JP4424219B2 - Combine - Google Patents

Description

The present invention, Ru der relate to combine.

For example, in the harvesting operation of the combined napped grain mash, the threshed grain that has been harvested and threshed is supplied into a storage tank placed on the upper side of the traveling chassis and temporarily stored.
The reservoir grain was stored into the tank is discharged to the outside is transported by the grain transfer auger device provided rearward of the storage tank.

The reservoir tank, as shown in Patent Document 1, for example, provided with wearing the driver's seat to the upper surface of the reservoir tank and extending to the front of the driver's seat, and these storage tanks and luck Utateseki, machine It can be raised and lowered so that it falls on the outside. Further, when discharging the grains to the outside of the apparatus, the grain transfer auger apparatus positioned to the upper side of the grain storage tank is a rotating cylinder of the oil pressure while being rotated tilting movement control, for extension of the oil pressure The extension movement is controlled by the cylinder, and it is moved to a predetermined left-right position and a predetermined vertical position, and the grain is discharged to a predetermined position outside the machine.
Japanese Utility Model Publication No. 63-53231

Predetermined vertical position of the grain transfer discharge auger for discharging the grain from the machine, and is moved to a predetermined position in the lateral direction by a stretching cylinder and rotation cylinder hydraulic, adjusted movement control automatically the Rukoto, sometimes operates the grain transfer discharge auger to the storage position, it was necessary to defeat the grain storage tank and luck Utateseki to the outside of the outer, this invention attempts to solve these problems It is what.

For this, according to the inventions described in claim 1, a crawler type travel device (3) provided on the lower side of the running chassis (2), the running chassis (2) forward reap culms the reaper of ( 4) is provided, placed on thresher for threshing the cutting culms on the side and (5) and grain storage tank for savings distilling grain de Kokuzumi (6) of the traveling chassis (2),該穀grains provided cockpit operator to the front to boarding of the storage tank (6) (17b), grain transport to exit discharge the savings distillation cereal kernels to the rear side of the grain storage tank (6) in combine provided with the discharge cylinder device (8), and manually turning operation freely configured in the vertical direction toward the grain transfer discharge cylinder device (8) to the right of the lateral outer Combine airframe (1a) ,該穀particle transfer discharge tube unit (8) is in the folded position between the transfer starting end of the transport end of the lower transfer cylinder (9) and the upper transfer cylinder (10) Upper transfer cylinder (10) and manually folding operation freely configured and operated to move from the operating upper transfer cylinder (10) in the folded state to the accommodated position, the upper transfer cylinder with standing the lower transfer cylinder (9) (10) passes through the upper side is configured to be accommodated in the upper accommodating position of the threshing machine (5) of the grain storage tank (6), located near the folding of the transfer terminal end portion of the lower transfer cylinder (9) A bag holder (25a) that supports the grain bag is fixed to the lower side, and an operation case (24) is provided on the upper side of the lower end of the transfer cylinder (9) near the folding position, and the operation case (24 ) Pivotally support the discharge lever (24a) for grain discharge operation, fold the upper transfer cylinder (10) upward, attach the grain bag to the bag holder (25a), and enter the discharge lever (24a) Operate into the grain bag from the transfer end of the lower transfer tube (9) Is obtained by the Konbai down, characterized in that the arrangement for discharging the grain.

The inventions of claim 2, the discharge tube 12 having a HaiKoku port for discharging the grains (12a) provided on the transport end of the front SL upper portion transfer tube (10), said discharge tube (12) An auxiliary funnel (26a) is attached to the lower end of the auxiliary funnel (26) so that it can be opened and closed, and a telescopic and deformable shooter (26b) is provided at the lower end of the auxiliary funnel (26a). it is obtained by the Konbai down according to claim 1.

According to the invention of claim 1, when operating grain transporting discharge cylinder device (8) to retract and position location, moving from the manual operation state folded upper transfer cylinder (10) to the storage position side by manipulating, storing upper transfer cylinder with standing the lower transfer cylinder (9) and (10) above the safety to the retracted position by passing over how the grain storage tank (6) thresher (5) can do.

