JP6833624B2 - combine - Google Patents

Description

The present invention includes a feed chain that sandwiches and transports the harvested culms, a threshing device that threshes the harvested culms transported by the feed chain with a handling barrel, and a threshing device that is connected to the rear side of the threshing device and threshed from the feed chain. The present invention relates to a combine equipped with a threshing transport device that receives the processed straw and pinches and transports it to the rear.

As the combine as described above, for example, the combine described in Patent Document 1 is already known. The combine described in Patent Document 1 includes a feed chain that sandwiches and transports the harvested grain (“feed chain [9]” in the document) and a handling cylinder that handles the harvested grain that is transported by the feed chain (“handled cylinder” in the document). A threshing device (“threshing section [7]” in the literature) for threshing by [13] ”) and a rear side of the threshing device are connected, and the straw after the threshing is received from the feed chain and sandwiched backward. It is provided with a straw-removing transport device (“straw-removing transport device [11]” in the literature) for transporting. Further, the combine described in Patent Document 1 includes a straw-exhausting frame that supports a straw-exhausting transport device and can swing up and down around a swinging axis (“supporting shaft [24]” in the document) extending in the front-rear direction of the machine body. ("Cover body [23]" in the literature) and a locking mechanism ("locking mechanism [25]" in the literature) for holding the position of the straw-exhausting frame while the straw-exhausting frame is located in the lowered position are provided. ing.

Japanese Unexamined Patent Publication No. 2010-11748

In the combine described in Patent Document 1, since the lock mechanism is provided at a position close to the swing axis, the free end side portion of the straw exhaust frame is likely to rattle while the straw exhaust frame is held in the lowered position. ..

In view of the above situation, there is a demand for a combine that can stably hold the position of the straw frame in the lowered position.

The feature of the present invention is
A feed chain that holds and transports the harvested culm,
A threshing device that threshes the harvested culms transported by the feed chain with a handling barrel.
A combine harvester provided with a straw-removing device that is connected to the rear side of the threshing device and that receives the straw after the threshing process from the feed chain and transfers the straw to the rear.
A straw frame that supports the straw transport device and can swing up and down around the swing axis extending in the front-rear direction of the machine.
Of the threshing devices, a side frame provided on the outer side of the machine in the left-right direction of the machine and
A plurality of locking mechanisms that hold the free end side portion of the straw exhaust frame on the side frame while the straw exhaust frame is located at the lowered position.
A belt transmission mechanism that transmits power to the input shaft of the straw transport device is provided .
The belt transmission mechanism has a drive pulley arranged on the swing shaft center , a driven pulley provided on the input shaft, and a transmission belt wound around the drive pulley and the driven pulley. It is in.

The side frame is a highly rigid member that constitutes the side portion of the threshing device. According to this feature configuration, in a state where the straw-exhausting frame is located in the descending position, a plurality of locations on the free end side portion of the straw-exhausting frame can be firmly held in the highly rigid side frame. Further, while the position of the straw waste frame is held, the free end side portion of the straw waste frame is less likely to rattle. That is, according to this feature configuration, it is possible to realize a combine that can stably hold the position of the straw-exhausting frame while it is located in the descending position.
Further, in the present invention
The belt transmission mechanism has a tension pulley that applies tension to the transmission belt.
It is preferable that the tension pulley is supported by the straw exhaust frame.

Further, in the present invention
It is preferable that the locking mechanism is provided at the front portion and the rear portion of the free end side portion of the straw exhaust frame, respectively.

According to this feature configuration, the position of the free-end side portion of the straw-removing frame can be held in a state where it is unlikely to rattle back and forth.

Further, in the present invention
The straw frame is a frame-shaped member, and is
It is preferable that the lock mechanism is located in the frame of the straw frame with the idle end side portion of the straw frame held in the position of the side frame.

According to this feature configuration, the lock mechanism does not protrude outside the frame of the straw frame, and the lock mechanism is less likely to get in the way on the outside of the machine in the left-right direction of the machine.

Further, in the present invention
The locking mechanism is provided on one of the straw frame and the side frame, and the other of the straw frame and the side frame, and the straw frame is positioned at the lowered position. It is preferable to have a receiving member that receives the shaft member in a state of being received, and a hook that engages with the shaft member while the shaft member is received by the receiving member.

According to this feature configuration, by engaging the hook with the shaft member in the state of being received by the receiving member, the shaft member is less likely to rattle and the engaged state of the lock mechanism is stabilized.

Further, in the present invention
It is preferable that the lock mechanism has a lever that manually switches the hook between an engaging position that engages with the shaft member and a non-engaging position that does not engage with the shaft member.

According to this feature configuration, the lock mechanism can be easily switched between the engaged state and the disengaged state simply by the operator manually operating the lever.

Further, in the present invention
It is preferable that the locking mechanism does not protrude below the lower end of the side frame.

According to this feature configuration, the locking mechanism does not protrude below the side frame and get in the way.

It is a left side view which shows a head-feeding combine. It is a top view which shows the head-feeding combine. It is a left side view which shows the threshing apparatus. It is a rear view which shows the threshing apparatus in the state which lowered the handling cylinder frame. It is a rear view which shows the threshing apparatus in the state which raised the handling body frame. It is a top view which shows the rear part of the threshing apparatus and the straw transport apparatus. It is a left side view which shows the rear part of the threshing apparatus and the straw excretion transfer apparatus in the state which the handling body frame and the straw excretion frame are lowered. It is a rear view which shows the threshing apparatus in the state which the handling body frame and the straw waste frame are lowered. It is a rear view which shows the threshing apparatus in the state which the handling body frame is raised in the state which the straw dumping frame is located in the lowered position. It is a rear view which shows the straw exhaust transporting apparatus in the state which the straw exhaust frame is located in the descending position. It is a rear view which shows the straw exhaust transporting apparatus in the state which raised the straw exhaust frame. It is an exploded perspective view which shows the structure of the base end side of a straw frame. It is a left side view which shows the structure of the base end side of a straw frame. It is an exploded perspective view which shows the handling body frame, the straw exhaust frame and the rear frame. It is a back sectional view which shows the 1st outer lock mechanism and the 2nd outer lock mechanism in the engaged state. It is a back sectional view which shows the 1st outer lock mechanism and the 2nd outer lock mechanism in the disengaged state. It is a back sectional view which shows the 3rd outer lock mechanism in the disengaged state. It is a right side view which shows the 3rd outer lock mechanism in the disengaged state. It is a left side view which shows the rear part of the threshing device and the straw-removing transport device in the state which the straw-removing frame is located in the lowered position, and the handling body frame is raised. It is a left side view which shows the rear part of the threshing apparatus and the straw excretion transport device in the state which raised the straw frame with the handling body frame raised. It is a perspective view which shows the switching plate. It is sectional drawing which shows the lid member. In another embodiment, it is a rear view which shows the structure which supports the straw expulsion frame so that it can swing up and down. It is a perspective view which shows the switching plate which concerns on another embodiment. It is a top view which shows the lid member which concerns on another embodiment. It is sectional drawing which shows the lid member which concerns on another embodiment.

