JP2006211954A - Grain straw-feeding structure of combine harvester - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a grain straw-feeding structure of a combine harvester in whose machine frame front portion a reaping section is laterally movably disposed, and which can effectively use a grain-feeding table and has excellent maintainability. <P>SOLUTION: This grain straw-feeding structure of the combine harvester is characterized by laterally movably supporting a head threshing grain straw feeding table 45 for covering the starting end portion of a feed chain 15 disposed in a thresher 6 from the upper side at the machine frame lateral outside position of the reaping section 3, disposing a feeding table position-holding means for holding the grain straw-holding table 45 at a constant position from the feed chain 15 in the lateral direction in spite of the lateral movement of the reaping section 3, and upward escapably supporting the grain straw-holding table 45 on a connection front end to the reaping section 3 as a supporting point. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  TECHNICAL FIELD The present invention relates to a self-decomposing combine grain supply structure in which a cutting part is arranged at the front part of a machine body so as to be laterally movable.

  The technology for connecting the cutting part to the front part of the machine body so that it can move laterally is effectively used for a small self-removing combine that has about two strips with a small cutting width of the cutting part with respect to the machine body width. When turning around, which is the normal mowing method, move the mowing part to one side (generally, the left side) of the machine, which is the non-mowing side, and reverse the mowing part at the time of middle splitting or cutting off the center of the field. Move it in the direction and position it within the aircraft width.

  In other words, at the time of turn mowing to move the mowing part to one side of the machine body, the mowing part protrudes to the non-mowing side rather than the traveling machine body, and the mowing width is uncut from the tread of the crawler traveling device on the non-mowing side. As a result, the mud discharged due to the crawler travel device on the uncut side stepping on the stock of the uncut grain culm or sinking to the field of the uncut side crawler travel device Therefore, the reaping device can prevent the swell from being raised near the plant stock, and the reaping device can perform reaping without biting mud in the next stroke. Here, the cutting width of the cutting part (the interval between the dividers on the left and right ends) is set in advance to a dimension width that allows one more cutting than the reference cutting number (two), and the cutting part is moved within the body width. In the middle splitting operation, three-row cutting can be performed without stepping over the uncut grain culm with the left and right crawler travel devices.

  By the way, there is a pillow threshing work for threshing cereals that have been hand-cut for headland formation as part of the work in the self-removing combine. In this pillow threshing operation, the airframe is stopped, the driving of the cutting unit is stopped, and the hand-cutted cereal meal is manually inserted and supplied to the start end of the feed chain equipped in the threshing device. In order to facilitate this manual insertion and supply, the cereal supply table equipped on the lateral side of the body of the cutting part is extended to the upper end of the feed chain, and the stock side of the hand chopped cereal is used as the cereal supply table. In this case, a configuration has been proposed in which an appropriate amount can be grasped and then fed to the starting end of the feed chain (for example, see Patent Document 1).

  The cereal supply table is not only used for temporary storage of cereals in pillow threshing work, but also guides the stock of the chopped cereals that are conveyed during normal reaping work from above, It has a guide function that leads to the start end, and in order to demonstrate the guide function during the harvesting and harvesting operation, the cereal supply table is maintained at a constant lateral position with respect to the feed chain regardless of the lateral movement of the harvesting part. It is necessary to keep.

Therefore, in the conventional means of the above-mentioned Patent Document 1, a cereal supply base is attached to a support arm supported so as to be able to move laterally through a horizontal shaft portion to a cutting portion, and the support arm is horizontally moved by a coil spring attached to the horizontal shaft portion. The slide arm is slid outward, and when the cutting part is moved laterally outward, the support arm is pulled back by the amount of lateral movement, and the cutting part is moved laterally outward. In conjunction with this, the cereal supply table is moved in the opposite direction by the same amount to maintain the cereal supply table at a predetermined position in the lateral direction with respect to the feed chain.
JP 2004-275031 A

  In recent years, it has been desired to improve the maintainability of the interior of the aircraft that is hidden by the cutting parts such as the engine output section and the transmission case around the combiner. A device that opens widely around the inside of the fuselage concealed by the cutting part, such as turning open laterally outward, has also been put into practical use.