Further, a bag holder (25a) supporting the grain bag is fixed to the lower side of the lower transfer cylinder (9) in the vicinity of the folding end of the transfer terminal, and near the folding position of the lower end of the transfer cylinder (9). An operation case (24) is provided on the upper side, a discharge lever (24a) for grain discharge operation is pivotally supported on the operation case (24), the upper transfer cylinder (10) is folded upward, and the bag holder (25a ), Put the grain bag, and operate the discharge lever (24a) to discharge the grain from the transfer terminal end of the lower transfer cylinder (9) into the grain bag. The grain discharge position can be changed, and the work efficiency can be improved.

According to the invention described in claim 2, in addition to the effect of the invention described in claim 1, when the clogging of the grain occurs at the discharge position of the transfer terminal portion of the grain transfer / discharge cylinder device (8) , The auxiliary funnel (26a) and the shooter (26b) rotate integrally around the moving tool (26) as a rotation center to be in an open state, and the grain is discharged, whereby the grain transfer / discharge cylinder device (8). Can be prevented from being damaged .

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
At the front part of the traveling chassis 2 of the combine 1 is provided with a reaper 4 for slashing napped grain cocoons, and on the upper side, a threshing machine 5 for threshing the reaped cereal grains and threshed and selected grains are stored. The grain storage tank 6 is placed and provided. The grain transfer / discharge cylinder device 8 that discharges the stored grains to the outside of the machine is provided on the rear side of the grain storage tank 6 and is configured to be freely rotatable to the right side outside that is one side. The grain transfer / discharge cylinder device 8 has a configuration in which an upper transfer cylinder 10 that is foldable to the upper side of the lower transfer cylinder 9 is provided. When the upper transfer cylinder 10 of the grain transfer / discharge cylinder device 8 is rotated to the storage state position (storage position) , the upper transfer cylinder 10 is operated to the folded state and then to the predetermined final storage state position. The upper transfer cylinder 10 is configured to pass through the upper part of the grain storage tank 6 and rotate to the storage state position. The upper end of the upper transfer cylinder 10 is provided with a discharge cylinder 12 having a grain outlet 12a for discharging the grain out of the machine. The upper transfer cylinder 10 and the lower transfer cylinder 9 of the grain transfer / discharge cylinder device 8 will be mainly illustrated and described.

  A traveling device 3 having a pair of left and right traveling crawlers 3 a traveling on the soil surface as shown in FIG. 6 is disposed below the traveling chassis 2 of the combine 1. It is the structure which mounted the threshing machine 5. FIG. The nail flour is cut by the reaper 4 at the front part of the traveling chassis 2, and the reaped cereal is transferred to the rear upper part by the reaper 4 and is taken over by the feed chain 7 a of the threshing machine 5 and the clamping rod 7 b. And threshing while being held and transferred. The threshed and selected grains were lifted by the whipping cylinder 29, arranged on the right side of the threshing machine 5, and the tank transfer spiral 6a was pivotally supported at the bottom in the front-rear direction. It is supplied into the grain storage tank 6 and temporarily stored.

  As shown in FIG. 6, a narrow guide 13 a that separates the napped cereals from the front end position, each weed body 13 b, and each pulling device 13 c that raises the napped cereals are raised at the front part of the traveling chassis 2. Each of the scraping devices 14a of the culm scraping and transporting device 14 for scraping the culm, a cutting blade device 13d for cutting the scraped culm, and a threshing machine 5 The reaper 4 is provided with a root and tip transfer device 14b, 14c, etc., of the cereal scraping transfer device 13 to be delivered to the feed chain 7a. The reaper 4 is configured to move up and down with respect to the soil surface by a telescopic cylinder 15 that is hydraulically driven.

  A support pipe rod 16b is provided in the left-right direction at the upper end portion of the support rod 16a inclined from the front lower portion to the rear upper portion of the reaper 4, and the support device 16c is provided on the upper side surface of the traveling chassis 2. The reaping machine 4 is configured to rotate up and down around the support pipe rod 16b as the center of rotation by the operation of the telescopic cylinder 15.

  In the culm transfer path formed by the culm scraping and transferring device 14 of the reaper 4, the presence or absence of supply of cereals to the threshing machine 5 is confirmed by acting on the culm that is harvested and transferred. It is the structure which provided the grain candy sensor 4a to detect.

