JP2017158451A - Combine harvester - Google Patents

Abstract

PROBLEM TO BE SOLVED: To properly protect a lighting device provided to a grain discharge device in a combine-harvester.SOLUTION: The combine-harvester includes the grain discharge device for discharging grain stored in a grain tank. The grain discharge device includes the lighting device 12 for emitting light toward a discharge direction A2 of a discharge part 11 with floodlight. The combine-harvester includes a protective frame 16 configured into a frame shape by a bar material so as to surround a periphery of the lighting device 12.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a combiner such as a normal type or a self-removing type equipped with a threshing device for threshing a crop cut by a reaping unit and a Glen tank for storing grains from the threshing device.

In the combine, as disclosed in Patent Document 1, there are many those equipped with a grain discharging device that discharges the grain stored in the Glen tank to the outside.
In general, the grain discharging device is provided in a linear conveying unit that conveys the grain discharged from the bottom of the Glen tank, and in a direction intersecting with the conveying direction of the conveying unit, provided at the end of the conveying unit on the lower conveyance side. Many of them are provided with a discharge part for discharging the grain outside.

As a result, the grain of the grain tank is transported upward by the transport part of the grain discharge device, discharged from the discharge part of the grain discharge device to the bottom, and the grain is transferred to a transport vehicle such as a truck. Do work.
In patent document 1, the illuminating device which projects in the discharge direction of the discharge part of a grain discharging apparatus is provided in the grain discharging apparatus so that it can respond to night work.

Japanese Patent Laid-Open No. 10-257819

The grain discharging device is often configured to be long in order to transfer the grain to a truck or other transport vehicle. Therefore, if the lighting device is provided in the grain discharging device, the grain discharging device is used during the grain discharging operation or traveling. Occasionally, the lighting device may come into contact with other objects and be damaged.
An object of this invention is to be able to protect a lighting device appropriately, when a grain discharge device is equipped with a lighting device in a combine.

(Constitution)
The features of the present invention are:
A reaping unit, a threshing device for threshing the crops harvested by the reaping unit, a glen tank for storing grains from the threshing device,
Connected to the Glen tank, provided with a discharge part on the tip side, and provided with a grain discharge device for discharging the grain stored in the Glen tank from the discharge part,
The grain discharging device is equipped with a lighting device that projects light toward the discharging direction of the discharging unit,
A protection frame configured in a frame shape by a bar is provided so as to surround an outer peripheral portion of the lighting device.

(Operation and effect of the invention)
According to the present invention, when the grain discharging device is provided with the lighting device, the protective frame is provided so as to surround the outer periphery of the lighting device, so that the lighting device is appropriately protected from contact with other objects by the protective frame. be able to.
In this case, the frame is a protection frame configured by a bar, and the protection frame has sufficient strength. Therefore, the protection frame can protect the lighting device from contact with other objects with sufficient strength. it can.

(Constitution)
In the present invention,
The grain discharging device is provided with a linear conveying unit that conveys the grain,
The discharge unit is provided at an end of the transfer unit on the lower conveyance side, and can discharge the grain to the outside in a direction intersecting the transfer direction of the transfer unit,
The illumination device is provided in a portion of the discharge unit opposite to the transport unit,
The protective frame is disposed on the opposite side of the discharge unit with respect to the lighting device in the transfer direction of the transfer unit, and is lower than the discharge unit of the discharge unit in the discharge direction of the discharge unit. It is suitable if it is arranged on the side.

(Operation and effect of the invention)
According to the present invention, in the grain discharging apparatus including the transport unit and the discharge unit, the lighting device is provided in a portion on the opposite side of the transport unit in the discharge unit of the grain discharge device. Thereby, seeing from the conveyance direction of the conveyance part of a grain discharge apparatus, the discharge part of a grain discharge apparatus and an illuminating device will overlap, and an illumination apparatus can be provided compactly.
When the lighting device is provided as described above, the possibility of contact between the lighting device and another object is expected to increase in the transport direction of the transport unit of the grain discharge device and the discharge direction of the discharge unit of the grain discharge device. Is done.

According to the present invention, the protective frame (a part of the protective frame) is disposed on the opposite side of the discharge unit of the grain discharge device with respect to the lighting device, and is disposed on the lower discharge side of the discharge unit than the lighting device. ing.
This protects in two directions (the transport direction of the transport part of the grain discharge device and the discharge direction of the discharge part of the grain discharge device) that are expected to increase the possibility of contact between the lighting device and other objects. The lighting device can be appropriately protected from contact with other objects by the frame.

(Constitution)
In the present invention,
The protection frame is a U-shaped frame, and preferably surrounds the lighting device in a state of obliquely intersecting the light projecting direction of the lighting device.

(Operation and effect of the invention)
According to the present invention, by forming the protective frame into a U-shaped frame, the lighting device can be appropriately protected from contact with other objects by the protective frame in at least three directions of the lighting device.

  According to the present invention, the protective frame can be disposed over a relatively long range of the lighting device in the light projecting direction of the lighting device and in the direction intersecting the light projecting direction. Proper protection from contact.