  Thus, when trying to introduce a structure in which the mowing unit is detached or swivel-released into a model having a configuration in which the mowing unit is configured to be laterally movable, the cereal supply stand remains covered on the starting end of the feed chain. Then, it is predicted that it will obstruct the movement of the cutting part.

  The present invention has been made paying attention to such points, and in a combine that supports the mowing unit so as to be laterally movable, the grain supply stand can be effectively used, and is excellent in maintainability. The purpose is to make it.

The first aspect of the present invention is a combine grain supply structure in which a cutting part is arranged on the front part of the machine body so as to be laterally movable,
A threshing cradle support for pillow threshing that covers the starting end of the feed chain provided in the threshing device from above is supported on the laterally outer side portion of the body of the reaping portion so as to be movable laterally, and the lateral movement of the reaping portion is involved. Equipped with cradle position holding means that holds the cereal cradle in a fixed position in the lateral direction with respect to the feed chain, and this cereal cradle can be stored and swung upward with the front end connected to the cutting part as a fulcrum. It is characterized by being supported.

  According to the above configuration, in the harvesting and harvesting operation, even if the harvesting unit is moved laterally in response to the rotary mowing operation or the split operation, the cereal supply table is disposed at a fixed position in the lateral direction with respect to the feed chain. Demonstrate a guide mechanism for harvested cereals. In addition, in the threshing work for pillows, the cereal supply table is located at a fixed position in the lateral direction with respect to the feed chain, and can be used for temporary storage of hand-cut cereals to facilitate manual insertion and supply to the starting end of the feed chain. To.

  Also, when removing the mowing part for maintenance inside the fuselage or opening the turning, the cereal supply stand is swung upright with its front end as a fulcrum and switched to the retracted position, and the feed chain starts The cutting part can be moved greatly without catching the cereal supply table.

  Therefore, according to 1st invention, in the combine which supported the cutting part so that horizontal movement was possible, it became possible to make it possible to use a grain supply stand effectively, and to be excellent also in maintainability. .

According to a second invention, in the first invention,
The mowing part is supported so as to be able to turn open around the longitudinal fulcrum at the base end of the machine body laterally outward.

  According to the above configuration, when the harvesting part is swung open while the grain supply base is covered with the start end of the feed chain, the grain supply base moves sideways along with the turning of the harvesting part and is caught by the feed chain. However, by storing the grain supply stand upright, the cutting part can be swiveled without the occurrence of the catch, and the effect of the first invention is remarkably exhibited.

  FIG. 1 shows a self-removing combine. This combine is connected to a front part of a traveling machine body 2 provided with a pair of left and right crawler traveling devices 1 and a mowing unit 3 having a two-row cutting specification is connected to the traveling machine body 2 so as to be movable up and down and laterally movable. The apparatus 5 and the grain collection tank 6 are mounted.

  The mowing unit 3 includes a pair of left and right pulling devices 7 that raises the planted cereals to a predetermined cutting posture, a clipper-type mowing device 8 that cuts the raised planting culms, and the cutting cereals are scraped backwards. It comprises a pair of left and right auxiliary conveyor belts 9, a pair of left and right rotating packers 10 that stirs and joins the stock of the harvested cereal grains, a feeding and conveying device 11 that conveys the harvested grain grains upward and rearward, and the like. The entire cutting part 3 is supported so as to be swingable up and down around a lateral fulcrum P at the rear base end, and is also driven up and down by a hydraulic cylinder 12.

  The supply and transport device 11 includes a stock holding and transporting mechanism 13 and a tip locking and transporting mechanism 14, and the whole supply and transport device 11 is adjusted to swing up and down around the lateral fulcrum P, thereby cutting the harvested grain. A handling depth adjustment function is provided in which the holding position for the cocoon is changed up and down to change and adjust the cereal delivery position to the feed chain 15 provided on the lateral outside of the threshing device 4 in the cocoon length direction. The feed conveying device 11 is driven to swing up and down by a drive mechanism (not shown) based on the detection of the culm length of the harvested culm, and the automatic handling depth that maintains the culm length inserted into the threshing device 5 regardless of the culm length. Control is to be performed.