  At the front part on the grain storage tank 6 side, as shown in FIG. 6, a control device 17a that performs operations such as starting, stopping and adjusting each part of the combine 1, and a cockpit on which an operator who performs these operations is boarded The engine 18 is mounted on the upper side of the traveling chassis 2 below the cockpit 17b, and the grain storage tank 6 is disposed in the rear part. It is the structure which formed the body 1a of the combine 1 with these travel apparatuses 3, the reaping machine 4, the threshing machine 5, and the engine 18 grade | etc.,.

  A potentiometer-type vehicle speed sensor 19b for detecting the traveling vehicle speed is provided in the transmission path of the transmission mechanism 19a in the traveling transmission case 19 mounted on the front end of the traveling chassis 2. It is a configuration.

  The stored grain stored in the grain storage tank 6 is discharged out of the machine. On the rear side of the grain storage tank 6, as shown in FIGS. 1 to 4, the rear end portion on the transfer terminal side of the tank transfer spiral 6 a that is pivotally supported in the front and rear direction in the grain storage tank 6 is pivotally supported. The rear support metal 6c is configured to be mounted on the outer surface of the rear plate 6b of the grain storage tank 6. The front end portion is configured to be pivotally supported by a front support metal 6e provided on the front side plate 6d.

  As shown in FIGS. 1 to 4, the rear support metal 6c includes a lower transfer cylinder 9 in which a lower transfer spiral 9a is rotatably supported and an upper transfer cylinder 10 in which an upper transfer spiral 10a is rotatably supported. A grain transfer / discharge cylinder device 8 is provided, which is the base of the lower transfer cylinder 9. The lower rotating metal 9b attached to the lower end is provided so as to be rotatable and provided as a turning center (b). The lower turning metal 9b and the grain transfer / discharge cylinder device 8 including the lower / upper transfer cylinders 9 and 10 are integrally configured, for example, so as to be freely rotatable to the right outside of the body 1a of the combine 1. Yes, it is configured to rotate by manual operation.

  As shown in FIG. 1, an opening 10 c is provided on the transfer terminal end side of the upper transfer cylinder 10 of the grain transfer / discharge cylinder device 8, and the opening 10 b is transferred to the outer diameter portion of the upper transfer cylinder 10. It is the structure which fixed and provided the discharge cylinder 12 which provided the grain outlet 12a which discharges the grain which is carried out outside the machine to the lower part.

  The grain transfer / discharge cylinder device 8 is divided into two parts at a predetermined position in the vertical direction. At the positions of the upper end of the transfer end of the lower transfer cylinder 9 and the lower end of the transfer start end of the upper transfer cylinder 10, The upper transfer cylinder 10 is folded. These lower / upper transfer cylinders 9 and 10 are engaged with each other, or with respect to the lower transfer cylinder 9, an engagement tool 9d for folding the upper transfer cylinder 10 is provided on both of them. Each of the protrusions 9e is provided, and a support shaft 10c that rotatably supports each of the protrusions 9e is inserted, and the upper transfer cylinder 10 is formed by the upper engaging tool 9d and the support shaft 10c. It is the structure which can be operated freely. The engaging tool 9d is configured to be locked when the upper transfer cylinder 10 is engaged. When folded, the lock is released.

  Each clutch claw (not shown) is provided at the engaging portion of the upper / lower transfer spirals 9a, 10a pivotally mounted on the lower / upper transfer cylinders 9, 10 of the grain transfer / discharge cylinder device 8 so that the upper transfer The tube 10 is configured to be easily engaged and disengaged when folded.

  With the grain transfer / discharge cylinder device 8, the grain discharging operation in the grain storage tank 6 is finished, and the upper transfer cylinder 10 is folded into the stored state with respect to the lower transfer cylinder 9 as shown in FIG. The upper transfer cylinder 10 of the grain transfer / discharge cylinder device 8 is manually operated to the state and the lower transfer cylinder 9 of the grain transfer / discharge cylinder device 8 is sequentially brought into a vertical standing state by operating the upper transfer cylinder 10 to the storage state position. At the same time, the upper transfer cylinder 10 passes through the upper part of the grain storage tank 6 and sequentially moves to the upper side of the threshing machine 5 in the final storage state position.

