JP2019004766A - Combine harvester - Google Patents

Abstract

To improve arrangement configuration of a fuel tank in a combine harvester that is configured to store grains that has been subject to threshing process through a storing hopper.SOLUTION: A combine harvester includes: a storing hopper 25 having a storage space for storing grains that has been subject to threshing process and a discharge part for discharging the grains downward of the storage space; and a fuel tank 41 provided in a lower region of the storing hopper 25 while overlapping on the storing hopper 25 in plan view.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a combine configured to store threshed grain by a storage hopper.

  In this type of combiner, conventionally, an operating part is provided at the front of the fuselage, a storage hopper is provided in a state of being located on the rear side of the operating part, and a fuel in a state of being located on the rear side of the storage hopper. The tank was provided (for example, refer patent document 1).

JP 2014-183815 A

  In the conventional configuration described above, the entire fuel tank, which is a large member, is arranged in a state of being located on the rear side of the storage hopper, so that the fuel tank protrudes toward the rear of the fuselage, and the longitudinal length of the fuselage However, there are disadvantages such as that the fuel tank may be damaged due to contact with obstacles such as firewood.

  Therefore, it has been desired to improve the arrangement of the fuel tank in the combine having the above configuration.

The characteristic configuration of the combine according to the present invention is as follows:
A storage hopper having a storage space for storing the threshed grain and having a discharge part capable of discharging the grain below the storage space is provided,
A fuel tank is provided in a region below the storage hopper in a state overlapping with the storage hopper in a plan view.

  The storage hopper is located on the upper side, and below the storage hopper, a work area for collecting the grains discharged from the discharge section with a grain storage bag or the like is formed. Further, the storage hopper is formed in a narrowed shape so that the upper side is wider and the lower side is gradually narrower so that the grains can be easily discharged and discharged.

  A fuel tank is provided in a region below the storage hopper. That is, as described above, the fuel tank is provided by effectively using the area under the storage hopper which is formed in a narrowed shape and has a free area on the lower side.

  Thus, by providing the fuel tank in the region below the storage hopper, the amount of protrusion of the fuel tank to the rear side of the fuselage can be suppressed, or a large part of the outer surface of the large fuel tank can be removed from the fuselage. It is possible to reduce the risk of contact with an obstacle such as a bag by being positioned inside.

  In the present invention, it is preferable that the fuel tank protrudes rearward from the rear end portion of the storage hopper.

  According to this configuration, since the rear portion of the fuel tank protrudes rearward from the rear end portion of the storage hopper, if a fuel filler port is formed at this location, the fueling operation is efficiently performed from the rear side of the machine body. be able to.

In the present invention, the fuel tank is provided in a state of projecting to the rear side of the rear end portion of the storage hopper at a position closer to one side of the storage hopper in the left-right direction,
It is preferable that a work table is provided at a position on the rear side of the storage hopper and on the other side in the left-right direction of the machine body.

  According to this configuration, when refueling the fuel tank, the fuel tank that contains the fuel is placed on the workbench, and the fuel tank is easily refueled without applying a weight burden. be able to.

  Since the work bench is located on the other side of the storage hopper in the left-right direction and the fuel tank is located on the one side of the storage hopper in the left-right direction, the fuel container and the fuel tank are aligned in the left-right direction. This makes it easier to connect a hose for refueling, for example.

In the present invention, a vertical hopper support frame that supports the storage hopper is provided in a state of being erected from the body frame,
It is preferable that the work table is supported by the hopper support frame in a state of protruding rearward from the rear end portion of the hopper support frame.

  According to this configuration, the work table can be stably supported by the strong hopper support frame for supporting the storage hopper. Since the work table protrudes to the rear side from the rear end portion of the hopper support frame, it does not interfere with the work of collecting the grains discharged from the discharge section with a grain storage bag or the like.

In the present invention, the work table is provided in a state of being spaced upward with respect to the body frame,
It is preferable that a fuel auxiliary device acting on the fuel stored in the fuel tank is provided between the work table and the body frame.