(Constitution)
In the present invention,
A box-shaped cover covering the outer periphery of the lighting device is provided;
It is preferable that the protective frame is provided along the outer peripheral portion of the cover.

(Operation and effect of the invention)
According to this invention, the box-shaped cover which covers the outer peripheral part of an illuminating device is provided separately from the protective frame comprised in frame shape with the bar.
Accordingly, even if a thin object such as a twig enters through the protective frame, the illumination device can be appropriately protected from contact with the thin object by the cover.

(Constitution)
In the present invention,
It is preferable that notches that allow the bent portions of the protective frame to enter are provided at the corners of the cover.

(Operation and effect of the invention)
When the protective frame is provided along the outer periphery of the cover, the bent portion of the protective frame enters the protective cover side.
According to the present invention, when the cover is provided with a notch at the corner of the cover and the protection frame is provided along the outer periphery of the cover, the bent portion of the protection frame enters the notch of the cover. Yes.
Thereby, parts other than the bent part (straight line part or the like) in the protective frame can be reasonably approached to parts other than the cutout part of the cover, and the protective frame and the cover can be arranged in a compact manner.

It is a whole side view of a combine. It is a whole top view of a combine. It is a side view of the vicinity of the discharge part of a grain discharge device, an illuminating device, a protective frame, and a cover. It is a front view of the vicinity of the discharge part of a grain discharge device, an illuminating device, a protective frame, and a cover. It is a top view of the vicinity of the discharge part of a grain discharge device, an illuminating device, a protective frame, and a cover. It is a perspective view of a protection frame and a cover. It is a vertical rear view of the bottom part of a Glen tank. It is a perspective view of the board member attached to the bottom part of a Glen tank. It is the exploded view which looked at the attachment state of the plate member and buckle member to the bottom part of a Glen tank from the right side. It is the exploded view which looked at the attachment state of the plate member and lid member to the bottom part of a Glen tank from the left side. It is a front view of the vicinity of a driving part and a canopy. It is a vertical side view of the supporting member which supports a canopy. It is a vertical front view of the supporting member which supports a canopy. It is a cross-sectional top view of the supporting member which supports a canopy. It is a disassembled perspective view of a canopy. It is a cross-sectional top view of the connection part of a canopy and a support frame. It is a vertical front view of the connection part of a canopy and a support frame. It is a vertical side view of the connection part of a canopy and a support frame. It is a perspective view of the cover attached to the connection part of a canopy and a support frame. It is a perspective view of the cover attached to the connection part of a canopy and a support frame.

  1 to 20, F indicates the “forward direction” of the aircraft, B indicates the “rear direction” of the aircraft, U indicates the “upward direction” of the aircraft, and D indicates the “downward direction” of the aircraft. ing. In the state of facing the front of the aircraft, R indicates the “right direction” of the aircraft and L indicates the “left direction” of the aircraft.

[1]
The overall structure of the combine will be described.
As shown in FIG. 1 and FIG. 2, a feeder 2 is connected to the front part of the airframe supported by the crawler type right and left traveling apparatuses 1, and a cutting part 3 is connected to the front part of the feeder 2. The threshing device 4 is provided at the left part of the aircraft, the driving unit 5 is provided at the right front part of the aircraft, and the Glen tank 6 is provided at the right rear part of the aircraft. Has been.

  As shown in FIGS. 1 and 2, the cereals (corresponding to crops) in the field are cut by the reaping unit 3, and all of the chopped culms are transferred from the reaping unit 3 to the threshing device 4 via the feeder 2. Be transported. In the threshing device 4, the cereal husk is threshed, and the grains recovered by the threshing device 4 are conveyed to the Glen tank 6 and stored in the Glen tank 6.

[2]
Next, the grain discharging device 8 that discharges the grains stored in the Glen tank 6 will be described.
As shown in FIGS. 1 and 2, a bottom screw 7 is provided at the bottom of the Glen tank 6, and the grains stored in the Glen tank 6 are directed to the outlet 6 a at the rear lower part of the Glen tank 6 by the bottom screw 7. The grain that has come out from the outlet 6 a of the Glen tank 6 is discharged to the outside by the grain discharging device 8.

  As shown in FIGS. 1 and 2, the grain discharging device 8 includes a vertical conveyance unit 9 connected to the outlet 6 a of the Glen tank 6 and a horizontal conveyance unit 10 (conveyance unit) connected to the upper part of the vertical conveyance unit 9. And a discharge unit 11 provided on the leading end side of the horizontal conveyance unit 10 (on the conveyance lower side of the horizontal conveyance unit 10 in the conveyance direction A1 (see FIG. 3) of the horizontal conveyance unit 10). Thus, the horizontal conveyance unit 10 is connected to the Glen tank 6 (exit 6a) via the vertical conveyance unit 9.

  As shown in FIGS. 1 and 2, the vertical conveyance unit 9 is configured such that a conveyance screw 9 a is rotatably supported inside a body unit 9 b that is a linear round pipe. It is supported on the side in the vertical direction.

  As shown in FIGS. 1 and 2, the horizontal conveyance unit 10 is configured such that a conveyance screw 10 a is rotatably supported inside a body unit 10 b that is a linear round pipe. It is supported laterally at the top.