  When operating the foldable upper transfer cylinder 10 on the upper side of the lower transfer cylinder 9 of the grain transfer / discharge cylinder device 8 for transferring and discharging the stored grains in the grain storage tank 6 to the storage state position, When the upper transfer cylinder 10 is in the folded state and is rotated and moved, it passes through the upper part of the grain storage tank 6 and sequentially moves to the upper side of the threshing machine 5 at the height position of the final storage state position. The upper transfer cylinder 10 can be safely stored by being stored in a folded state.

  As shown in FIG. 2, the folding position of the upper transfer cylinder 10 of the grain transfer / discharge cylinder device 8 is a substantially intermediate position (A) in the vertical direction of the grain transfer / discharge cylinder apparatus 8, and the upper transfer is performed at this intermediate position (A). Between the lower end portion of the transfer start end of the tube 10 and the upper end portion of the transfer end portion of the lower transfer tube 9, intermediate rotating metals 9c, 9c are provided. The upper transfer cylinder 10 is configured such that the upper transfer cylinder 10 is pivotably movable in the vertical direction on the intermediate rotation metal 9c side on the upper transfer cylinder 10 side, and the upper transfer cylinder 10 is in a folded state. In this configuration, the rotational movement can be stopped at a predetermined position, and an arbitrary discharge inclination angle can be set.

  Further, the lower transfer cylinder 9 and the upper transfer cylinder 10 are rotated by the intermediate rotation metal 9c on the upper side of the lower transfer cylinder 9 so that the lower transfer cylinder 9 and the upper transfer cylinder 10 can be rotated and moved to a substantially linear state position in the lateral direction. It is. Furthermore, it is the base of the lower transfer cylinder 9. The lower rotation metal 9b attached to the lower end portion is provided as a rotation center (b) so as to be rotatable and movable to the right side of the body 1a of the combine 1. When the upper transfer cylinder 10 of the grain transfer / discharge cylinder device 8 provided with the intermediate rotating metal 9c, 9c is moved to the housed state, the lower transfer cylinder 9 of the grain transfer / discharge cylinder device 8 is sequentially raised. At the same time, the upper transfer cylinder 10 that is rotated downward is rotated toward the front of the machine body 1a, and the upper transfer cylinder 10 is sequentially rotated to the upper part of the threshing machine 5 in the final storage state position. It is a moving configuration.

  The folded state position of the upper transfer cylinder 10 of the grain transfer / discharge cylinder device 8 is a substantially intermediate position (A) in the vertical direction of the grain transfer / discharge cylinder apparatus 8. The metal 9c is provided and rotated downward, and the storage direction is rotated toward the front of the machine body 1a to be in the storage state, thereby increasing the overall length of the grain transfer / discharge cylinder device 8. Can do. Moreover, if it is a side, it will become short and it will become impossible to operate the upper part of the threshing machine 5, for example, a handling cover.

  The lower rotation metal 9b of the lower transfer cylinder 9 of the grain transfer / discharge cylinder device 8 is operated as the rotation center (b), for example, to the lowest inclined position on the right side outside and supported at this lowest inclined position. The stopper device 11 is provided as shown in FIGS. 3 and 4. This minimum height inclination position is a configuration that is supported at a predetermined height higher than the horizontal. The stopper device 11 has an inverted mountain-shaped receiving plate 11a attached to the support plate 11b, a fastening pin 11c provided on the support plate 11b, and a fastening pin 11c provided on the side plate 20a of the brake device 20. It is the structure provided as a device by inserting it into the hole 20b and using a nut or the like. It is the structure adjusted by this long hole 20b part.

  When the grain transfer / discharge cylinder device 8 is rotated and moved to the right side outward and tilted to the inclined state, the minimum inclination height position is supported at an inclination height position higher than the horizontal. By providing the stopper device 11, the minimum inclined height position is regulated by the height of the straw bag that receives the grains, so that alignment during grain discharge is easy.

  By rotating and moving the grain transfer / discharge cylinder device 8 to the outside on the right side and tilting it down to the inclined state, the stopper device 11 to be supported is moved to the right outside and translated. The support height position in the inclined state to be supported can be supported at an arbitrary position, and the attachment position of the stopper device 11 is provided so as to be adjustable and movable to the left and right as shown in FIG.