  According to this configuration, since the work table is provided at a higher position above the body frame, the vertical position shift between the fuel container placed on the work table and the fuel filler port in the fuel tank is reduced. This makes it easier to refuel. A fuel auxiliary device is provided between the work table and the machine frame, that is, at a position above the machine frame and below the work table and overlapping the work table in plan view. Examples of the fuel auxiliary machine include an oil filter that removes dust contained in the fuel.

  Since the workbench is positioned so as to overlap with the fuel auxiliary machine in plan view, when the obstacle approaches, the workbench comes into contact with the obstacle before the fuel auxiliary machine. It is easy to avoid damaging the fuel auxiliary machine.

  In the present invention, it is preferable that the balance weight attaching portion is formed at a position adjacent to the position where the fuel tank is supported in the body frame in the left-right direction of the body.

  In the type of combine that stores grains with a storage hopper, for example, the grains are stored in a rectangular box-shaped grain tank, and the grains are discharged by a screw conveyor type grain discharging device. Compared to a tank type combine, the weight of the grain storage location is reduced. Assuming that the tank-type combine and the fuselage frame are shared, the weight balance in the lateral direction of the fuselage becomes uneven.

  According to this configuration, the balance weight attaching portion is formed at a position adjacent to the left and right direction of the airframe of the fuel tank. Therefore, when the weight is placed on the fuel tank, the weight balance deviation as described above is corrected. It is possible to make improvements.

In the present invention, a threshing device for threshing the harvested cereal meal is provided in a state aligned with the storage hopper in the left-right direction,
It is preferable that the fuel tank is provided at a position closer to the threshing device in the left-right direction of the machine body and a position on the rear side of the machine body in the front-rear direction of the machine body in the region below the storage hopper.

  According to this configuration, the fuel tank is located in a position closer to the threshing device with respect to the storage hopper in the left-right direction of the body, that is, on the intermediate side of the arrangement direction of the threshing device and the storage hopper. Further, the fuel tank is located on the rear side of the fuselage with respect to the storage hopper in the longitudinal direction of the fuselage.

  In other words, the fuel tank is provided near the center of the fuselage in the left-right direction and on the rear side of the fuselage, making it easy to perform replenishment work from the rear of the fuselage without breaking the weight balance in the left-right direction of the fuselage Yes.

In the present invention, a vertical hopper support frame that supports the storage hopper is provided in a state of being erected from the body frame,
The hopper support frame is located on the threshing device side, and is provided with a plurality of struts located on both front and rear sides,
A wall member is provided in a state extending over the front column and the rear column and rising from the body frame,
It is preferable that wiring or piping or both be passed through a region between either the threshing device or the fuel tank and the wall member.

  According to this structure, a wall member is provided over the support | pillar before and behind located in the threshing apparatus side in a hopper support frame. Below the storage hopper, a work area for collecting the grains in a storage bag or the like is formed, and in this work area, a plurality of storage bags may be provided in a standby state. Since such a work area and an area through which wiring or piping or both (hereinafter sometimes referred to as wiring etc.) are passed are partitioned by wall members, the storage bag etc. are in contact with the wiring etc. It is possible to avoid damage to the wiring or the like.

In the present invention, the wall member has an inclined surface portion in an oblique posture positioned on the threshing device side toward the upper side in the longitudinal direction of the body, and a vertical surface portion extending upward from the inclined surface portion. ,
It is preferable that a space through which the wiring or the pipe or both are formed is formed in a region surrounded by the inclined surface portion and the body frame.

  According to this structure, the area | region enclosed by an inclined surface part and a body frame is a substantially triangular space by the body front-back direction view, and the vertical surface part connected to the upper side of an inclined surface part is located in the state which leaned to the threshing apparatus side. That is, the passing area of the wiring or the like is located at the lower corner of the threshing device side in the work area below the storage hopper, and the vertical surface portion is closer to the threshing device side. While the work area below the hopper can be used as wide as possible, wiring and the like can be stored well.