[Overall composition of combine harvester]
1 and 2 show a head-feeding combine. This combine includes an airframe frame 1 and a traveling device 2 that supports the airframe frame 1. A driving cabin 3 is provided on the right side of the front part of the aircraft. The driving cabin 3 includes a driving unit 4 on which the driver is boarding and a cabin 5 covering the driving unit 4. An engine (not shown) is provided below the driving unit 4.

In front of the driving cabin 3, a harvesting section 6 for harvesting crops in the field is provided. A grain storage tank 7 for storing grains is provided behind the operation cabin 3. A grain discharge device 8 for discharging grains in the grain storage tank 7 is provided. A feed chain 9 for sandwiching and transporting the cut grain culm is provided on the left side of the machine body. A threshing device 10 is provided on the left side of the grain storage tank 7. The threshing device 10 uses the handling cylinder 11 to thresh the harvested culms transported by the feed chain 9. A straw transporting device 12 is continuously provided on the rear side of the threshing device 10. The straw discharge transporting device 12 receives the straw discharged after the threshing process from the feed chain 9 and sandwiches and transports it backward.

[Harvest Department]
The harvesting unit 6 is configured to have a plurality of cutting specifications (for example, six-row cutting specifications). The harvesting unit 6 includes a plurality of (for example, seven) weeding tools 13, a plurality of (for example, six) raising devices 14, a cutting device 15, and a conveying device 16. The weeding tool 13 weeds the crops in the field. The raising device 14 causes a planted crop. The cutting device 15 cuts the caused crop. The transport device 16 transports the cut crops backward toward the threshing device 10.

[Threshing equipment, etc.]
As shown in FIG. 3, a handling chamber 17 is formed above the threshing device 10. The handling chamber 17 is provided with a handling cylinder 11. The handling cylinder 11 is rotatable around a rotation axis Y1 extending in the front-rear direction of the machine body. A receiving net 18 is provided below the handling cylinder 11. A dust exhaust fan 19 for discharging dust to the outside is provided behind the handling chamber 17.

At the bottom of the threshing device 10, a rocking sorting device 20 that sifts and sorts objects to be sorted while transferring them to the rear of the machine, a wall insert 21 that blows sorting air to the rocking sorting device 20, and the grain of the first grain (single grain). The first collection unit 22 for collecting (threshed grains, etc.), the second collection unit 23 for collecting the second grain (grains with branch sieving, etc.), and the like are provided.

The first collection unit 22 is provided with the first screw 24 for transporting the grain of the first product to the right. At the right end of the first screw 24, a grain raising device 25 for lifting and transporting the grain of the first grain to the grain storage tank 7 is interlocked and connected.

The second collection unit 23 is provided with a second screw 26 for transporting the second grain to the right. At the right end of the second screw 26, a second reduction device 27 that reduces the grain of the second screw to the rocking sorting device 20 is interlocked and connected.

A straw cutting device 28 for cutting the straw transported by the straw transport device 12 is provided below the portion on the transport end side of the straw transport device 12. The straw cutting device 28 has a working position located below the transport end side portion of the straw transport device 12 and a transport end of the straw transport device 12 around a swing axis Z1 extending in the vertical direction on the right end side. It can swing over a non-working position located away from below the side portion (see FIG. 2). The straw cutting device 28 includes a cutter 29 for cutting the straw, a cover 30 for covering the cutter 29, and a switching plate 31. A slot 30a into which straw is thrown is formed in a portion of the cover 30 located above the cutter 29. A horizontal frame 32 extending in the left-right direction of the machine body is provided over the left side wall and the right side wall of the cover 30.

The switching plate 31 can be switched between a cutting position in which the input port 30a is opened and a non-cutting position in which the input port 30a is closed. The switching plate 31 can swing open and close around a swing axis extending in the left-right direction of the machine body over a cutting position on the ascending side and a non-cutting position on the descending side. The switching plate 31 is swingably supported by the cover 30 via the support shaft 33. With the switching plate 31 open (in the state of the cutting position), the straw transported by the straw transporting device 12 is thrown into the feeding port 30a and cut by the cutter 29. With the switching plate 31 closed (non-cutting position), the straw transported by the straw transporting device 12 slides on the upper surface of the switching plate 31 and falls to the ground.

As shown in FIGS. 3 to 7, wall portions 34 are provided at the front end portion and the rear end portion of the handling chamber 17, respectively. The front wall portion 34 constitutes the front wall portion of the handling chamber 17. The rear wall portion 34 constitutes the rear wall portion of the handling chamber 17. The wall portion 34 includes a movable wall 35 and a fixed wall 36. The handling cylinder 11 is rotatably supported on the movable wall 35 via the handling cylinder shaft 11a. A connecting arm 37 for connecting the movable wall 35 and the fixed wall 36 is provided. The movable wall 35 is supported by the fixed wall 36 so as to be able to swing up and down around the swing axis Y2 extending in the front-rear direction of the machine body via the connecting arm 37. A transmission shaft 38 through which the power of the engine is transmitted is provided over the fixed wall 36 on the front side and the fixed wall 36 on the rear side.

The right side of the threshing device 10 is composed of a right wall 39. The right side wall 39 extends to the rear end of the fuselage. The right side wall 39 includes an inclined portion 39a. The inclined portion 39a is inclined so as to be located on the right side toward the rear side on the rear side of the wall portion 34 on the rear side.