  The stopper device 11 that supports the grain transfer / discharge cylinder device 8 is provided so that it can be adjusted and moved to the left and right depending on the height position to be supported. Vertical alignment can be performed easily and easily.

  The rear support metal 6c on the rear side of the grain storage tank 6 and the lower rotating metal 9b of the lower transfer cylinder 9 of the grain transfer / discharge cylinder apparatus 8 are provided with a brake device 20 as shown in FIG. It is.

As shown in FIG. 5, the brake device 20 has a configuration in which a mounting plate 21a is fixed to the outer peripheral portion of the rear support metal 6c, and a support pin 21b is fixed to the mounting plate 21a.
Further, the lower rotating metal 9b is provided with a rotating plate 22a provided with a long hole 22b as shown in FIG. 5, and the long hole 22b portion of the rotating plate 22a is provided as a support pin of the mounting plate 21a. A plurality of brake plates 23a are inserted into the support pins 21b on the outer surface of the rotating plate 22a, and nuts 23b are inserted into the support pins 21b on the outer sides of the brake plates 23a. It is the structure inserted by screwing. The brake force can be adjusted by the screw insertion position of each nut 23b.

  The grain transfer / discharge cylinder device 8 is configured to be held at a predetermined adjustment position by the brake device 20 even if the grain transfer / discharge cylinder device 8 is rotationally moved to a predetermined height position on the right outer side. It is. Further, by supporting at the stopper position 11, it can be further reliably supported at a predetermined position. The brake device 20 is configured to be operable even when the grain transfer / discharge cylinder device 8 is operated to the stored state, and is configured to reduce vibration by loading a brake.

On the rear side of the grain storage tank 6 of the combine 1, storing grain transport discharged to the upper and lower transfer cylinder 10, 9, and discharge tube 12 Ru grain transfer name than like to the outside as shown in FIG. 7 While providing the discharge cylinder device 8, the grain transfer discharge cylinder device 8 is pivoted up and down by the gas damper 24b or the like, with the lower rotating metal 9b in the lower part as the rotation center (b). The upper transfer cylinder 10 is provided so as to be freely foldable.

  A bag holder 25 a that supports the grain bag 25 is fixedly provided on the lower side of the lower transfer cylinder 9 near the folding end of the transfer terminal portion. An operation case 24 is provided in the vicinity of the upper folding position, and the operation case 24 is provided with a discharge lever 24a that is operated when the grain is discharged outside the machine. Moreover, it is good also as a structure which provided only the bag holder 25a which supports the grain bag 25. FIG. Further, when receiving the grain at the tip of the lower transfer cylinder 9, the upper transfer cylinder 10 is configured to be folded upward.

  When the stored grain in the grain storage tank 6 is discharged out of the machine by the grain transfer / discharge cylinder device 8, the upper transfer cylinder 10 is folded upward and the upper transfer cylinder 10 is set to a predetermined height by the gas damper 24b. After operating to the position and fixing to the predetermined height position by the brake device 20, the grain bag 25 is attached to the bag holder 25a, and the discharge lever 24a is operated to “turn on” to rotate and drive the lower part. In this configuration, the grain is discharged into the grain bag 25 from the circular opening at the transfer terminal end of the tube 9.

Thereby, the discharge position of a grain can be changed with a situation, and improvement of work efficiency can be aimed at.
On the rear side of the grain storage tank 6 of the combine 1, as shown in FIG. 8, there are upper and lower transfer cylinders 10 and 9 for discharging and discharging the stored grains to the outside of the machine, a discharge cylinder 12 and the like. The grain transfer / discharge cylinder device 8 is provided, and the grain transfer / discharge cylinder device 8 has a lower rotation metal 9b at the lower portion as a rotation center (b) and a right side by a gas damper 24b, an assist spring 24c, and the like. The brake device 20 is provided so as to be pivotable up and down to the side outside, fixed at a predetermined position, and the upper transfer cylinder 10 is foldable at a predetermined position.