In the present invention, a fuel auxiliary device acting on the fuel stored in the fuel tank is located on the rear side of the support column on the rear side and on the opposite side of the threshing device with respect to the fuel tank. Provided,
It is preferable that the wiring and / or the piping are connected to the fuel auxiliary machine.

  According to this configuration, the fuel stored in the fuel tank is supplied to the engine through the pipe. At this time, the fuel auxiliary machine acts on the fuel, and for example, processing such as dust removal and water separation is performed. Since the engine is provided on the front side of the airframe rather than the fuel tank, the engine is supplied to the engine through a pipe passing through a region surrounded by the inclined surface portion and the airframe frame. In addition to the piping, if the fuel auxiliary device is electrically operated, it is connected to the electrical equipment on the front side of the machine body by a wiring passing through a region surrounded by the inclined surface part and the machine body frame.

It is a whole side view of a combine. It is a whole top view of a combine. It is a side view of a storage part. It is a front view of a storage part. It is a top view of a fuel tank installation part. It is a rear view of a fuel tank installation part.

  Hereinafter, the case where the embodiment according to the present invention is applied to an ordinary combine as an example of a combine will be described with reference to the drawings.

〔overall structure〕
As shown in FIGS. 1 and 2, the ordinary combine is provided with a driving unit 3 on the front right side of a traveling machine body 2 provided with a pair of left and right crawler traveling devices 1, and a threshing device for threshing a harvested crop. 4 and the grain storage part 5 which stores the grain obtained by the threshing process are provided. The grain storage unit 5 is provided in a state of being located on the rear side of the operation unit 3, the grain storage unit 5 is positioned on the right side of the machine body, and the threshing device 4 is located on the left side of the machine body, The threshing device 4 is located side by side along the body width direction. Further, an engine 6 is provided below the operation unit 3, and the power of the engine 6 is transmitted to each part of the combine.

  In this embodiment, when defining the front-rear direction of the aircraft, it is defined along the aircraft advancing direction in the working state, and when defining the left-right direction of the aircraft, the left-right direction is defined as viewed in the aircraft advancing direction. . That is, the direction indicated by reference numeral (F) in FIGS. 1 and 2 is the front side of the body, and the direction indicated by reference numeral (B) in FIGS. 1 and 2 is the rear side of the body. The direction indicated by reference sign (L) in FIG. 2 is the left side of the aircraft, and the direction indicated by reference sign (R) in FIG.

  A feeder 7 for conveying the harvested cereal meal is connected to the front part of the threshing device 4 so as to swing up and down around the horizontal axis, and a harvesting part 8 having a cutting width substantially corresponding to the width of the machine body is connected to the front end of the feeder 7. Has been. The harvesting unit 8 is a rotary reel 9 that scrapes the planted cereals backward, a clipper-type harvesting device 10 that cuts and harvests the planted cereal stocks, and the harvested cereals laterally in the horizontal direction in the body width direction. A lateral feed auger 11 that feeds and transfers is provided, and the cereals harvested by the reaping device 10 are laterally fed by the lateral feed auger 11 and supplied to the feeder 7.

  The driver 3 includes a driver seat 12, a front panel 14 that is positioned in front of the driver seat 12 and includes a plurality of operating tools such as a steering operation lever 13, and a gear that is positioned on the left side of the driver seat 12. A side panel 17 provided with various operation tools such as a lever 15 and a threshing clutch lever 16 is provided. On the right side of the driver's seat 12, a dustproof duct 18 for taking in cooling air to the engine 6 by the action of a radiator fan (not shown) is provided. The driving unit 3 is provided with a driving unit canopy 19 having functions such as preventing sunlight for a driver sitting on the driving unit 3 and avoiding rainwater.

  In the threshing device 4, the left and right sides are covered with side walls 4A, and the upper part is covered with a top plate 4B. Although not shown in the figure, the harvested cereal having a handling cylinder and a receiving net (not shown) on the upper side of the internal space surrounded by the left and right side walls 4A and the top plate 4B, and conveyed from the feeder 7 A handling chamber is formed to handle the firewood. In addition, a sorting processing unit is provided in the lower part of the handling chamber to sort the treated material leaking from the receiving net into second products such as grains, branched straws, and waste straw scraps.

