat bending and shape restoration upon rotation of the wheel, The mud scraping member repeats contact and detachment with respect to the wheel, Mud stuck to the mud scraping member is mud scraping device, characterized in that to fall off by the vibration of the elastic member. The method of claim 1, And the elastic member is a coil spring. delete The method of claim 1, And said elastic member is set as a mud scraping member. The method of claim 4, wherein And the elastic member extends in an axial direction from the support member side toward the equator line plane of the wheel. The method of claim 1, And said mud discharge member comprises a mud scraping member attached to said elastic member and an end of said elastic member. An agricultural machine comprising a wheel and a mud scraping device, The mud scraping device includes a mud discharge member having a mud scraping member for scraping mud stuck to a wheel, and a support member for supporting the mud discharge member, The mud discharge member includes an elastic member connected to the support member to repeat bending and shape restoration when the wheel is rotated. The mud scraping member repeats contact and detachment with respect to the wheel, The mud stuck to the mud scraping member is to fall off by the vibration of the elastic member. The method of claim 7, wherein The elastic member extends axially from the support member toward the equator line plane of the wheel, The wheel comprises a spoke, The spokes are farm machinery, characterized in that to repeat the bending and shape restoration of the elastic member during the rotation of the wheel. A support member extending from the body of the farm machinery towards the outer periphery of the rotational region excluding the contact of the wheel with the side projecting lugs provided on the farm machinery, and mud discharge from the support member towards the rotation of the side projecting lugs upon rotation of the wheel An apparatus for scraping mud on a wheel for agricultural machinery comprising a member, wherein the mud discharge member comprises a mud scraping member abutting on a rotational tip of a side protruding lug for scraping stuck mud, and the side protruding lug. An elastic member for maintaining elasticity in one direction to maintain contact with the rotating portion of the side and return to its original position after passing through the rotating portion of the side protruding lug, wherein the mud scraping member repeats contact and separation with respect to the wheel. And the mud stuck to the mud scraping member vibrates the elastic member. A device for scraping mud on a wheel for farm machinery, which is intended to be taken off by The method of claim 9, And said support member is provided with a closed position adjusting means capable of adjusting the position of the radial mud discharge member in the radial direction of the wheel. The method of claim 9, And said support member is provided with height adjustment means for adjusting the position of the mud discharge member in the height direction from the contact surface. The method of claim 9, And said support member is provided with side position adjustment means for adjusting the position of the mud discharge member in the axial direction of the wheel. The method of claim 9, And said support member is provided with angle adjusting means capable of adjusting a contact angle of said mud scraping member of said mud discharge member on said side protruding lug. The method of claim 9, And the mud scraping member of the mud discharge member has a tip portion formed in a circular section in a direction of sliding and contacting on a rotational tip surface of the side protruding lug. The method of claim 9, The mud scraping member of the mud discharging member scrapes mud on a wheel for agricultural machinery, characterized in that the tip of the side of the side lug has a tip formed at an angle of inclination parallel to the angle of inclination θ protruding from the side of the wheel. Device. The method of claim 9, The mud scraping member of the mud discharging member has an L shape in a shape that prevents it from impacting the rotational end face of the side protruding lug at an angle close to the right angle and preventing it from being wound on the side protruding lug in the reverse direction of the wheel. A device for scraping mud on a wheel for agricultural machinery, characterized in that. The method of claim 9, The mud scraping member of the mud discharge member is formed in a concave curve in a shape to impact the front end surface of the side protrusion lug and to prevent the winding on the side protrusion lug in the reverse direction of the wheel. Device for scraping mud on wheels for farm machinery. The method of claim 9, The mud scraping member of the mud discharge member is a device for scraping mud on a wheel for agricultural machinery, characterized in that the side edge portion which is turned toward the side of the wheel is formed in contact with or approach the side of the wheel. The method of claim 9, And the mud discharging member comprises an elastic member and a mud scraping member formed by a separating member and provided to be separated from each other and freely connected to each other. The method of claim 19, The mud discharge member is provided with a coupling plate between the mud scraping member and the elastic member, a base rod at the bottom of the elastic member, the mud scraping member and the coupling plate, the coupling plate and the elastic member, A device for scraping mud on a wheel for agricultural machinery, characterized in that the elastic member and the base rod are respectively fixed by fixing means. The method of claim 19, The mud discharge member is provided with a coupling member between the mud scraping member and the elastic member, and the side position of the mud scraping member can be adjusted based on the coupling plate, and between the mud scraping member and the wheel. Wherein the spacing is adjusted corresponding to the width of the wheel. A holding part attached to the machine body, a stay attached to the holding part and extending in the longitudinal direction of the machine body, and a mud scraping member extending in the longitudinal direction of the machine body along the side of the wheel and attached to the stay. In the agricultural machine mud scraping device comprising: The holding part includes a cylinder, a buffer member accommodated in the cylinder, and a fixed body, wherein the stay includes an elastic member that is curved when a force is applied and is restored when the force is removed, wherein