JP4183357B2 - Rotary tillage device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a configuration of a rotary tiller mounted on a tractor or the like.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in a side drive type rotary tiller mounted on a work vehicle such as a tractor, a bracket is fixed to a chain case and a side plate that are disposed at both left and right ends and support a tilling shaft, and the front cover is provided by the bracket. Was supporting. And this bracket was attached only to the flange part which protrudes ahead from the front end part of a chain case and a side plate .
[0003]
[Problems to be solved by the invention]
However, as described above, the bracket for supporting the front cover is fixed only to the flange portion of the chain case or the side plate where the plate thickness is thin. Therefore, when the front cover vibrates, the flange portion connected to the bracket is fixed. Excessive force was applied to the base end, which could cause cracks in the chain case and side plates.
[0004]
[Means for Solving the Problems]
The present invention uses the following means in order to solve the above problems.
A mounting seat (4c) formed on the front end surface of the chain case (4) is an attachment portion to the chain case (4) in a bracket (51) attached to the chain case (4) and supporting the front cover (12). ) Is fastened together with the support bracket (16) of the stand (15) and is fastened to the flange portion (4b) protruding forward from the front end portion of the chain case (4). The fastening direction to the mounting seat (4c) is different from the fastening direction to the flange portion (4b).
[0005]
DETAILED DESCRIPTION OF THE INVENTION
The problems and means to be solved by the present invention are as described above. Next, an embodiment of the present invention shown in the accompanying drawings will be described.
[0006]
FIG. 1 is a plan view showing a rotary tiller of the present invention, and FIG. 2 is a side view showing a support portion of a front cover.
[0007]
FIG. 3 is a plan view showing a connection portion between the bracket supporting the front cover and the chain case, and FIG. 4 is a front view of the same.
[0008]
FIG. 5 is a side view showing an attachment portion of the lower arm and the rear cover hinge to the rotary cover.
[0009]
FIG. 6 is also a rear view, and FIG. 7 is an enlarged side view showing an attachment portion of the lower arm to the rotary cover.
[0010]
FIG. 8 is an enlarged side view showing a mounting portion of the rear cover hinge to the rotary cover, and FIG. 9 is a rear view showing the bearing portion of the tilling shaft on the chain case side.
[0011]
FIG. 10 is a rear view showing a bearing portion on the side plate side of the tilling shaft, and FIG. 11 is a rear view showing a protective cover of a bolt for fastening the dust cover and the side cover.
[0012]
The overall configuration of the rotary tiller of the present invention will be described. As shown in FIGS. 1 and 2, a PTO input portion is formed in the left and right center portion inside the rotary input gear case 5 of the rotary tiller, and is connected to the PTO shaft of the tractor via a universal joint. An input shaft 43 projects forward from the rotary input gear case 5. The rotary input gear case 5 has a pair of lower link brackets 5b and 5b fixed to the left and right, and main beams 5a and 5a extending from the lower link brackets 5b and 5b to the left and right outwards. A chain case 4 is provided at the outer end of one of the left and right main booms 5a so as to extend downward, and a side plate 4a is provided at the other outer end. A tilling shaft 3 is provided horizontally between the chain case 4 and the side plate 4a to form a tilling claw driving portion.
[0013]
A transmission shaft 44 for transmitting power to the chain transmission device in the chain case 4 is provided in the main beam 5a on the side where the chain case 4 is attached, and the power of the PTO shaft of the tractor is supplied to the input shaft 43. The tillage shaft 3 is rotationally driven through the transmission shaft 44 and the chain transmission device. In addition, a pair of left and right lower link hitch pins 5c and 5c for connecting the rotary tiller to the left and right lower links of the tractor project from the front end portions of the lower link brackets 5b and 5b.
[0014]
Further, an upper arm 7 is erected on the upper left and right center of the rotary input gear case 5, and a top link attaching portion 7 c for connecting to the top link of the tractor is formed on the front upper portion of the upper arm 7. Yes. The top link hitch of the work implement mounting apparatus of the tractor is locked to the top link attaching portion 7c, and the lower link hitch of the work implement mounting apparatus is locked to the lower link brackets 5c and 5c.