  The discharge cylinder 12 provided at the transfer end portion of the upper transfer cylinder 10 is configured to be detachable by bolts, nuts, etc., and can be reconfigured to the transfer start end of the upper transfer cylinder 10. When operated in the folded state, the discharge tube 12 at the tip is removed and attached to the transfer start end of the upper transfer tube 10.

  When the discharge of the stored grains is started, the grains transferred by the lower transfer helix 9a of the lower transfer cylinder 9 are discharged from the transfer end of the lower transfer cylinder 9 to the transfer start end of the upper transfer cylinder 10. It is supplied into the cylinder 12 and is discharged out of the machine through the grain outlet 12a.

Thereby, the change of the discharge position of a grain can be easily carried out according to the situation. Further, by providing the assisting spring 24c, it is possible to reduce the operation load during storage.
On the rear side of the grain storage tank 6 of the combine 1, as shown in FIGS. 9 and 10, there are upper and lower transfer cylinders 10, 9 for transferring and discharging the stored grains to the outside of the machine, a discharge cylinder 12, and the like. The grain transfer / discharge cylinder device 8 is provided, and the grain transfer / discharge cylinder device 8 is rotated vertically to the right side outward by the gas damper 24b with the lower rotating metal 9b at the bottom as the rotation center (b). The structure is such that the brake device 20 and the like that are movable and fixed at a predetermined position are provided, and the upper transfer cylinder 10 is foldable at a predetermined position.

  An auxiliary funnel 26a is attached to the lower end portion of the discharge cylinder 12 so as to be opened and closed by a rotating tool 26. The lower end portion of the auxiliary funnel 26a is extendable and contractible made of a resin material or a rubber material. In this configuration, a deformable shooter 26b is provided.

  When the clogging of the grain occurs on the discharge end side of the grain transfer / discharge cylinder device 8, the auxiliary funnel 26 a and the shooter 26 b rotate integrally with the rotation tool 26 as the rotation center. In this configuration, the grain transfer / discharge cylinder device 8 is prevented from being damaged.

  Thereby, when clogging of the transfer grain occurs in the upper transfer cylinder 10 and the discharge cylinder 12 of the grain transfer / discharge cylinder device 8, the auxiliary funnel 26a and the shooter 26b are opened, and the grains are discharged. As a result, each component can be prevented from being damaged.

  As shown in FIG. 11, the bag holder 25 a that supports the grain bag 25 is one of the lower side near the transfer terminal end of the lower transfer cylinder 9 and the rear side of the discharge cylinder 12 of the upper transfer cylinder 10. The support can be changed to the side by a support tool 25b, and the support tool 25b is mounted with a bolt or the like. Moreover, even if the upper transfer cylinder 10 is in a folded state, it can be discharged.

This is convenient because the position can be changed depending on the situation. Further, even when the upper transfer cylinder 10 and the discharge cylinder 12 are clogged with grains, they can be discharged.
On the rear side of the grain storage tank 6 of the combine 1, as shown in FIGS. 11 and 12, there are upper and lower transfer cylinders 10, 9 for transferring and discharging the stored grains to the outside of the machine, a discharge cylinder 12, and the like. The grain transfer / discharge cylinder device 8 is provided, and the grain transfer / discharge cylinder device 8 is rotated vertically to the right side outward by the gas damper 24b with the lower rotating metal 9b at the bottom as the rotation center (b). The structure is such that the brake device 20 and the like that are movable and fixed at a predetermined position are provided, and the upper transfer cylinder 10 is foldable at a predetermined position.

  The foldable upper transfer cylinder 10 is divided into an upper root transfer cylinder 27, an upper inner transfer cylinder 10d, and an upper outer transfer cylinder 10e as shown in FIG. 12, and the outer peripheral portion of the upper inner transfer cylinder 10d. The upper outer transfer cylinder 10e is inserted and provided to be extendable and retractable, and the upper transfer helix 10a is internally fixed to the upper root transfer cylinder 27 and the upper inner transfer cylinder 10e. As the fixed transfer spirals 10f and 10f of the system, a plurality of moving spirals 10h are pivotally supported between the fixed transfer spirals 10f and 10f, and each moving spiral 10h is provided in a stretched state. Based on the expansion and contraction of the upper outer transfer cylinder 10e, each moving spiral 10h is also configured to expand and contract, and is configured to be able to adjust the transfer and discharge position of the grain. In this configuration, the support device 28 supports the vicinity of the transfer start end side when the telescopic upper outer transfer cylinder 10e is stored.