Front-rear facing frames 40L and 40R extending in the front-rear direction of the machine body are provided on both the left and right sides of the threshing device 10, respectively. The front-rear facing frame 40L on the left side (corresponding to the "side frame" according to the present invention) extends to the rear side from the rear end of the handling cylinder 11. The front-rear frame 40L on the left side is composed of a square pipe having a substantially square cross section. The front-rear frame 40R on the right side extends to the rear side from the rear end of the handling cylinder 11. The front-rear frame 40R on the right side supports the front fixed wall 36, the rear fixed wall 36, and the right side wall 39. The front-rear frame 40R on the right side is composed of a square pipe having a substantially rectangular cross section (horizontally elongated substantially rectangular shape).

[Rear frame]
A rear frame 41 (corresponding to the "side frame" according to the present invention) is provided on the rear upper portion of the threshing device 10 on the outer side (left side) of the machine in the left-right direction of the machine. The rear frame 41 is formed in a substantially U shape that projects rearward from the rear of the threshing device 10 in a side view. The rear frame 41 is composed of a round pipe.

[Handling body cover]
A handling cylinder cover 42 that covers the handling cylinder 11 from above is provided. The handling cylinder cover 42 extends to the upper side of the rear portion of the straw discharging transport device 12 on the rear side of the rear end of the handling cylinder 11. An upper right cover 43 is provided on the right side of the handle cover 42. The right upper cover 43 extends to the upper side of the rear portion of the straw discharging device 12 on the rear side of the rear end of the handling cylinder 11. The upper right cover 43 is supported by the front-rear frame 40R on the right side so as to be able to swing up and down around the swing axis extending in the front-rear direction of the machine body.

[Handling frame]
The handling cylinder cover 42 is supported by the handling cylinder frame 44. The handling body frame 44 can swing up and down about a transmission shaft 38 extending in the front-rear direction of the machine body. The handling body frame 44 is supported by the front wall portion 34 and the rear wall portion 34 so as to be able to swing up and down around the swing axis Y2 via the transmission shaft 38. The handling body frame 44 includes a pair of front and rear movable walls 35 and a left front and rear facing frame 40L. The front-rear facing frame 40L on the left side is located on the outside of the fuselage frame 44 in the left-right direction of the fuselage.

A hydraulic cylinder 45 for swinging the handle frame 44 upward is provided. The hydraulic cylinder 45 is provided over a movable wall 35 on the rear side and a fixed wall 36 on the rear side. The hydraulic cylinder 45 is composed of, for example, a double-acting hydraulic cylinder. However, the hydraulic cylinder 45 may be composed of a single-acting hydraulic cylinder.

[Handling body lock mechanism]
The handling cylinder 11 together with the handling cylinder frame 44 can be swung upward by the hydraulic cylinder 45. A handling cylinder lock mechanism 46 for holding the handling cylinder 11 at a threshing processing position where the threshing processing is performed is provided. The handling cylinder lock mechanism 46 includes a pair of front and rear hook plates 47 and a pair of front and rear handling cylinder hook pins 48. A hook plate 47 is swingably supported around a swing axis Y3 extending in the front-rear direction of the machine body by each of the front wall portion 34 and the rear wall portion 34. At the tip of the hook plate 47, a hook portion 47a that can be engaged with the handling cylinder hook pin 48 is provided. By engaging the hook portion 47a with the handling cylinder hook pin 48, the handling cylinder 11 is held at the threshing processing position. By disengaging the hook portion 47a with the handling cylinder hook pin 48, the handling cylinder 11 and the handling cylinder frame 44 swing upward by the hydraulic cylinder 45. A motor M for swinging and driving a pair of front and rear hook plates 47 is supported on the rear surface of the rear wall portion 34. A pair of front and rear hook plates 47 are swung to the engaging side and the disengaging side by the motor M.

[Straw transport device]
As shown in FIGS. 6 and 7, the straw-removing transport device 12 is provided so as to be inclined so as to be located on one side (right side) in the left-right direction of the machine toward the transport end side of the straw-removing transport device 12 in a plan view. ing. The straw discharge transporting device 12 includes a stock root transporting device 49 that sandwiches and transports the stock root side of the straw, and a tip transporting device 50 that locks and transports the tip side of the straw. The stock origin transfer device 49 includes a straw discharge chain 51 with a protrusion 51a and a straw discharge rail 52. The straw exhaust rail 52 is arranged below the straw exhaust chain 51 so as to face the lower path of the straw exhaust chain 51. A pair of guide plates 53 for guiding the straw discharge chain 51 are provided at the transfer end portion of the stock source transfer device 49. The tip transfer device 50 includes a straw tip chain 54 with a tine 54a.

The straw discharge transport device 12 is supported by the straw discharge frame 55. The straw discharge transport device 12 is removable from the straw discharge frame 55. The straw discharge transport device 12 is suspended and supported by the straw discharge frame 55 via the front stay 56 and the rear stay 57. The straw discharge transport device 12 is detachably bolted to the front stay 56. The straw discharge transport device 12 is detachably bolted to the rear stay 57.

The straw transport space S of the straw transport device 12 is formed behind the rear wall portion 34. The straw discharge transport space S is formed so as to straddle the straw discharge frame 55 in the front-rear direction of the machine body. In a plan view, the straw-exhaust transport space S extends so as to be located on the right side toward the downstream side in the transport direction at the front-rear halfway portion (the portion corresponding to the front end of the inclined portion 39a) of the straw-exhaust transport space S.

[Belt transmission mechanism]
As shown in FIGS. 6, 8 and 9, the power of the transmission shaft 38 is transmitted to the input shaft of the straw transport device 12 over the transmission shaft 38 and the input shaft (not shown) of the straw transport device 12. A belt transmission mechanism 58 for transmission is provided. The belt transmission mechanism 58 includes a drive pulley 59, a driven pulley 60, a transmission belt 61, a tension arm 62, a swing side tension pulley 63, and a fixed side tension pulley 64 (corresponding to the “tension pulley” according to the present invention. ) And. The drive pulley 59 is provided on a portion of the transmission shaft 38 that projects rearward from the rear fixed wall 36. The driven pulley 60 is provided on the input shaft of the straw discharging device 12. The transmission belt 61 is wound around the drive pulley 59 and the driven pulley 60.