  The mowing unit 3 is provided with a mowing unit frame 17 made of a square pipe material that supports the pulling device 7, the mowing device 8, the auxiliary transport belt 9, the rotary packer 10, and the like in a forward downward inclined posture. A rear end base portion of the part frame 17 is connected and supported on an upper portion of a base 18 provided at a front end portion of the traveling machine body 2 so as to be able to swing up and down around the lateral fulcrum P. The hydraulic cylinder 12 is of a single-acting type, and the cutting portion 3 is driven up by its extension operation, and the cutting portion 3 is lowered by its free shortening operation.

  As shown in FIGS. 5 and 6, the base of the mowing frame 17 is provided with a laterally proximal boss 17a configured in a cylindrical shape concentric with the lateral fulcrum P. A counter shaft 19 penetrating to the left and right is rotatably supported via a pair of left and right bearing brackets 21 and 22 provided on the upper portion of the base 18. In the following description, the designation in the left-right direction is a designation for the aircraft. In the front views of FIGS. 5 and 6, the designation and the left-right direction in the drawings are reversed.

  An input pulley 23 is attached to the right end of the countershaft 19, and a PTO shaft (not shown) provided in the transmission case 24 and the countershaft 19 are belt-linked via a belt tension type cutting clutch. Yes. Further, a transmission case 25 made of a round pipe material is extended from the base end boss portion 17a toward the front upper side, and the transmission shaft 26 inserted through the transmission case 25 and the counter shaft 19 are interlocked with the bevel gear, and the counter shaft The pulling device 7, the mowing device 8, the auxiliary transport belt 9, and the rotary packer 10 are driven by the power transmitted from 19 to the transmission shaft 26.

  As shown in FIG. 4, the countershaft 19 that protrudes to the left outward from the left bearing bracket 21 is equipped with a bevel gear case 27 that is rotatable around the countershaft axis, that is, around the lateral fulcrum P. In addition, a transmission shaft 28 interlocked with the counter shaft 19 with the bevel gear extends obliquely upward from the bevel gear case 27, and the stock holding and transporting mechanism 13 of the supply / conveyance device 11 with the power extracted from the transmission shaft 28 and The tip locking conveyance mechanism 14 is driven.

  The PTO shaft (not shown) that transmits the power for driving the cutting unit to the counter shaft 19 is driven at a speed synchronized with the forward traveling speed, whereby each mechanism of the cutting unit 3 is synchronized with the traveling speed. Driven at speed.

  The mowing unit 3 configured as described above is supported so as to be capable of lateral movement and swivel opening, and the structure thereof will be described below in detail with reference to FIGS.

  A cast turning bracket 31 that can turn around a longitudinal axis X is disposed on the left side of the base 18, and the left bearing bracket 21 is connected and fixed to the upper surface of the turning bracket 31. A revolving arm 32 having a sheet metal structure is extended from the bracket 31 toward the right direction (toward the body). The right bearing bracket 22 is supported by an extension support portion 32a that protrudes further to the right from the swivel arm 32. The bearing bracket 22 is detachably attached to the upper surface of the right base 18a erected on the main frame 16 by bolts 33. It is connected to.

  The swivel arm 32 is equipped with a cutting portion lateral movement mechanism 34. The mowing unit lateral movement mechanism 34 includes a rectangular loop-shaped swing support frame 35 supported by the swing arm 32 so as to be swingable about a lateral fulcrum a, and a horizontal movement between the left and right arms of the swing support frame 35. There are provided a screw shaft 36 that is mounted on and supported, a movable piece 37 that is screwed onto the screw shaft 36, an electric motor 38 that drives the screw shaft mounted on the swing support frame 35, and the like. The connecting piece 35b provided on the lower end lateral flange portion 35a of the frame 35 and the piston rod 12a of the hydraulic cylinder 12 are connected by a connecting pin 39 that can be inserted and removed. As shown in FIG. 13, the connecting pin 39 is provided with a connecting plate 39a and a handle 39b. Usually, the connecting plate 39a is fastened and fixed to the connecting piece 35b by a bolt 40 to be connected to the piston rod 12a. The state is maintained, and the connection between the cutting portion lateral movement mechanism 34 and the hydraulic cylinder 12 is released by removing the bolt 40 and removing the connecting pin 39.