the elastic member is accommodated in the cylinder and the A portion fixed by the fixing member through a buffer member, and fixed to the cylinder, The mud scraping member repeats contact and detachment with respect to the wheel, Mud stuck to the mud scraping member is mud scraping device for agricultural machinery, characterized in that to fall off by the vibration of the elastic member. In a farm machine comprising a machine body, a wheel, a mud scraping device, The wheel comprising a front wheel having only block-shaped lugs on its outer peripheral surface and a rear wheel having blade lugs on its outer peripheral surface, The mud scraping device is a holding part attached to the machine body, a stay attached to the holding part and extending in the longitudinal direction of the machine body, and a length direction of the machine body along the side of the wheel and attached to the stay. A mud scraping member extending into the The stay includes an elastic member that is curved when a force is applied and is restored when the force is removed, The mud scraping member repeats contact and detachment with respect to the wheel, The mud stuck to the mud scraping member is to fall off by the vibration of the elastic member. The method of claim 23, The holding portion includes a cylinder, a buffer member accommodated in the cylinder, and a fixed body, And the elastic member has a portion received in the cylinder and fixed to the cylinder through the buffer member and fixed to the cylinder. In a farm machine comprising a machine body, a wheel, a mud scraping device, The wheel comprising a front wheel and a rear wheel having only block-shaped lugs on its outer peripheral surface, The mud scraping device includes a holding part attached to the machine body, a stay attached to the holding part and extending in the longitudinal direction of the machine body, and a length of the machine body attached to the stay and along the side of the wheel. A mud scraping member extending into the The stay includes an elastic member that is curved when a force is applied and is restored when the force is removed, The mud scraping member repeats contact and detachment with respect to the wheel, The mud stuck to the mud scraping member is to fall off by the vibration of the elastic member. The method of claim 25, The holding portion includes a cylinder, a buffer member accommodated in the cylinder, and a fixed body, And the elastic member is accommodated in the cylinder and is fixed to the fixed body through the buffer member, characterized in that the agricultural machine characterized in that it has a fixed portion. In the mud scraping device comprising a support member and a mud discharge member, The support member includes a first arm extending along one of the sides of the wheel, a second arm axially extending from the first arm and a third extending along the other side of the wheel from the second arm. Including an arm, The mud discharge member includes a first mud scraping member extending axially from a first arm side toward the equator line plane of the wheel, and a second axial extension from the third arm toward the equator line plane. With mud scraping member, The first mud scraping member and the second mud scraping member are curved when a force is applied along the rotational direction of the wheel, and the shape is restored when the force is removed, and the first mud scraping member is The second mud scraping member repeats contacting and separating with respect to the wheel, and the mud stuck to the first mud scraping member and the second mud scraping member is caused to fall off by vibration. Mud scraping device. delete The method of claim 27, And said first mud scraping member and said second mud scraping member are comprised of a coil spring. delete In farm machinery, including wheels and mud scraping devices, The mud scraping device includes a support member and a mud discharge member, The support member includes a first arm extending along one side of the wheel, a second arm axially extending from the first arm and a third arm extending along the other side of the second arm. , The mud discharge member includes a first mud scraping member extending axially from a first arm side toward the equator line plane of the wheel, and a first axial direction extending from the third arm side toward the equator line plane. 2 mud scraping member, The first mud scraping member and the second mud scraping member are curved when a force is applied along the rotational direction of the wheel, and the shape is restored when the force is removed, and the first mud scraping member is The second mud scraping member repeats contact and separation with respect to the wheel, and the mud stuck to the first mud scraping member and the second mud scraping member is caused to fall off by vibration. Farm machinery. The method of claim 31, wherein The wheel comprises a spoke, And the spoke is configured to pass through a portion between the first mud scraping member and the second mud scraping member by rotation of a wheel. In the mud scraping device for agricultural machinery, comprising a holding part fixed to the machine body, a mud scraping member extending along the side of the wheel in the longitudinal direction of the machine body from the holding part, The mud scraping member is fixed directly to the holding portion, The mud scraping member has an elastic member which extends axially in the tip portion thereof and at the same time repeats bending and shape restoration upon rotation of the wheel, The mud scraping member repeats contact and detachment with respect to the wheel, Mud stuck to the elastic member is mud scraping device to be separated by the vibration of the elastic member. delete In agricultural machinery comprising a machine body, a wheel, and a mud scraping device attached to the wheel, The wheel comprises an outer major surface; The lug is made of a block-shaped lug only, The mud scraping device includes a holding part fixed to the machine body, and a mud scraping member extending along the side of the wheel from the holding part in the longitudinal direction of the machine body, The mud scraping member is fixed directly to the holding portion, The mud scraping member has an elastic member which extends axially in the tip portion thereof and at the same time repeats bending and shape restoration upon rotation of the wheel, The mud scraping member repeats contact and detachment with respect to the wheel, The mud adhered to the elastic member is to fall off by the vibration of the elastic member. delete

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