The tension arm 62 is swingably supported by the transmission shaft 38. A swing-side tension pulley 63 is rotatably supported at the tip of the tension arm 62. The swing-side tension pulley 63 is in contact with the upper path portion of the transmission belt 61 from above in order to apply tension to the transmission belt 61. The swing-side tension pulley 63 acts on a portion of the transmission belt 61 that extends over the fixed-side tension pulley 64 and the drive pulley 59. The tension arm 62 is provided with a mounting portion 66 to which the tension spring 65 is mounted.

The fixed-side tension pulley 64 is in contact with the upper path portion of the transmission belt 61 from below in order to apply tension to the transmission belt 61. The fixed-side tension pulley 64 acts on a portion of the transmission belt 61 closer to the drive pulley 59 side between the drive pulley 59 and the driven pulley 60. The fixed side tension pulley 64 is supported by the straw exhaust frame 55 via the support plate 67. The support plate 67 is provided so as to hang down from the front edge portion (front frame 72) of the straw exhaust frame 55. A support shaft 68 that supports the fixed-side tension pulley 64 projects forward from the support plate 67.

The tension spring 65 urges the tension arm 62 to swing around the swing axis Y2 in the tension applying direction. The end of the tension spring 65 on the opposite side of the attachment portion 66 is attached to the rod 69. The rod 69 is supported by the stay 70 so as to be adjustable in position. The stay 70 is fixed to the support plate 67. By adjusting the position of the rod 69 with respect to the stay 70, the urging force of the tension spring 65 changes.

[Straw frame]
As shown in FIGS. 6 to 11, the straw exhaust frame 55 supports the front portion and the rear portion of the straw exhaust transport device 12 via the front stay 56 and the rear stay 57. The straw exhaust frame 55 is formed in a frame shape. The straw exhaust frame 55 includes a base end frame 71, a front frame 72, a rear frame 73, and a free end frame 74. One round pipe is bent to form a front frame 72, a rear frame 73, and a free end frame 74. The front portion of the straw discharge transport device 12 is supported by the free end frame 74 via the front stay 56. The rear portion of the straw discharging transport device 12 is supported by a portion of the rear frame 73 on the base end side via the rear stay 57. A connecting frame 75 for connecting these is provided over a substantially central portion in the longitudinal direction of the front frame 72 and a substantially central portion in the longitudinal direction of the rear frame 73. The connecting frame 75 is composed of members having a substantially L-shaped cross section.

The straw exhaust frame 55 swings up and down around the swing axis Y2 between a lowering position where the straw exhausting device 12 conveys the straw and an ascending position where the straw discharging device 12 does not convey the straw. It is movable. The straw exhaust frame 55 can swing up and down around a support shaft 76 extending in the front-rear direction of the machine body. A gas damper 77 that swings the straw frame 55 upward is provided. The gas damper 77 is provided over the straw exhaust frame 55 (front frame 72) and the lower stay 78. An upper stay 79 to which the gas damper 77 is connected is fixed to the front frame 72.

As shown in FIGS. 12 to 14, the base end frame 71 is provided on the base end side of the straw exhaust frame 55 and extends in the front-rear direction of the machine body. The base end frame 71 is a connecting frame portion extending over the front side frame portion 80 constituting the front side, the rear side frame portion 81 constituting the rear side, the front side frame portion 80 and the rear side frame portion 81. 82 and. A front portion (front frame portion 80) of the base end frame 71 is supported by a support shaft 76 via a stay 83.

A stepped portion 71a that falls downward is formed at a portion of the base end frame 71 that corresponds to the connecting frame portion 82. The connecting frame portion 82 includes a grooved plate 84 that opens downward and a connecting plate 85. The groove plate 84 is provided over the lower surface of the front side frame portion 80 and the lower surface of the rear side frame portion 81. Inside the grooved plate 84, a connecting plate 85 for connecting the left side wall and the right side wall of the grooved plate 84 is provided.

The front frame 72 is connected to the front end portion of the base end frame 71 and extends from the support shaft 76 side toward the outside of the machine body in the left-right direction of the machine body. The rear frame 73 is connected to the rear end portion of the base end frame 71 and extends from the support shaft 76 side toward the outside of the machine body in the left-right direction of the machine body.

The free end frame 74 is provided on the free end side of the straw exhaust frame 55 and extends in the front-rear direction of the machine body. The free end frame 74 is connected to the outer end of the front frame 72 in the left-right direction of the machine and the outer end of the rear frame 73 in the left-right direction of the machine. The free-end frame 74 is located to the right of the left front-rear facing frame 40L in a state where the straw-removing frame 55 is located in the lowered position, and extends along the left front-rear facing frame 40L.

The support shaft 76 is a shaft different from the transmission shaft 38, and is supported by the front-rear frame 40R on the right side that supports the transmission shaft 38. The transmission shaft 38 and the support shaft 76 are arranged on the same axis (swing axis Y2). That is, the swing axis Y2 of the straw exhaust frame 55 and the swing axis Y2 of the handling body frame 44 are the same swing axis. The support shaft 76 is arranged on the front side of the front-rear halfway portion (the portion corresponding to the front end of the inclined portion 39a) of the straw exhausting space S. The front-rear frame 40R on the right side extends to the rear side of the support shaft 76. The support shaft 76 is supported by the bracket 87 via the lower stay 78 and the stay 86. The bracket 87 is vertically provided on the lower surface of the front-rear frame 40R on the right side. The lower stay 78 is bolted to the bracket 87. The stay 86 is bolted to the bracket 87.

At the rear of the straw exhaust frame 55, a handle 88 for raising and lowering the straw exhaust frame 55 is provided. The handle 88 extends from the base end side of the straw frame 55 toward the outside of the machine in the left-right direction of the machine.

[Stopper]
A stopper 89 for holding the position of the straw exhaust frame 55 in an raised state is provided. The stopper 89 is swingably and slidably supported by the stay 90. A retaining tool 91 is provided at the base end of the stopper 89 so that the stopper 89 does not fall out of the stay 90. The stay 90 is fixed to the rear portion of the free end frame 74. A holding portion 92 for holding the stopper 89 at the storage position is provided at the front portion of the free end frame 74. The rear frame 41 is formed with a hole 41a into which the tip of the stopper 89 is inserted.