[0015]
Further, the rotary cover 1 is disposed so as to cover the tilling nail protruding from the nail shaft connected to the tilling shaft 3, and a rotary is provided on the bearing portion of the tilling shaft 3 on the side case 4 a on the opposite side plate 4 a to the chain case 4. The cover 1 is pivotally supported so as to be pivotable back and forth with respect to the drive unit of the tilling claw. A rear cover hinge 11 is fixed to the rear end of the rotary cover 1, the front end of the rear cover 2 is pivotally supported by the rear cover hinge 11, and a lower end portion of the rotary cover 1 is connected to a boss portion 2 a formed at the upper end portion of the rear cover 2. The connecting pin 1a formed in the above is inserted in a freely rotatable manner to connect both. Further, a front cover 12 is provided in front of the rotary cover 1, and the front cover 12 is attached to the chain case 4 and the side plate 4a via brackets 51 and 51.
[0016]
A pair of left and right hanger stays 31, 31 are fixed to the rear cover 2, and a pair of left and right lower arms 18, 18 are fixed to the rotary cover 1. A hanger rod 20 is interposed between the lower arm 18 and the hanger stay 31. The hanger rod 20 is slidably passed through a holder shaft 19 provided laterally at the tip of the lower arm 18, and the hanger. A lower end portion of the hanger rod 20 is rotatably supported by the stay 31. When the rear cover 2 rotates, the upper part of the hanger rod 20 slides up and down in the holder shaft 19.
[0017]
The hanger rod 20 slides in the holder shaft 19 when the rear cover 2 rotates, but a spring is wound around the hanger rod 20 so that when the rear cover 2 rotates rearward and upward, the spring The rear cover 2 can be urged downward, and the farm can be pressurized by the rear cover 2.
[0018]
Further, a retainer bracket 7a is provided in the left-right direction at a portion near the base end of the upper arm 7, and one side of the left and right is projected outward, and the rotary cover operation screw 9 is rotatably supported by the retainer bracket 7a. ing.
[0019]
The rotary cover operation screw 9 is a screw rod (rotating screw), and is configured to expand and contract by rotating operation handle 9c attached to the tip. The base end of the rotary cover operation screw 9 is pivotally connected to a bracket 10 provided on the rotary cover 1 so that the rotary cover 1 rotates back and forth according to the amount of expansion and contraction of the rotary cover operation screw 9. And at the time of plowing depth setting, the rotary cover 1 is rotated back and forth by the expansion / contraction operation of the rotary cover operation screw 9 so that the rear end of the rear cover 2 arranged at the rear part thereof is adjusted to the height in contact with the field scene.
[0020]
Next, a structure for attaching the front cover 12 to the chain case 4 and the side plate 4a will be described. As shown in FIGS. 2 to 4, a stand 15 of the rotary tiller is attached to the chain case 4 via a stand bracket 16 that supports the stand 15, and the stand 15 rotates relative to the stand bracket 16. It is configured to be able to rotate up and down around the moving fulcrum 15a. A front cover 12 provided between the chain case 4 and the side plate 4a is attached to the chain case 4 and the side plate 4a via brackets 51 and 51.
[0021]
The upper end portion of the bracket 51 is bent substantially perpendicularly to the support portion 51c to form a cover attachment portion 51a, and the front cover 12 is fastened to the cover attachment portion 51a with a plurality of bolts 52. At the front end of the chain case 4, a thick plate-like member is fixed and a mounting seat 4 c is formed, and a flange portion 4 b formed by extending the front end forward is protruding. The lower end portion of the bracket 51 is bent substantially perpendicularly to the support portion 51c to form a case attachment portion 51b. The case attachment portion 51b is fastened to the attachment seat 4c of the chain case 4 by a plurality of bolts 52. Yes. The stand bracket 16 is also fastened to the mounting seat 4c with bolts 52, and the stand bracket 16 and the case mounting portion 51b of the bracket 51 are fastened together with the mounting seat 4c.