  The grain selected by the selection processing unit is discharged to the outside on the side of the grain storage unit 5 of the threshing device 4 by a first object recovery screw (not shown). In the threshing device 4, a cerealing device 20 comprising a screw conveyor is provided on the laterally outer side of the side wall 4A on the grain storage unit 5 side. The grain discharged to the lateral outer side on the grain storage unit 5 side of the threshing device 4 is conveyed upward by the cerealing device 20 and stored in the grain storage unit 5.

  The second product obtained in the sorting processing unit is discharged to the lateral outer side on the grain storage unit 5 side of the threshing device 4 by a second product recovery screw (not shown), and the grain storage in the threshing device 4 is performed. It is returned to the front part of the threshing device 4 by the second product reducing device 23 provided on the side on the part 5 side. Waste straw scraps and the like are discharged outwardly through the discharge case 4 </ b> C to the rear side of the threshing device 4.

[Grain storage part]
The grain storage unit 5 will be described.
As shown in FIG. 1, the grain storage unit 5 has a storage space for storing the threshed grain and has a discharge port 24 as a discharge unit capable of discharging the grain below the storage space. A hopper 25, a collection unit 26 that collects the grains discharged from the storage hopper 25, and a hopper support frame 27 that supports the storage hopper 25 are provided.

  As shown in FIGS. 3 and 4, the storage hopper 25 is provided with a rectangular box-shaped portion 25 </ b> A having a substantially bottomless box shape forming a substantially rectangular parallelepiped space on the upper side, and three lower narrows on the lower side. A flow guide part 25B having a funnel part 28 in the form of a pipe is provided. The lower end opening of the rectangular box portion 25A and the upper end opening of the flow guide portion 25B are connected, and a space is formed in a state where the inside of the rectangular box portion 25A and the inside of the flow guide portion 25B are continuous. That is, a storage space for storing the grain is formed by the entire internal space of the rectangular box-shaped portion 25A and the internal space of the flow guide portion 25B. At the lower ends of the three funnel portions 28, a discharge port 24 capable of discharging the grains downward is formed, and a manually operated shutter mechanism 29 that can open and close the discharge port 24 is provided.

  The collection unit 26 includes a bag holding unit 30 that holds the grain storage bag F in a vertical posture for storing the grains discharged from the discharge port 24 of the storage hopper 25. The bag holding unit 30 is provided with a plurality of left and right support rods 30a extending in a cantilevered manner in order to be locked to the upper part of the grain containing bag F and hold a vertical posture. A mounting table 31 for receiving and supporting the grain storage bag F in which the grain is stored is provided at the lower part of the collection unit 26.

  On the right side of the mounting table 31, there is provided a work step unit 32 on which an auxiliary worker who performs grain collection work can ride. The work step section 32 is supported by the body frame 33 so as to be swingable around the front and rear swing axis at the end (left side) end of the body, and has a working posture protruding outward from the body, It can be switched to a retracted posture that retreats to the side. Further, on the upper side of the storage hopper 25, an auxiliary canopy 34 is provided which covers the upper side of an auxiliary worker who works in the work area and has functions such as preventing sunlight and preventing rainwater.

  The hopper support frame 27 includes a plurality of support posts 35 erected from the body frame 33 at intervals in the left-right direction at positions corresponding to the front and rear side ends of the storage hopper 25, and the upper ends of the support posts 35. A horizontal frame 36 that is horizontally connected is provided.

  In addition, as shown in FIG. 4, as shown in FIG. 4, three support posts 35 are provided on the front side of the aircraft with a space in the left-right direction, and two on the rear side of the aircraft with a space in the left-right direction. The support | pillar 35 is provided. All struts 35 are fixed with their lower ends connected to the body frame 33. And in both the front and rear sides, a lateral frame 36 that faces left and right is connected across the upper ends of the plurality of columns 35 arranged in the left and right direction. The lateral frames 36 on both the front and rear sides are respectively bolted to the side wall 4A of the threshing device 4 at the left side of the machine body, that is, at the end on the threshing device 4 side.