Further, as shown in FIG. 12, the support device 28 is provided by being attached to the upper portion of the cerealing device 29 that feeds the threshed and selected grain to the grain storage tank 6 by the threshing machine 5. It is a configuration.
Thereby, a grain can be discharged | emitted to a distance. Moreover, the improvement of the intensity | strength improvement of the support apparatus 28 which supports the grain transfer discharge cylinder apparatus 8 and a structure become easy.

Enlarged front view of the grain transfer / discharge cylinder unit Enlarged plan view of the grain transfer / discharge cylinder unit Enlarged rear view of the grain transfer / discharge cylinder unit Enlarged rear view of the stopper device part of the grain transfer / discharge cylinder device Enlarged side perspective view of the brake device Combine left side side view It is a figure which shows another Example, The enlarged front view of a grain transfer discharge cylinder apparatus part It is a figure which shows another Example, An enlarged rear view of a grain transfer discharge cylinder apparatus part It is a figure which shows another Example, The enlarged front view of a grain transfer discharge cylinder apparatus part It is a figure which shows another Example, The enlarged front view of the shooter part of a grain transfer discharge cylinder apparatus part It is a figure which shows another Example, The enlarged front view of a grain transfer discharge cylinder apparatus part It is a figure which shows another Example, The enlarged side view of a grain transfer discharge cylinder apparatus part

1a Airframe 2 Running chassis
3 traveling devices
4 Harvesting machine 5 Thresher 6 Grain storage tank 8 Grain transfer / discharge cylinder device 9 Lower transfer cylinder 10 Upper transfer cylinder
12 discharge tube
12a threshing mouth
17b cockpit
24 operation cases
24a discharge lever
25a bag holder
26 rotating tool
26a auxiliary funnel
26b shooter

Claims (2)

Crawler type traveling device on the lower side of the running chassis (2) and (3) is provided, the front reaps culms in reaper (4) provided in the running chassis (2), the upper surface of the running chassis (2) threshing machine for threshing the cutting culms are (5) and the grain of the de Kokuzumi placed a grain storage tank (6) for savings distillation, the operator on the front of該穀grain storage tank (6) There is provided a cockpit boarding (17b), the combine on the side provided with the grain transfer discharge cylinder device (8) which exits discharge the savings distillation cereal kernels after grain storage tank (6), wherein the grain The grain transfer / discharge cylinder device (8) is configured to be manually rotatable in the vertical direction toward the right side outside of the combine body (1a), and the grain transfer / discharge cylinder device (8) folding upper transfer cylinder (10) manually folded position between the transfer starting end of the transfer terminal end and the upper transfer cylinder of the transfer cylinder (9) (10) And work freely configured and operated to move from the operating upper transfer cylinder (10) in the folded state to the accommodated position, the upper transfer cylinder with standing the lower transfer cylinder (9) (10) grain storage tank (6 ) passes over direction and configured to be accommodated in the upper accommodating position of the threshing machine (5) of the support the grain bag below the collapsed position near the transfer end of the lower transfer cylinder (9) The bag holder (25a) is fixed, and an operation case (24) is provided on the upper side of the lower transfer cylinder (9) in the vicinity of the folding position, and a discharge lever for grain discharge operation is provided in the operation case (24). (24a) is pivotally supported, the upper transfer cylinder (10) is folded upward, the grain bag is mounted on the bag holder (25a), and the discharge lever (24a) is turned on to operate the lower transfer cylinder (9). and characterized in that a structure for discharging the grain from the transfer terminal end to the grain bag Konbai down that. The discharge tube 12 is provided, the outlet tube (12) a lower end portion to the auxiliary funnel (26a) times of having HaiKoku opening (12a) for discharging the grains to the transfer terminal end of the front SL upper portion transfer tube (10) openably mounted at dawg (26), Konbai down according to claim 1, characterized in that a stretchable and deformable shooter (26b) to the lower end of the auxiliary funnel (26a).

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