[0022]
Further, the end of the bracket 51 on the side of the chain case on the support portion 51 b is fastened to the flange portion 4 b of the chain case 4 by a bolt 52. That is, the bracket 51 is fastened to the mounting seat 4 c and the flange portion 4 b of the chain case 4 by a plurality of bolts 52. And since the case attaching part 51b of the bracket 51 which is an attaching part to the chain case 4 and the end part on the chain case side of the support part 51b are bent substantially vertically, the case attaching part 51b by the bolt 52 is provided. The fastening direction and the fastening direction of the support portion 51b are different from each other. The bracket 51 provided on the side plate 4a side is similarly fastened to the side plate 4a.
[0023]
Thus, the bracket 51 that supports the front cover 12 is fastened together with the stand bracket 16 to the mounting seat 4c of the chain case 4 that is formed thick, and fastened to the flange portion 4b of the chain case 4, By differentiating the fastening direction of the bracket 4 to the mounting seat 4c and the fastening direction to the flange portion 4b, the connection portion between the chain case 4 and the bracket 51 can be strengthened, and the entire chain case 4 is formed into a thin plate shape. It is possible to prevent the chain case 4 from being damaged such as a crack while being formed of a member to be lightweight.
[0024]
As shown in FIGS. 5 and 6, an inner cover 1 b is attached to the lower surface of the rotary cover 1, and a fixed portion is provided between the rotary cover 1 and the inner cover 1 b at the rear portion of the rotary cover 1. A space is provided. A pair of left and right lower arms 18 are attached to the upper surface of the rotary cover 1 by bolts 52.
[0025]
As shown in FIG. 7, reinforcing metal fittings 32, 33, and 34 are provided between the rotary cover 1 and the inner cover 1b where the lower arm 18 is attached. The reinforcing bracket 32 and the reinforcing bracket 34, and the reinforcing bracket 33 and the reinforcing bracket 34 are connected to each other by welding or the like, and the reinforcing brackets 32, 33, and 34 are integrally formed. These are fixed to the inner cover 1b by welding or the like. The upper ends of the reinforcing brackets 32, 33, and 34 are formed in a flat shape and are in contact with the lower surface of the rotary cover 1. A nut 53 is fixed to the lower surface of the upper ends of the reinforcing brackets 32, 33, and 34. .
[0026]
The nut 53 is provided in accordance with the fastening position of the bolt 52 for attaching the lower arm 18. By fastening the bolt 52 to the nut 53, the lower arm 18, the rotary cover 1, and the reinforcing brackets 32, 33, and 34 are shared. It is tightened.
[0027]
The reinforcing metal fitting 34 is formed by bending the left and right end portions of the plate-like member downward and bending the tip portion of the downward bent portion further outward. The portion bent outwardly is formed on the inner cover 1b. The central flat plate portion is fastened with bolts 52. As described above, the reinforcing metal fitting 34 is formed by bending a flat plate member to increase the rigidity. Similarly, in the side view, the reinforcing metal fitting 32 also bends both ends of the flat plate member downward, and further bends the tip of the bent portion further outward to increase the rigidity. Further, the reinforcing metal member 33 has a rigidity in the front end portion of the flat plate member arranged in the vertical direction as viewed from the side, and is bent rearward at the rear end portion. Then, the reinforcing metal fittings 32, 33 and 34 formed with such high rigidity are integrally connected to each other, so that the rigidity of the reinforcing metal fittings 32, 33 and 34 as a whole is further increased.
[0028]
Further, as shown in FIG. 8, the rear cover hinge 11 that pivotally supports the rear cover 2 is fastened to the rotary cover 1 by being fastened by a plurality of bolts 52 at the substantially right and left central portions of the rotary cover 1. ing. Reinforcing metal fittings 33 and 34 that are integrally formed between the rotary cover 1 and the inner cover 1b of the portion to which the rear cover hinge 11 is attached are integrally formed and fixed to the inner cover 1b, similarly to the attachment portion of the lower arm 18. Is provided. The bolt 52 is fastened to a nut 53 fixed to the reinforcing metal fittings 33 and 34, whereby the rear cover hinge 11, the rotary cover 1, and the reinforcing metal fittings 33 and 34 are fastened together. In this example, the reinforcing metal fitting is formed by integrally forming the reinforcing metal fitting 33 and the reinforcing metal fitting 34. However, the reinforcing metal fittings 32, 33, integrally formed at the attachment portion of the lower arm 18 are used. The same as 34 may be used. In this case, the bolt 52 is not fastened to the nut 53 fixed to the reinforcing metal fitting 32.