[Inner lock mechanism]
As shown in FIGS. 10 to 14, the base end side portion (base end frame 71) of the straw discharge frame 55 is held in the right front-rear facing frame 40R in a state where the straw discharge frame 55 is located in the descending position. An inner lock mechanism 93 is provided. The inner lock mechanism 93 includes an inner hook 94 and an inner hook pin 95.

The inner hook 94 engages with the inner hook pin 95 as the straw exhaust frame 55 swings toward the descending position side (see FIG. 10). Then, the engagement of the inner hook 94 with the inner hook pin 95 is released following the swing of the straw exhaust frame 55 toward the ascending position side (see FIG. 11).

[First outer lock mechanism]
As shown in FIGS. 14 to 16, a first outer lock mechanism 96 is provided to hold the left front-rear facing frame 40L in the rear frame 41 in a state where the handling body frame 44 is located in the lowered position. The first outer lock mechanism 96 includes a first outer hook 97 and a first outer hook pin 98. The first outer hook 97 includes a base portion 97a and a hook portion 97b. The hook portion 97b is removably fixed to the base portion 97a by a bolt 99.

The first outer hook pin 98 is arranged on the left side of the rear frame 41 at a position slightly distant from the rear frame 41. The first outer hook pin 98 is supported by the rear frame 41 via the first stay 100 and the second stay 101.

[Second outer lock mechanism]
The second outer lock mechanism 102 (corresponding to the "lock mechanism" according to the present invention) that holds the free end side portion of the straw frame 55 in the front-rear frame 40L on the left side in a state where the straw frame 55 is located in the lowered position. ) Is provided. In other words, the second outer locking mechanism 102 holds the left front / rear facing frame 40L at the free end side portion of the straw exhaust frame 55 in a state where the handling body frame 44 is located at the lowered position. The second outer lock mechanism 102 is provided at the front portion of the free end side portion of the straw exhaust frame 55. The second outer lock mechanism 102 includes a second outer hook 103 and a second outer hook pin 104. The second outer hook 103 includes a base portion 103a and a hook portion 103b. The hook portion 103b is detachably fixed to the base portion 103a by a bolt 105.

A flat plate-shaped attachment portion 106 is provided on the lower surface of the corner portion between the free end frame 74 and the front frame 72 of the straw exhaust frame 55. A stay 107 is bolted to the mounting portion 106. The second outer hook pin 104 is supported by the stay 107 in a state of being located at the lower left of the free end frame 74.

A pair of front and rear receiving members 108 for receiving the second outer hook pin 104 are provided on the lower surface of the left front and rear facing frame 40L. The second outer hook 103 is in a state where the front end portion of the second outer hook pin 104 is received by the front receiving member 108 and the rear end portion of the second outer hook pin 104 is received by the rear receiving member 108. (Ii) Engage with the front and rear center portions of the outer hook pin 104.

[Link mechanism]
As shown in FIGS. 6 to 9, the handling cylinder lock mechanism 46 (rear hook plate 47), the first outer lock mechanism 96 (first outer hook 97), and the second outer lock mechanism 102 (second outer hook). A link mechanism 109 for interlocking and connecting with 103) is provided. The link mechanism 109 includes a first link arm 110, a second link arm 111, and a link rod 112. The first link arm 110 is connected to the base end portion of the hook plate 47 on the rear side so as to be relatively swingable. The first link arm 110 and the second link arm 111 are connected so as to be relatively swingable.

The link rod 112 is supported by the left front-rear frame 40L via the front stay 113 and the rear stay 114. The link rod 112 is rotatably supported by the front stay 113 and the rear stay 114. A second link arm 111 is connected to the front end of the link rod 112 so as not to swing relative to each other. A second outer hook 103 is connected to the front portion of the link rod 112 so as not to swing relative to each other. A first outer hook 97 is connected to the rear end of the link rod 112 so as not to swing relative to each other.

[Third outer lock mechanism]
As shown in FIGS. 14, 17 and 18, the third outer lock mechanism 115 (which holds the free end side portion of the straw exhaust frame 55 in the rear frame 41 in a state where the straw exhaust frame 55 is located in the lowered position ( A "locking mechanism" according to the present invention) is provided. The third outer lock mechanism 115 is provided at the rear portion of the free end side portion of the straw exhaust frame 55. The third outer lock mechanism 115 includes a third outer hook 116 (corresponding to the "hook" according to the present invention), a third outer hook pin 117 (corresponding to the "shaft member" according to the present invention), and a stay 118 (corresponding to the "shaft member" according to the present invention). (Corresponding to the "receiving member" according to the above), a lever 119, and a spring 120.

The third outer hook 116 engages with the third outer hook pin 117 in a state where the third outer hook pin 117 is received by the receiving portion 118a of the stay 118. The third outer hook 116 is supported by the rear frame 41 via the stay 118 in a state of being located on the right side of the rear frame 41. The third outer hook 116 is swingably supported by the stay 118 via the support shaft 121. A lever 119 is connected to the third outer hook 116. The lever 119 manually switches the third outer hook 116 to an engaging position that engages with the third outer hook pin 117 and a non-engaging position that does not engage the third outer hook pin 117.

The third outer lock mechanism 115 is located in the frame of the straw exhaust frame 55 in a state where the free end side portion of the straw exhaust frame 55 is held in the position of the rear frame 41. The third outer lock mechanism 115 does not protrude below the lower end of the rear frame 41. Specifically, the third outer hook 116 and the lever 119 are below the lower end of the rear frame 41 while the third outer lock mechanism 115 holds the idle end side portion of the straw frame 55 in the rear frame 41. It doesn't stick out.

The third outer hook pin 117 is provided on the straw frame 55. The third outer hook pin 117 is supported by the free end frame 74 via the stay 122 in a state of being located in the frame of the straw exhaust frame 55. The third outer hook pin 117 is detachably fixed to the stay 122 by a bolt 123.

The stay 118 is fixed to the rear frame 41 in a state of being located to the right of the rear frame 41. The stay 118 is formed with a receiving portion 118a that receives the third outer hook pin 117 with the straw exhaust frame 55 in the lowered position.