  The laterally proximal boss portion 17a of the cutting frame portion 17 is supported so as to be slidable to the left and right along the counter shaft 19 between the left and right bearing brackets 21 and 22, and is capable of swinging down its own weight around the lateral fulcrum P. The mowing part frame 17 is received and supported by the lower end horizontal part 35a of the swing support frame 35, and the swing support frame 35 is swung around the lateral fulcrum a by the hydraulic cylinder 12, thereby supporting the swing. The cutting part 3 received and supported by the frame 35 is swung up and down around the lateral fulcrum P. The mowing part frame 17 is engaged from above without applying a load to the movable piece 37 above the mowing part frame receiving position by the swing support frame 35, and the screw shaft 36 is rotationally driven by the electric motor 38. Thus, the movable piece 37 is moved to the left and right by a screw feed, whereby the entire cutting unit 3 is moved laterally with a constant stroke. In addition, a regulating rod 41 that crosses the upper surface proximity position of the cutting part frame 17 is fixed to the swinging support frame 35 so that the cutting part frame 17 is lifted from the lower end horizontal part 35a of the swinging support frame 35 and is movable. Disengagement from the piece 37 is prevented.

  The laterally movable mowing unit 3 is basically used by being moved to either one of the left and right stroke ends. As shown in FIG. The mowing unit 3 is moved to the left stroke end (see FIG. 6), and the left end of the mowing unit 3 protrudes to the left from the tread of the left crawler travel device 1. Further, at the time of half-splitting work that cuts and harvests by cutting through the center of the field, the cutting unit 3 is moved to the right stroke end (see FIG. 5) and positioned within the body width. In addition, the mowing unit 3 is moved to the right stroke end even during non-work such as traveling outside the field, moving on a truck bed, or storing in a garage.

  As shown in FIG. 4, the front end portion of the feeding / conveying device 11 provided in the mowing unit 3 can be slid up and down on a guide rod 42 that is formed in an arc shape with the lateral fulcrum P as the center and fixed upright. The supply and transport device 11 is configured to be able to swing up and down to adjust the handling depth, and when the cutting unit 3 is moved laterally, the supply and transport device 11 is moved to the proximal transmission shaft 28. Is pivoted relatively horizontally around the axis b. That is, when the mowing unit 3 is moved laterally, the front end of the supply / conveyance device 11 whose front end is engaged and supported by the guide rod 42 is always raised and moved so as to be in the rear position of the device 7. The rear end portion of the conveying device 11 is in the vicinity of the starting end of the feed chain 15, thereby raising the cereals from the raising device 7 to the starting end portion of the feeding and conveying device 11 regardless of the lateral movement position of the cutting unit 3, and The cereal delivery from the terminal end of the supply / conveyance device 11 to the starting end of the feed chain 15 is performed smoothly.

  As shown in FIGS. 14-17, the left outer side part of the cutting part 3 is equipped with the grain supply stand 45 used for pillow threshing work. The cereal supply table 45 is formed in a downward U-shape having a relatively large vertical cross-sectional shape and is raised on the back of the left pulling device 7 and also serves as a device support frame. It is mounted and supported by a pipe pulling drive case 46 provided through a support arm 47 so that it can swing up and down. This support arm 47 is formed by bending a round bar into a substantially L shape, and its horizontal shaft portion 47a is raised and can be laterally moved to a lateral boss portion 48a of a bracket 48 provided on the drive case 43 and can be laterally supported. It is inserted and supported so that it can swing up and down around c. Then, the cereal supply table 45 is put on the support arm 47 from above and is bolted at two locations in the front and rear, and a guide rod 49 along the starting end of the feed chain 15 is connected to the lower end of the support arm 47. Then, the cedar supply table 45 swings downward with its own weight integrally with the support arm 47, so that the guide ridge 49 is placed on the start end of the feed chain 15 and the cereal supply that has been conveyed by the supply / conveyance device 11. The stock company is guided by the lower surface of the guide rod 49 and is smoothly run and supplied to the starting end of the feed chain 15.