[0029]
In this way, the lower arm 18 is fastened by the plurality of bolts 52 and attached to the rotary cover 1 via the reinforcing members 32, 33, and 34 to which the nut 53 is fixed, so that the bolts 52 are firmly fastened. It is possible to prevent loosening of the bolt 52 due to vibration of the rotary cover 1 or an impact. Further, since the reinforcing members 32, 33, and 34 are integrally formed, the rigidity of the rotary cover 1 at the lower arm 18 mounting portion can be improved, and deformation and breakage of the rotary cover 1 can be prevented. it can.
[0030]
Further, the bolt 52 can be firmly fastened by fastening the rear cover hinge 11 to the rotary cover 1 by fastening with the plurality of bolts 52 via the reinforcing members 33 and 34 to which the nut 53 is fixed. It is possible to prevent the bolt 52 from being loosened due to vibration or impact of the rotary cover 1. Furthermore, since the reinforcing members 33 and 34 are integrally formed, the rigidity of the rotary cover 1 at the mounting portion of the rear cover hinge 11 can be improved, and deformation and breakage of the rotary cover 1 can be prevented. At the same time, the rear cover 2 can be firmly supported.
[0031]
In addition, as shown in FIG. 6, the reinforcing metal fittings 34 provided on the mounting portion of the pair of left and right lower arms 18 and the mounting portion of the rear cover hinge 11 are arranged at substantially equal intervals in the left-right direction within the left-right range of the rotary cover 1. Has been. In this way, by arranging the reinforcing member 34, the rigidity of the rotary cover 1 can be improved uniformly and overall, and deformation and damage when an impact or force is applied to the rotary cover 1 can be prevented. Can do.
[0032]
Further, as shown in FIG. 8, the rear cover support portion 11a of the rear cover hinge 11 is formed in a cylindrical shape, and a support pipe 55 fixed to the rear cover 2 is inserted into the rear cover support portion 11a. The rear cover 2 is supported. Thus, by supporting the rear cover 2 by the rear cover support portion 11a formed in a cylindrical shape, even when a large force is applied to the rear cover 2, the rear cover support portion 11a is not deformed, and the rear cover 2 is securely Can be held.
[0033]
Next, the structure of the bearing portion of the tillage shaft 3 supported by the lower ends of the chain case 4 and the side plate 4a will be described. As shown in FIG. 9, a drive shaft holder 21 is fixed inside the lower end portion of the chain case 4, and the tilling shaft 3 is rotatably supported by the drive shaft holder 21 via a bearing 56. . A dust cover 22 for preventing foreign matter such as grass from getting entangled with the bearing portion of the tillage shaft 3 is rotatably fitted to the inner end portion of the drive shaft holder 21 via a spacer 25.
[0034]
The spacer 25 is made of, for example, a synthetic resin, and is interposed between the drive shaft holder 21 made of a metal member and the dust cover 22, so that the dust cover 22 can be smoothly connected to the drive shaft holder 21. It can be rotated. Further, the outer peripheral portion of the spacer 25 is formed in a shape in which a substantially central portion on the left and right sides is protruded from both left and right end portions, and the inner peripheral portion of the dust cover 22 fitted on the spacer 25 is According to the shape, it is formed by recessing the left and right substantially central part. Thus, the dust cover 22 is externally fitted to the spacer 25 by fitting the convex part formed at the substantially right and left central part of the outer periphery of the spacer 25 and the concave part formed at the inner peripheral part of the dust cover 22. By doing so, the spacer 25 is prevented from being detached due to the dust cover 22 repeatedly rotating.