  In the storage hopper 25, support members 37 provided at both front and rear end portions of the flow guide portion 25B are mounted and supported by receiving members 38 attached to the lateral frames 36 on both front and rear sides. The stop member 38 is bolted. In this way, the storage hopper 25 is supported by the hopper support frame 27. In FIGS. 3 and 4, reference numeral 39 denotes an operator protection member that supports an auxiliary operator who performs bagging work from the rear side. Reference numeral 40 denotes a handrail that can be gripped by an auxiliary worker.

[Fuel tank]
Next, the fuel tank 41 will be described.
A fuel tank 41 is provided in a region below the storage hopper 25 so as to overlap with the storage hopper 25 in plan view. The fuel tank 41 is provided at a position near the threshing device 4 in the left-right direction of the machine body and at a position on the rear side of the machine body in the front-rear direction of the machine body in the region below the storage hopper 25.

  That is, as shown in FIGS. 5 and 6, the intermediate position between the storage hopper 25 and the threshing device 4 and the rear side of the storage hopper 25 at the intermediate position in the left-right direction of the aircraft. It is provided in a state protruding. As shown in FIG. 5, the fuel tank 41 has a rectangular shape that is wide in the front-rear direction and narrow in the left-right direction in plan view, and narrow in the left-right direction in the front-rear direction of the fuselage as shown in FIG. The rectangular box-shaped body that is wide in the vertical direction is formed. That is, it is narrow in the left-right direction and wide in the front-rear direction and the up-down direction, and has a compact shape in the left-right direction, and is deployed using a narrow area between the threshing device 4 and the grain storage unit 5. Although it is possible, a large fuel storage capacity can be secured.

  A fuel supply port 42 is formed at the rear end of the upper surface of the fuel tank 41 and opens obliquely rearward and upward. Since the fuel supply port 42 is opened upward from the rear end portion of the machine body, the refueling work can be easily performed from the outside of the rear part of the machine body.

  The position of the fuel tank 41 is held by a pair of front and rear bands 43. The band 43 is provided in a state in which the fuel tank 41 is wound from above, and both left and right end portions are fixed to the body frame 33.

  As shown in FIG. 5, a balance weight attaching portion 44 is formed at a position adjacent to the right side in the left-right direction of the fuselage with respect to the location where the fuel tank 41 is supported in the fuselage frame 33. A balance weight 45 is attached to the balance weight attachment portion 44.

  When the description is added, instead of the hopper type grain storage unit 5, the machine body frame 33 includes a tank type grain storage unit (not shown) having a grain tank and a screw conveyor type grain discharging device. It is configured to be used also as a combine combine. Since the weight of the hopper type grain storage unit 5 is lighter than that of the tank type grain storage unit, a balance weight 45 is attached to improve the left-right weight balance.

  In other words, as shown in FIG. 4, the balance weight attachment portion 44 is a pair of left and right front and rear arms that are fixedly extended from the lateral frame body 33 </ b> A located on the rear side of the machine body frame 33 toward the rear side. A portion 44a and a laterally extending portion 44b extending across the left and right front-back arm portions 44a. A pair of laterally extending portions 44b are provided at the front and rear, and a balance weight 45 is attached to the right side of the laterally extending portion 44b on the rear side.

  The fuel tank 41 is placed and supported on the left side of the lateral frame body 33A, the left and right front and rear arm portions 44a, and the front and rear laterally extending portions 44b.

  As shown in FIG. 5, it acts on the fuel stored in the fuel tank 41 on the rear side of the rear column 35 and on the opposite side (right side) of the threshing device 4 with respect to the fuel tank 41. As fuel auxiliary equipment, an oil filter 46 for removing fine dust contained in the fuel and a water separator 47 for separating and removing moisture contained in the fuel are provided.

  A pump 48 that feeds fuel toward the engine 6 is provided on the front side of the fuel tank 41. The fuel in the fuel tank 41 passes through the oil filter 46 and the water separator 47 and is then supplied to the engine 6 at the front of the machine body by a pump 48 through a pipe H extending in the front-rear direction. Return oil (surplus) from the engine 6 is returned to the fuel tank 41 through the pipe H.