The spring 120 is provided over the stay 118 and the third outer hook 116. The spring 120 swings and biases the third outer hook 116 toward the engaging side.

[Raising and lowering of the handling body frame and straw frame]
As shown in FIGS. 8 and 9, when the operator performs an ascending operation by the elevating operation unit (not shown), the pair of front and rear hook plates 47 are swung to the disengagement side by the motor M. As a result, the hook plate 47 (hook portion 47a) is disengaged from the handle hook pin 48. Then, the swing of the rear hook plate 47 toward the disengagement side is transmitted to the first outer hook 97 and the second outer hook 103 via the link mechanism 109. As a result, the first outer hook 97 and the second outer hook 103 are swung to the disengagement side in conjunction with the swing of the rear hook plate 47 to the disengagement side. In this way, the first outer hook 97 and the second outer hook 103 are in the disengaged state.

Then, when the first outer lock mechanism 96 and the second outer lock mechanism 102 are in the disengaged state, the handling cylinder frame 44 is swung upward by the extension operation of the hydraulic cylinder 45, as shown in FIGS. 9 and 19. To. That is, the handling body frame 44 can be raised while the straw discharge frame 55 is located at the lowering position (the position where the straw discharge transport device 12 transports the straw).

Then, when the operator artificially operates the lever 119 to switch the third outer hook 116 from the engaged position to the non-engaged position while the handling body frame 44 is raised, as shown in FIGS. 11 and 20. The straw exhaust frame 55 is swung upward by the gas damper 77. That is, the straw exhaust frame 55 can be raised while the handling body frame 44 is raised.

Then, with the straw exhaust frame 55 raised, the stopper 89 is removed from the holding portion 92 and swung downward, and when the tip end portion of the stopper 89 is inserted into the hole 41a, the stopper 89 is inserted into the straw exhaust frame 55 and the rear frame. It will function as a tension rod with 41. As a result, the position of the straw exhaust frame 55 can be held in an raised state.

Next, when the operator performs a lowering operation by the elevating operation unit while the handling body frame 44 and the straw exhaust frame 55 are raised, the handling body frame 44 is swung downward by the contraction operation of the hydraulic cylinder 45. Cylinder. Then, when the handling body frame 44 descends to a position where it comes into contact with the straw discharging frame 55 from above, the straw discharging frame 55 is pushed by the handling body frame 44 from above as the handling body frame 44 descends, and the straw is discharged. The frame 55 descends together with the handling body frame 44. As a result, the straw exhaust frame 55 can be lowered integrally with the handling body frame 44.

On the other hand, in a state where the handling body frame 44 and the straw discharging frame 55 are raised, the operator pushes down the straw discharging frame 55 using the handle 88, so that the straw discharging frame 55 is lowered independently of the handling body frame 44. be able to. That is, with the handling body frame 44 and the straw exhausting frame 55 raised, the straw exhausting frame 55 is lowered integrally with the handling body frame 44, or the straw discharging frame 55 is lowered independently of the handling body frame 44. Can be selected.

Then, when the third outer hook pin 117 comes into contact with the inclined portion 116a of the third outer hook 116 from above with respect to the third outer hook 116 as the straw exhaust frame 55 descends, the third outer hook 116 springs. It is swung to the disengagement side against the urging force of 120. Then, in a state where the third outer hook pin 117 is received by the receiving portion 118a of the stay 118, the third outer hook 116 is swung to the engaging side by the urging force of the spring 120 and engages with the third outer hook pin 117. It fits. In this way, the third outer lock mechanism 115 is engaged.

Then, with the handling cylinder frame 44 and the straw exhaust frame 55 lowered, the pair of front and rear hook plates 47 are swung toward the engaging side by the motor M. As a result, the hook plate 47 (hook portion 47a) is engaged with the handling body hook pin 48. Then, the swing of the rear hook plate 47 toward the engaging side is transmitted to the first outer hook 97 and the second outer hook 103 via the link mechanism 109. As a result, the first outer hook 97 and the second outer hook 103 are swung toward the engaging side in conjunction with the swing of the rear hook plate 47 toward the engaging side. In this way, the first outer hook 97 and the second outer hook 103 are engaged.

Here, the ascending angle β of the straw exhaust frame 55 (see FIG. 11) is smaller than the ascending angle α of the handling body frame 44 (see FIG. 5). Specifically, the rising angle β of the straw-removing frame 55 is a horizontal frame when the straw-removing cutting device 28 is swung between the working position and the non-working position while the straw-removing frame 55 is raised. 32 is set so as not to interfere with the transport end side portion (guide plate 53) of the straw transport device 12. More specifically, in FIG. 20, the movement locus of the upper end of the horizontal frame 32 when the straw cutting device 28 is swung between the working position and the non-working position is indicated by T. The lower end 53a of the guide plate 53 is located above the movement locus T of the upper end of the horizontal frame 32. As a result, when the straw-removing cutting device 28 is swung between the working position and the non-working position while the straw-removing frame 55 is raised, the horizontal frame 32 interferes with the guide plate 53 and the straw is discharged. It is possible to avoid a situation in which the swing of the cutting device 28 is hindered.

[Switching board]
As shown in FIGS. 20 to 22, when the switching plate 31 is switched between the cutting position and the non-cutting position in a state where the straw exhaust frame 55 is raised, the switching plate 31 has a portion on the transport end side of the straw transport device 12. A notch 31a is formed so as not to interfere with (guide plate 53). The cutout portion 31a is formed on the right side portion of the switching plate 31. The cutout portion 31a is open on the side opposite to the support shaft 33.

A lid member 124 is provided to cover the notch 31a. The lid member 124 allows the guide plate 53 to enter the notch 31a. The peripheral edge of the lid member 124 is fixed to the peripheral edge of the notch 31a of the switching plate 31 by bolts 125. The lid member 124 is made of an elastically deformable member. In the present embodiment, the lid member 124 is made of, for example, a rubber-like elastic body (polyurethane elastomer). The lid member 124 is formed with a slit 124a into which the guide plate 53 enters. The slit 124a extends in a direction orthogonal to the support shaft 33 (the lateral direction of the switching plate 31). Both edges of the lid member 124 on the slit 124a side are bent so as to be lower toward the slit 124a side. As a result, when the switching plate 31 is closed (in the non-cutting position), the straw that slides on the upper surface of the switching plate 31 is less likely to be caught in the slit 124a.