[0035]
A flange portion 3 a extending in the outer peripheral direction is formed at the inner end portion of the tillage shaft 3, and the flange portion 3 a and a flange portion 6 b formed at the outer end portion of the claw shaft 6 are connected to each other. Yes. Thereby, the tilling shaft 3 and the claw shaft 6 can rotate integrally. A plurality of tilling claws 6 a are radially attached to the claw shaft 6.
[0036]
The dust cover 22 is formed by extending the outer peripheral portion of the disk-shaped member inward, and the tip of the extended portion 22a extending inward reaches the outer periphery of the flange portion 3a of the tillage shaft 3, The outer periphery of the part 22a and the flange part 3a is in sliding contact. That is, the bearing 56 that is the bearing of the tillage shaft 3 and its peripheral portion are sealed from the outside by the dust cover 22 that is fitted on the drive shaft holder 21 and extends to the flange portion 3a. Thus, by sealing the bearing portion of the tillage shaft 3 from the outside with the dust cover 22, it is possible to completely prevent foreign matter such as grass and straw from entering the bearing portion, and to drive the rotation of the tillage shaft. It is possible to prevent the influence.
[0037]
Further, a lower end portion of a side cover 1c extending downward from the left and right end portions of the rotary cover 1 is fastened to the upper end portion of the dust cover 22 by bolts 52, and the rotary cover 1 is moved forward and backward by the dust cover 22. It is rotatably supported. In the fastening portion between the dust cover 22 and the side cover 1 c, a protective cover 23 that covers the outer periphery of the head 52 a of the bolt 52 and protects the head is fastened together by the bolt 52.
[0038]
The protective cover 23 is formed of, for example, a thin metal member. As shown in FIG. 11, the protective cover 23 is crushed toward the head 52a side of the bolt 52 to prevent the head 52a from rotating. be able to. That is, the protective cover 23 that protects the head 52 a of the bolt 52 can be used as a loosening prevention member for the bolt 52. In this way, by using the protective cover 23 of the bolt 52 as a loosening prevention member for the bolt 52, it is possible to easily prevent the bolt 52 from loosening without providing a special member.
[0039]
Further, as shown in FIG. 10, the bearing portion of the passive shaft 3 ′ on the side plate 4 a side is similarly configured. That is, the tilling shaft holder 21 is fixed inside the lower end portion of the side plate 4 a, and the tilling shaft 3 is rotatably supported by the tilling shaft holder 21 via the bearing 56. The dust cover 22 is rotatably fitted to the inner end portion of the tillage shaft holder 21 via a spacer 25. Further, the flange portion 3a of the tillage shaft 3 and the flange portion 6b of the claw shaft 6 are connected so that the tillage shaft 3 and the claw shaft 6 can rotate integrally.
[0040]
And the front-end | tip of the extension part 22a of the dust cover 22 is slidably contacted with the outer periphery of the flange part 3a of the tilling shaft 3, and the bearing 56 which is a bearing of the tilling shaft 3 and its peripheral part are sealed with respect to the outside by the dust cover 22. Has been. Further, a lower end portion of a side cover 1c extending downward from the left and right end portions of the rotary cover 1 is fastened to the upper end portion of the dust cover 22 by bolts 52, and the rotary cover 1 is moved forward and backward by the dust cover 22. It is rotatably supported.
[0041]
Thus, by sealing the bearing portion of the tillage shaft 3 from the outside with the dust cover 22, it is possible to completely prevent foreign matter such as grass and straw from entering the bearing portion, and to drive the rotation of the tillage shaft. I try to prevent the influence. Even on the side plate 4 a side, the protective cover 23 that protects the head portion 52 a of the bolt 52 can be crushed toward the head portion 52 a side of the bolt 52 and used as a locking member for the bolt 52.
[0042]
Further , a lower arm attached to the rotary cover for supporting the upper end portion of the hanger rod is fastened to the rotary cover via a reinforcing member by a plurality of bolt members, and a reinforcing member interposed between the fastening portions of the bolt members is provided. Since the bolt member is integrally formed, the bolt member can be firmly fastened, and it is possible to prevent the bolt member from being loosened due to vibration of the rotary cover or an impact. Furthermore, since each reinforcing member is integrally formed, the rigidity of the rotary cover at the lower arm attachment portion can be improved, and deformation and breakage of the rotary cover can be prevented.