  A fuel remaining amount detection sensor (not shown) for measuring the remaining amount of fuel is provided inside the fuel tank 41. The detection information of the fuel remaining amount detection sensor is transmitted to a control device (not shown) at the front of the machine body through a wiring (not shown). The pump 48 is configured to operate based on a command from the control device through a wiring (not shown).

  As shown in FIGS. 3, 5, and 6, a work table 49 is provided at a position behind the storage hopper 25 and closer to the left side (the other side in the left-right direction of the machine body). The work table 49 is supported by the hopper support frame 27 so as to protrude rearward from the rear end portion of the hopper support frame 27. The work table 49 has a shape obtained by bending a round pipe material into a substantially U shape, and is integrally connected to and supported by the two support columns 35 located on the rear side. The left end portion of the work table 49 is connected to the left support column 35 of the two support columns 35, and the laterally extending portion 50 extends in the left-right direction from the right end portion of the work table 49. It is connected to the right support column 35. As shown in FIG. 6, when fuel is supplied to the fuel tank 41, the fuel supply operation can be performed in a state where the fuel container (poly tank) T is placed on the work table 49 and no weight burden is applied.

  As shown in FIGS. 3 and 6, the work table 49 is provided in a state of being separated upward from the machine body frame 33. An oil filter 46 and a water separator 47 are provided between the work table 49 and the machine frame 33. The oil filter 46 and the water separator 47 are located below the work table 49 so as to overlap in plan view.

  As shown in FIGS. 3, 4, and 6, among the plurality of struts 35 of the hopper support frame 27, the struts 35 on the front and rear sides located on the threshing device 4 side span the front strut 35 and the rear strut 35. The wall member 51 is provided in a state of standing up from the body frame 33. As shown in FIGS. 4 and 6, the wall member 51 extends obliquely to the upper side of the inclined surface portion 51 </ b> A, and the inclined surface portion 51 </ b> A having an oblique posture positioned toward the threshing device 4 toward the upper side in the longitudinal direction of the body. It has a vertical surface portion 51B, and extends over substantially the entire width of the storage hopper 25 along the front-rear direction.

  The vertical surface portion 51B of the wall member 51 is fixed to the brackets 52 provided on the front and rear support columns 35 by bolts at both front and rear sides. 51 A of inclined surface parts of the wall member 51 are being fixed to the body frame 33 by the bolt connection in the state fastened together with the mounting base 31 in three places, the front and back both sides and the front and rear center part.

  As shown in FIGS. 4 and 6, in the region surrounded by the inclined surface portion 51A of the wall member 51 and the fuselage frame 33, the pipe H through which the fuel passes, the fuel remaining amount detection sensor S and the pump 48, as described above, A space Q through which the wiring connecting the control device passes is formed. Since this space Q is partitioned by the wall member 51 with respect to the work area in which the grain storage bag F is provided and the worker performs the grain recovery work, the grain storage bag F and the like are in contact with the piping. It is possible to prevent H and wiring from being damaged.

[Another embodiment]
(1) In the above embodiment, the fuel tank 41 protrudes rearward from the rear end portion of the storage hopper 25. However, the fuel tank 41 is rearward of the rear end portion of the storage hopper 25. It may be provided without protruding.

(2) In the above embodiment, the fuel tank 41 is provided in a state where a part of the fuel tank 41 overlaps with the storage hopper 25 in a plan view. However, the fuel hopper 25 may be provided in a state where most of the area of the fuel tank 41 and all the areas overlap with the storage hopper 25 in a plan view.

(3) In the above embodiment, the work table 49 is supported by the hopper support frame 27. However, instead of this structure, the work table 49 may be supported by a dedicated support frame.