Here, as shown in FIG. 20, the position of the guide plate 53 is lowered as the straw exhaust frame 55 is swung upward. In the present embodiment, when the switching plate 31 is switched between the cutting position and the non-cutting position while the straw exhaust frame 55 is raised, the guide plate 53 enters the cutout portion 31a through the slit 124a. At that time, when the guide plate 53 comes into contact with the lid member 124, the lid member 124 elastically deforms to allow the guide plate 53 to enter the cutout portion 31a. After that, when the guide plate 53 separates from the lid member 124, the lid member 124 returns to its original shape.

[Another Embodiment]
(1) The straw exhaust frame 55 may be configured to be able to rise to a position on the rising side of the position corresponding to the rising angle β. This will be described with reference to FIG.

As shown in FIG. 23, an arm 126 is provided over the straw exhaust frame 55 and the support shaft 76. The arm 126 is swingably supported by a support shaft 76. That is, the swing axis Y2 of the straw exhaust frame 55, the swing axis Y2 of the arm 126, and the swing axis Y2 of the handling body frame 44 are the same swing axis.

A straw frame 55 (front frame 72) is placed on the end (tip) of the arm 126 on the straw frame 55 side so as to be separated upward from the arm 126. The end (tip) of the gas damper 77 on the straw frame 55 side is connected to the tip of the arm 126. The gas damper 77 and the arm 126 are arranged above the lower end of the body portion 11b of the handling body 11 (specifically, above the handling body shaft 11a).

According to such a configuration, the operator uses the handle 88 to raise the straw exhaust frame 55 to the position corresponding to the ascending angle β (the position corresponding to the maximum extension length of the gas damper 77). When the 55 is lifted, the straw exhaust frame 55 is separated upward from the arm 126, and the straw exhaust frame 55 rises to a position on the ascending side of the position corresponding to the ascending angle β. In this case, the ascending angle when the straw exhaust frame 55 is ascended to a position on the ascending side from the position corresponding to the ascending angle β is equal to or less than the ascending limit angle (ascending angle α) of the handling body frame 44 (here, handling). It is set to the ascending limit angle (ascending angle α) of the body frame 44). When the straw exhaust frame 55 tries to rise beyond the ascending angle α of the handling cylinder frame 44, the straw exhausting frame 55 comes into contact with the handling cylinder frame 44 from below, and the elevation of the straw exhausting frame 55 causes the handling cylinder. It will be blocked by frame 44.

Further, in a configuration in which the straw exhaust frame 55 can be ascended to a position on the ascending side from the position corresponding to the ascending angle β, the straw exhaust frame 55 and the handling body frame 44 can be disconnected and connected (for example, the free end frame 74). A connecting mechanism (not shown) may be provided to connect the left front-rear frame 40L and the left front-rear frame 40L so as to be disconnectable. In a state where the free end frame 74 and the left front-rear facing frame 40L are connected by the connecting mechanism, the straw exhaust frame 55 and the handling body frame 44 can be integrally raised by the hydraulic cylinder 45.

(2) Instead of the lid member 124 according to the above embodiment, the lid member 224 shown in FIGS. 24 to 26 may be provided. The lid member 224 is swingably supported by the switching plate 31 via a pair of hinges 127. The hinge 127 is provided over the back surface of the lid member 224 and the back surface of the switching plate 31.

A leaf spring 128 is provided to hold the lid member 224 at a position that covers the notch 31a. The leaf spring 128 is provided over the back surface of the lid member 224 and the back surface of the switching plate 31. A stay 129 that slidably supports the leaf spring 128 is provided on the back side of the switching plate 31.

According to such a configuration, when the guide plate 53 comes into contact with the lid member 224 from the back side, the lid member 224 swings via the pair of hinges 127 to enter the guide plate 53 into the notch 31a. It will be tolerated. After that, when the guide plate 53 is separated from the lid member 224, the lid member 224 is returned to a position covering the notch portion 31a by the spring force of the leaf spring 128 and the position is held.

(3) In the above embodiment, the lowering position of the straw exhaust frame 55 is a position where the straw exhaust transport device 12 transports the straw. However, the lowering position of the straw discharge frame 55 may be a position higher (slightly higher position) than the position where the straw discharge transport device 12 transports the straw.

(4) In the above embodiment, with the handling body frame 44 and the straw exhausting frame 55 raised, the straw exhausting frame 55 is integrally lowered with the handling body frame 44, or the straw exhausting frame 55 is combined with the handling body frame 44. Can be selected to be lowered independently. However, it may only be possible to lower the straw frame 55 integrally with the handling body frame 44 while the handling body frame 44 and the straw discharging frame 55 are raised, or the straw discharging frame 55 may be used as the handling body. It may only be possible to lower it independently of the frame 44.

(5) In the above embodiment, the straw cutting device 28 can swing between a working position and a non-working position around a swing axis Z1 extending in the vertical direction on the right end side. However, the straw cutting device 28 may be swingable between a working position and a non-working position around a swing axis extending in the vertical direction on the left end side.

(6) In the above embodiment, the second outer lock mechanism 102 that holds the free end side portion of the straw exhaust frame 55 in the left front-rear facing frame 40L in a state where the straw exhaust frame 55 is located in the lowered position, and the exhaust A third outer lock mechanism 115 is provided to hold the free end side portion of the straw exhaust frame 55 in the rear frame 41 while the straw frame 55 is located in the lowered position. However, in addition to the second outer lock mechanism 102 and the third outer lock mechanism 115, in a state where the straw frame 55 is located in the descending position, the free end side portion of the straw frame 55 is set to the left front-rear frame 40L or the rear portion. One or more lock mechanisms for holding the position on the frame 41 may be provided.

(7) In the above embodiment, the second outer lock mechanism 102 is provided at the front portion of the free end side portion of the straw exhaust frame 55, and the third outer lock mechanism 115 is provided at the free end side portion of the straw exhaust frame 55. It is provided at the rear of the. However, the position where the second outer lock mechanism 102 and the third outer lock mechanism 115 are provided is not limited to the above-mentioned position. For example, the second outer lock mechanism 102 or the third outer lock mechanism 115 may be provided at the front-rear central portion of the free end side portion of the straw exhaust frame 55.