  The cereal supply table 45 and the guide ridge 49 need to be held at a fixed position in the lateral direction with respect to the starting end of the feed chain 15 in order to perform the cereal guidance, and the structure for this is as follows: It is configured.

  As shown in FIG. 15, the support arm 47 is urged to move laterally outward by a coil spring 50 that is externally fitted to the horizontal shaft portion 47a. Also, the release wire 52 having the inner front end 52a (f) connected to the supply base mounting bracket 51 provided at the bent portion of the support arm 47 and the outer front end 52b (f) connected to the bracket 48 is moved laterally by the cutting part. It extends to the mechanism 34. The outer rear end 52b (r) of the release wire 52 is connected and fixed to a wire bracket 53 attached to the cutting portion frame 17, and the inner rear end 52a (r) is provided to the swing support frame 35. When the mowing part frame 17 moves to the left (laterally outward of the machine body), the inner wire 52a is relatively pulled out, and thereby the inner front end 52a (f) is located beside the mowing part 3. When the retraction operation is performed by the same amount as the movement amount, and conversely, when the cutting unit frame 17 moves laterally outward, the inner wire 52a is loosened by the same amount as the horizontal movement amount of the cutting unit 3.

  Therefore, when the cutting unit 3 moving to the inside of the machine body is moved to the left (laterally outward of the machine body), the support arm 47 resists the coil spring 50 as the inner wire 52a is pulled out as shown in FIG. Then, when the cutting part 3 that is moved to the left side of the body and moved to the left side is moved to the right side (the inner side of the body side), the support arm 47 is loosened as much as the inner wire 52a is loosened. Due to the spring force of the coil spring 50, it is moved to the left (laterally outward of the machine body). As a result, the cereal supply table 45 and the support arm 47 are moved relative to the feed chain 15 regardless of the lateral movement of the cutting unit 3. It is held at a certain lateral position.

  Moreover, when stopping the driving | running | working and stopping the drive of the cutting part 3 and performing a pillow threshing operation | work, it places on the supply conveyance apparatus 11 which has stopped the hand-cutted grain pestle, and the stockholder side is cereal. Temporarily placed on the straw supply table 45, and the grain meal that is grasped by an appropriate amount from the temporarily placed grain meal is moved to the rear of the grain meal supply table 42 and supplied to the feed chain 15 exposed at the rear of the supply table. It is.

  In this combine, the following structure is provided in order to keep the cutting height constant by raising and lowering the cutting portion 3 according to the ground height in a normal cutting and harvesting operation.

  That is, as shown in FIG. 9, when the cutting part 3 is lowered by its own weight to the cutting work height region, the lower end reed part 35 a of the swing support frame 35 in the cutting part lateral movement mechanism 34 is The elastic balance mechanism 61 mounted on the lower part of the front end is elastically contacted and supported.

  The elastic balance mechanism 61 is configured by arranging a coil spring 62 that is initially compressed at the front end portion of the main frame 16 constituting the traveling machine body 2 in a predetermined forward projecting posture, and is fixed to the main frame 16. The coil spring 62 is sandwiched in a predetermined posture between the rear spring receiving cup 64a and the front spring receiving cup 64b supported by the support rod 63 attached to the center of the cup, and attached to the front end of the support rod 63. The initial compression amount of the coil spring 62 can be adjusted by tightening the nut 65. In addition, a receiving plate 67 is attached to the front surface of the front spring receiving cup 64b so as to cross obliquely, and this receiving plate 67 is configured to contact and support the lower end lateral flange portion 35a of the swing support frame 35. Yes.