(4) In the above-described embodiment, the oil filter 46 and the water separator 47 as auxiliary fuel devices are provided between the work table 49 and the machine body frame 33. It is good also as a structure provided with the stand 49 in the state which has shifted | deviated from the fuel auxiliary machine. Moreover, the structure which is not provided with such a work table 49 may be sufficient. Not only the oil filter 46 and the water separator 47 as fuel auxiliary machines, but also other devices such as a pump may be included, or another device may be provided.

(5) In the above-described embodiment, the balance weight mounting portion 44 is formed on the machine body frame 33. However, a configuration in which such a balance weight mounting portion 44 is not provided may be used.

(6) In the above embodiment, the pipe H, the fuel remaining amount detection sensor S, and the pump 48 through which the fuel passes through the space Q formed in the region surrounded by the inclined surface portion 51A of the wall member 51 and the body frame 33. However, instead of this configuration, only one of the pipe H and the wiring may be passed. Further, the wall member 51 may have a flat vertical surface portion extending over the entire width in the vertical direction instead of the inclined surface portion 51A and the vertical surface portion 51B.

(7) In the above embodiment, the ordinary type combine is exemplified as the combine. However, the combine can be applied to the self-decomposing combine instead of the normal type combine.

  INDUSTRIAL APPLICABILITY The present invention can be applied to a combine configured to store the threshed grain by a storage hopper.

4 Threshing device 25 Storage hopper 27 Hopper support frame 33 Airframe frame 35 Post 41 Fuel tank 46, 47 Fuel accessory 51 Wall member 51A Inclined surface portion 51B Vertical surface portion Q space

Claims (10)

A storage hopper having a storage space for storing the threshed grain and having a discharge part capable of discharging the grain below the storage space is provided,
A combine in which a fuel tank is provided in a region below the storage hopper in a state of overlapping with the storage hopper in a plan view.   The combine according to claim 1, wherein the fuel tank projects rearward from a rear end portion of the storage hopper. The fuel tank is provided in a state of protruding rearward from the rear end portion of the storage hopper at a position closer to one side of the storage hopper in the left-right direction,
The combine according to claim 1 or 2, wherein a work table is provided at a position on the rear side of the storage hopper and on the other side in the left-right direction of the machine body. A vertical hopper support frame that supports the storage hopper is provided in a state of being erected from the fuselage frame,
The combine according to claim 3, wherein the work table is supported by the hopper support frame in a state of projecting rearward from the rear end portion of the hopper support frame. The work table is provided in a state of being spaced upward with respect to the body frame,
The combine according to claim 4, wherein a fuel auxiliary device that acts on fuel stored in the fuel tank is provided between the work table and the machine frame.   The combine according to any one of claims 1 to 5, wherein a balance weight mounting portion is formed at a position adjacent to the portion of the body frame in which the fuel tank is supported in the left-right direction of the body. A threshing device for threshing the harvested cereal rice bran is provided in a state aligned with the storage hopper in the left-right direction,
7. The fuel tank according to claim 1, wherein the fuel tank is provided at a position closer to the threshing device in the left-right direction of the body and in a position on the rear side of the body in the front-rear direction of the body, in the region below the storage hopper. Combine according to any one of the above. A vertical hopper support frame that supports the storage hopper is provided in a state of being erected from the fuselage frame,
The hopper support frame is located on the threshing device side, and is provided with a plurality of struts located on both front and rear sides,
A wall member is provided in a state extending over the front column and the rear column and rising from the body frame,
The combine according to claim 7, wherein wiring or piping or both are passed through a region between either the threshing device or the fuel tank and the wall member. The wall member has an inclined surface portion in an oblique position positioned on the threshing device side toward the upper side in the longitudinal direction of the machine body, and a vertical surface portion extending upward from the inclined surface portion.
The combine according to claim 8, wherein a space through which the wiring or the pipe or both is formed is formed in a region surrounded by the inclined surface portion and the body frame. A fuel auxiliary device acting on fuel stored in the fuel tank is provided on the rear side of the support column on the rear side and on the opposite side of the threshing device with respect to the fuel tank in the lateral direction of the machine body
The combine according to claim 8 or 9, wherein the wiring and / or the piping are connected to the fuel auxiliary machine.

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