[0043]
Further , since the rear cover hinge that rotatably supports the rear cover is attached to the rotary cover via the reinforcing member, the bolt member that fastens the rear cover hinge to the rotary cover can be securely fastened. It is possible to prevent the bolt member from being loosened due to vibration or impact. Furthermore, since each reinforcing member is integrally formed, the rigidity of the rotary cover at the rear cover hinge mounting portion can be improved, deformation and breakage of the rotary cover can be prevented, and the rear cover can be firmly secured. Can be supported.
[0044]
Further , since a plurality of the reinforcing members are attached to the rotary cover and the reinforcing members are arranged at substantially equal intervals in the left-right direction, the rigidity of the rotary cover can be improved uniformly and the impact on the rotary cover can be improved. It is possible to prevent deformation and damage when a force is applied.
[0045]
Further , since the rear cover support portion of the rear cover hinge is formed in a cylindrical shape, the rear cover support portion of the rear cover hinge is not deformed even when a large force is applied to the rear cover, and the rear cover can be securely held. .
[0046]
In addition , a dust cover that covers the bearing portion is provided on the bearing portion of the tillage shaft, the outer periphery of the dust cover is extended inward, and the bearing portion is sealed from the outside. Can be completely prevented from entering the bearing portion, and can be prevented from affecting the drive rotation of the tillage shaft.
[0047]
Further , the lower end portion of the side cover extending downward from both ends of the rotary cover is bolted to the dust cover, and a protective cover that covers the head of the bolt is formed by a thin plate-like member. Since it was also used as a bolt loosening prevention member, it is possible to easily prevent the bolt member from loosening without providing a special member.
[0048]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
A mounting seat (4c) formed on the front end surface of the chain case (4) is an attachment portion to the chain case (4) in a bracket (51) attached to the chain case (4) and supporting the front cover (12). ) Is fastened together with the support bracket (16) of the stand (15) and is fastened to the flange portion (4b) protruding forward from the front end portion of the chain case (4). Since the fastening direction to the mounting seat (4c) and the fastening direction to the flange part (4b) are different, the connection part between the chain case and the bracket can be strengthened, and the entire chain case has a thin plate shape. It is possible to prevent the chain case from being damaged such as a crack while being formed of a member to be lightweight.
[Brief description of the drawings]
FIG. 1 is a plan view showing a rotary tiller of the present invention.
FIG. 2 is a side view showing a support portion of the front cover.
FIG. 3 is a plan view showing a connecting portion between a bracket supporting a front cover and a chain case.
FIG. 4 is a front view of the same.
FIG. 5 is a side view showing a mounting portion of the lower arm and the rear cover hinge to the rotary cover.
FIG. 6 is also a rear view.
FIG. 7 is an enlarged side view showing a mounting portion of the lower arm to the rotary cover.
FIG. 8 is an enlarged side view showing a mounting portion of the rear cover hinge to the rotary cover.
FIG. 9 is a rear view showing the bearing portion of the tilling shaft on the chain case side.
FIG. 10 is a rear view showing the bearing portion on the side plate side of the tilling shaft.
FIG. 11 is a rear view showing a bolt protective cover for fastening the dust cover and the side cover.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Rotary cover 2 Rear cover 3 Tilling shaft 4 Chain case 4a Side plate 4b Flange part 4c Mounting seat 6 Claw shaft 11 Rear cover hinge 12 Front cover 16 Stand bracket 18 Lower arm 22 Dust cover 22a Extension part 23 Protective cover 32/33/34 Reinforcement member 51 Bracket 52 Bolt 53 Nut

Claims (1)

A mounting seat (4c ) formed on the front end surface of the chain case (4) is an attachment portion to the chain case (4) in a bracket (51) attached to the chain case (4) and supporting the front cover (12). ) Is fastened together with the support bracket (16 ) of the stand (15) and is fastened to the flange portion (4b) protruding forward from the front end portion of the chain case (4 ) . The rotary tiller characterized by making the fastening direction to a mounting seat (4c) different from the fastening direction to this flange part (4b) .

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