  The initial compressive load of the elastic balance mechanism 61 configured in this way is adjusted in advance using the adjusting means so as to be a value somewhat smaller than the weight of the cutting portion 3, and the lower end side of the swing support frame 35 is adjusted. The part 35a is compressed and deformed by contact and support, and a part of the weight of the cutting part 3 is offset by the spring force of the elastic balance mechanism 61, and the hook-shaped grounding body 68 provided in the lower front part of the cutting part 3 is compared. It is designed to touch the field scene with a small ground pressure. In this way, the cutting unit 3 is lowered by its own weight and lightly grounded and supported for cutting, so that the cutting unit 3 can be operated even if the field is undulated or the front and back tilt posture of the traveling machine body 2 is changed. A constant cutting height is maintained by following the ground. A rubber mudguard cover 69 is wound around the coil spring 62 in the elastic balance mechanism 61 to prevent foreign substances such as mud from adhering to and entering the elastic balance mechanism 61.

  The grounding body 68 is made of a sheet metal material having a tapered planar shape and a cross-sectional shape formed in a boat shape. As shown in FIGS. 18 and 19, the grounding body 68 includes three dividers 71 arranged at the front end of the cutting unit 3. The support rod 72 is fixed by welding. Further, the rear portion of the grounding body 68 extends to a lower part of a pipe weeding frame 73 to which the support rod 72 is inserted and connected, and the grounding pressure acting on the grounding body 68 is also directly supported by the weeding frame 73. It has become so.

  Further, the cutting unit 3 configured as described above can swing and swing leftward and outward for inspection and maintenance. That is, when the bolt 33 that connects the free end of the right bearing bracket 22 and the turning arm 32 to the base 18a is removed, the turning arm 32 and the turning bracket 31 can be turned together around the longitudinal fulcrum X. The cutting unit 3 supported by the turning arm 32 can turn together with the cutting unit lateral movement mechanism 34.

  An operating rod 81 is inserted into and supported by the bearing bracket 21 so as to be slidable laterally, and a block member 82 for lowering locking is connected to the right side through end of the operating rod 81. Further, the left end portion of the operation rod 81 is extended and an operation knob 83 is attached, so that the operation rod 81 can be pushed and pulled from the laterally outer side of the machine body. Normally, the operation rod 81 is pulled out to the outside of the machine body, and the block member 82 is placed and held at a lock release position ur (see FIG. 5) that is closer to the left side than the upper end of the swivel bracket 31.

  In order to turn the mowing part 3 forward from the normal harvesting position toward the front, as shown in FIG. 3, in order to turn to the left lateral outer side of the aircraft, first, the mowing part 3 is raised to a predetermined height or more. Move to the left stroke end. Next, the operating rod 81 is pushed into the body to move the block member 82 from the unlocked position ur to the lowered lock position r (see FIG. 6) near the end of the turning bracket 31. Next, the cutting part 3 is lowered (down its own weight), and the block member 82 is sandwiched between the contact fitting 84 connected and fixed to the base of the cutting part frame 17 and the upper surface of the swivel bracket 31, and beyond that The mowing unit 3 is prevented from being lowered. Thus, in a state where the lowering is prevented through the block member 82, the cutting unit 3 is held at a height slightly raised from the ground.

  Next, the connection pin 29 that connected the cutting unit frame 7 and the piston rod 9a of the hydraulic cylinder 9 is pulled out to release the connection, and the free end portions of the right bearing bracket 22 and the swing arm 32 are mounted on the base. Remove the bolt 33 that was connected to 8. As a result, the cutting part 3 can be rocked and released about the longitudinal axis X while being slightly lifted from the ground.

  In the state where the cutting part 3 is not moved to the left stroke end, the fitting 84 is disengaged from the turning bracket 31 in the right lateral direction, and the lowering lock is performed via the lock member 82 as described above. In other words, the cutting and opening operation of the cutting unit 3 cannot be performed.

  Prior to the turning opening operation of the mowing unit 3, as shown by the phantom line in FIG. 14, the cereal supply table 45 is swung up and swung around the fulcrum c at the front end together with the support arm 47, so Switch to the upright retracted posture so as not to fall backward, and remove the weed ridge 75 provided on the left outer side which is the uncut side of the cutting unit 3 so as to swing up and down.