(8) In the above embodiment, the third outer lock mechanism 115 is located in the frame of the straw exhaust frame 55 in the engaged state. However, instead of or in conjunction with this, the second outer locking mechanism 102 may be located within the frame of the straw exhaust frame 55 in an engaged state.

(9) In the above embodiment, in the third outer lock mechanism 115, the third outer hook 116, the stay 118 and the lever 119 are provided on the rear frame 41, and the third outer hook pin 117 is provided on the straw frame 55. ing. However, in the third outer lock mechanism 115, the third outer hook 116, the stay 118 and the lever 119 may be provided on the straw frame 55, and the third outer hook pin 117 may be provided on the rear frame 41.

(10) In the above embodiment, in the second outer lock mechanism 102, the second outer hook 103 and the pair of front and rear receiving members 108 are provided on the left front and rear facing frame 40L, and the second outer hook pin 104 is the straw frame. It is provided in 55. However, in the second outer lock mechanism 102, the second outer hook 103 and the pair of front and rear receiving members 108 are provided on the straw exhaust frame 55, and the second outer hook pin 104 is provided on the left front and rear facing frame 40L. May be good.

(11) In the above embodiment, the third outer hook 116 is switched between the engaged position and the non-engaged position by the artificial operation of the lever 119. However, the third outer hook 116 may be switched between an engaged position and a non-engaged position by an actuator (eg, a motor).

(12) In the above embodiment, the second outer hook 103 is switched between the engaged position and the non-engaged position by the motor M. However, the second outer hook 103 may be switched between the engaged position and the non-engaged position by an artificial operation of a lever (not shown).

(13) In the above embodiment, the third outer lock mechanism 115 does not protrude below the lower end of the rear frame 41. However, instead of or in conjunction with this, the second outer locking mechanism 102 does not have to protrude below the lower end of the left front-rear facing frame 40L. Alternatively, the third outer locking mechanism 115 may protrude below the lower end of the rear frame 41.

(14) In the above embodiment, the fixed side tension pulley 64 and the swinging side tension pulley 63 are in contact with the upper path portion of the transmission belt 61. However, the fixed side tension pulley 64 and the swinging side tension pulley 63 may be in contact with the lower path portion of the transmission belt 61.

(15) In the above embodiment, the swing-side tension pulley 63 acts on the portion of the transmission belt 61 that extends over the fixed-side tension pulley 64 and the drive pulley 59. However, the swing side tension pulley 63 may act on the portion of the transmission belt 61 that extends over the fixed side tension pulley 64 and the driven pulley 60.

(16) In the above embodiment, the fixed side tension pulley 64 acts on the portion of the transmission belt 61 closer to the drive pulley 59 side between the drive pulley 59 and the driven pulley 60. However, the fixed-side tension pulley 64 may act on the portion of the transmission belt 61 that is closer to the driven pulley 60 side between the drive pulley 59 and the driven pulley 60. Alternatively, the fixed-side tension pulley 64 may act on the central portion of the transmission belt 61 between the drive pulley 59 and the driven pulley 60.

(17) In the above embodiment, the swing axis Y2 of the straw exhaust frame 55 and the swing axis Y2 of the handling body frame 44 are the same swing axis. However, the swing axis of the straw exhaust frame 55 and the swing axis of the handling body frame 44 may be different swing axes.

The present invention can be used for combine harvesters (for example, head-feeding combine harvesters).

9 Feed chain 10 Threshing device 11 Handling body 12 Straw transport device 40L Left front and rear facing frame (side frame)
41 Rear frame (side frame)
55 Straw frame
58 Belt transmission mechanism
59 drive pulley
60 driven pulley
61 transmission belt
64 Fixed side tension pulley (tension pulley)
102 Second outer lock mechanism (lock mechanism)
115 Third outer lock mechanism (lock mechanism)
116 Third outer hook (hook)
117 Third outer hook pin (shaft member)
118 stay (receiving member)
119 Lever Y2 Swing axis

Claims (7)

A feed chain that holds and transports the harvested culm,
A threshing device that threshes the harvested culms transported by the feed chain with a handling barrel.
A combine harvester provided with a straw-removing device that is connected to the rear side of the threshing device and that receives the straw after the threshing process from the feed chain and transfers the straw to the rear.
A straw frame that supports the straw transport device and can swing up and down around the swing axis extending in the front-rear direction of the machine.
Of the threshing devices, a side frame provided on the outer side of the machine in the left-right direction of the machine and
A plurality of locking mechanisms that hold the free end side portion of the straw exhaust frame on the side frame while the straw exhaust frame is located at the lowered position.
A belt transmission mechanism that transmits power to the input shaft of the straw transport device is provided .
The belt transmission mechanism is a combine having a drive pulley arranged on the swing shaft center, a driven pulley provided on the input shaft, and a transmission belt wound around the drive pulley and the driven pulley. .. The belt transmission mechanism has a tension pulley that applies tension to the transmission belt.
The combine according to claim 1, wherein the tension pulley is supported by the straw frame. The combine according to claim 1 or 2 , wherein the locking mechanism is provided at a front portion and a rear portion of the free-end side portion of the straw frame. The straw frame is a frame-shaped member, and is
The lock mechanism according to any one of claims 1 to 3, wherein the locking mechanism is located in the frame of the straw frame with the idle end side portion of the straw frame held in the side frame. Combine. The locking mechanism is provided on one of the straw frame and the side frame, and the other of the straw frame and the side frame, and the straw frame is positioned at the lowered position. Any one of claims 1 to 4 , which has a receiving member that receives the shaft member in a state of being received, and a hook that engages with the shaft member while the shaft member is received by the receiving member. The combine described in. The combine according to claim 5 , wherein the lock mechanism has a lever that switches the hook between an engaging position that engages with the shaft member and a non-engaging position that does not engage with the shaft member by an artificial operation. The combine according to any one of claims 1 to 6 , wherein the locking mechanism does not protrude below the lower end of the side frame.

Images