  As shown in FIGS. 18 and 21, a rearward fulcrum pin 76 is provided at the front end of the weed ridge 75, and is inserted and supported from the front by a support fitting 77 provided on the back portion of the left end divider 71. Further, a base end rotation arm 78 is provided at a lower left portion of the cutting part 3 so as to be rotatable around the longitudinal axis d passing through the fulcrum pin 76 and capable of friction holding, and is integrated with the front and rear middle of the weed ridge 75. The equipped intermediate support arm 75 a is detachably connected to the base end rotation arm 78 via a connection pin 79. Then, by removing the retaining pin 80 attached to the fulcrum pin 76 and the connecting pin 79, the whole weed ridge 75 can be removed forward.

  [Other Examples]

  (1) When a toggle spring is attached to the support arm 47 that supports the cereal supply table 45 and the support arm 47 is swung upward greatly, the stand is stowed when it is held in the upright retracted position beyond the dead point. The function of holding in the retracted posture is further enhanced, and it is possible to prevent the cereal supply table 45 in the stowed retracted posture from inadvertently falling backward during the cutting part turning opening operation.

  (2) The means for holding the cereal supply table 45 at a fixed position in the lateral direction with respect to the feed chain 15 is not limited to the above-described structure. For example, the support arm 47 that supports the cereal supply table 45 is moved laterally. The horizontal shaft portion 47a is mounted as a fulcrum so as to be swingable up and down and laterally movable, and a locking member that engages and disengages the cereal supply table 45 is disposed at a fixed portion on the threshing device 6 side. In the state engaged with the grain supply table 45, the lateral movement of the support arm 47 is prevented, and the grain supply table 45 and the support arm 47 are laterally constant with respect to the feed chain 15 regardless of the horizontal movement of the three parts of the cutting. In a state where the holding member is held at the position and the locking member is removed from the cereal supply table 45, the cereal supply table 45 and the support arm 47 can be swung around the fulcrum c at the front end to switch to the standing storage posture. Like It can also be configured.

  (3) As shown in FIG. 22, the support arm 47 that supports the cereal supply table 45 is supported by a support frame 60 that extends from the swivel arm 32 so as not to be laterally movable so as to be swingable around a lateral fulcrum c. Then, regardless of the lateral movement of the cutting unit 3, the cereal supply table 45 can be held at a fixed position in the lateral direction with respect to the feed chain 15.

Side view of self-removing combine Top view of self-removing combine Plan view showing mowing part opening operation Side view showing the base in the cutting part The front view which shows the base of the cutting part laterally moved to the turning impossible position The front view which shows the base of the cutting part laterally moved to the turning operation possible position Plan view showing the base of the mowing part Side view showing the lateral movement structure of the cutting part Side view showing elastic balance support structure of mowing part Front view of elastic balance mechanism Transverse plan view of elastic balance mechanism Side view showing the mowing part lateral movement mechanism Longitudinal front view of hydraulic cylinder connection Side view showing the cereal supply part of the threshing device The top view which shows the grain supply stand of the state where the cutting part was moved to the right side of the body The top view which shows the grain supply stand of the state where the cutting part was moved to the left of the machine Longitudinal front view of grain supply stand Side view showing the grounding part of the cutting part Plan view showing the grounding part of the cutting part Longitudinal front view of grounding body Partially cutaway plan view showing the weed ridge support structure The schematic front view which shows another Example of the structure which supports a grain supply stand

Explanation of symbols

3 Cutting part 6 Threshing device 15 Feed chain 45 Grain supply stand X Longitudinal fulcrum

Claims (2)

It is a combine grain supply structure in which a mowing part is arranged to be laterally movable at the front of the machine body,
A threshing pallet supply base for pillow threshing that covers the starting end of the feed chain provided in the threshing device from above is supported on the laterally outer portion of the body of the reaping part so as to be laterally movable, and the lateral movement of the reaping part Equipped with a supply stand position holding means for holding the cereal supply stand at a fixed position in the lateral direction with respect to the feed chain, and this cereal supply stand can be stored and swung upward with the front end connected to the cutting portion as a fulcrum. Combine grain supply structure characterized by being supported.   The combine grain supply structure according to claim 1, wherein the harvesting part is supported so as to be capable of turning open to the laterally outer side of the body around a longitudinal fulcrum at a base end thereof.

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