  As shown in FIGS. 1, 3, and 4, the discharge unit 11 is formed in a cylindrical shape having a square cross section, and is provided at the front end side of the horizontal conveyance unit 10 (the end portion on the lower conveyance side of the horizontal conveyance unit 10). It is provided in the downward direction intersecting (orthogonal) with the transport direction A1 of the lateral transport unit 10 (longitudinal direction of the lateral transport unit 10).

  As shown in FIGS. 1 and 2, the bottom screw 7 and the conveying screw 9a of the vertical conveying unit 9 are connected by a bevel gear mechanism (not shown), and the conveying screw 9a of the vertical conveying unit 9 and the horizontal conveying unit are connected. Ten conveying screws 10a are connected by a bevel gear mechanism (not shown).

  As shown in FIGS. 1 and 2, when the bottom screw 7 is rotationally driven by the power of the engine (not shown), the conveying screw 9a of the vertical conveying portion 9 is rotationally driven in conjunction with this, and this is interlocked with this. Then, the transport screw 10a of the lateral transport unit 10 is rotationally driven.

  Thereby, as shown in FIGS. 1, 2, and 3, the grain stored in the Glen tank 6 is conveyed to the outlet 6 a of the Glen tank 6 by the bottom screw 7, and the inside of the vertical conveying unit 9 is conveyed upward. Then, the inside of the horizontal conveyance unit 10 is conveyed sideways (see the conveyance direction A1 of the horizontal conveyance unit 10), and discharged from the discharge unit 11 to the lower outside (see the discharge direction A2 of the discharge unit 11). (Corresponding to a state in which the transport direction A1 of the lateral transport unit 10 and the discharge direction A2 of the discharge unit 11 intersect).

  As shown in FIGS. 1 and 2, the vertical conveyance unit 9 is supported so as to be pivotable around the vertical axis, and the horizontal conveyance unit 10 is swingable up and down around the horizontal axis. , And supported by the vertical conveyance unit 9. As a result, the discharge unit 11 can be moved to a desired position by driving the vertical transfer unit 9 to rotate to turn the horizontal transfer unit 10 and swinging the horizontal transfer unit 10 up and down.

[3]
Next, the lighting device 12 provided in the grain discharging device 8 will be described.
As shown in FIGS. 3, 4, and 5, in the grain discharging device 8, a bracket 13 is connected to a portion 11 a on the opposite side of the discharging portion 11 from the lateral conveying portion 10, and the lighting device 12 is supported by the bracket 13. Has been. The illuminating device 12 projects light toward the discharge direction A2 of the discharge unit 11 substantially parallel to the discharge direction A2 of the discharge unit 11.

  As shown in FIGS. 3 and 4, the cover member 10 c, which is an angle member, is disposed on the upper portion of the body portion 10 b of the horizontal conveyance unit 10 in the longitudinal direction of the body portion 10 b of the horizontal conveyance unit 10 (the conveyance direction of the horizontal conveyance unit 10). It is connected along A1). A wiring 14 extending from the machine body is disposed between the body portion 10 b of the lateral conveyance unit 10 and the cover member 10 c and connected to the lighting device 12.

  As a result, as shown in FIGS. 3 and 4, the discharge unit 11 and the illumination device 12 overlap with each other when viewed from the transfer direction A <b> 1 of the horizontal transfer unit 10, and illumination is performed within the width of the discharge unit 11. The device 12 is ready to enter (see FIG. 4).

[4]
Next, the cover 15 and the protective frame 16 provided for the lighting device 12 will be described.
As shown in FIG. 6, a cover 15 is formed in a box shape by bending a metal plate, and the cover 15 includes a first front surface portion 15a, a second front surface portion 15b, and right and left lateral surface portions 15c. ing.

  As shown in FIG. 6, the cover 15 is provided with a notch 15e between the second front surface portion 15b and the right lateral surface portion 15c (corresponding to a corner portion), and the second front surface portion 15b and the left side surface portion 15c. A notch 15e is provided between the horizontal surface 15c (corresponding to a corner). Cutout right and left attachment portions 15f are provided at the ends of the right and left lateral surface portions 15c.

  As shown in FIG. 6, a metal round pipe (corresponding to a bar) is bent into a U shape to form a protective frame 16 in a frame shape. The protective frame 16 includes a front portion 16a, right and left portions. A horizontal portion 16b and cutout right and left attachment portions 16c are provided. An arc-shaped bent portion 16d is provided between the front portion 16a and the right lateral portion 16b, and an arc-shaped bent portion 16d is provided between the front portion 16a and the left lateral portion 16b. Yes.

  As shown in FIGS. 5 and 6, the front portion 16 a of the protective frame 16 contacts the second front surface portion 15 b of the cover 15, and the lateral portion 16 b of the protective frame 16 contacts the lateral surface portion 15 c of the cover 15. In this state, the lateral portion 16b of the protective frame 16 is connected to the lateral surface portion 15c of the cover 15 by welding (corresponding to the state in which the protective frame 16 is provided along the outer peripheral portion of the cover 15).

  In the state shown in FIGS. 5 and 6, the bent portion 16 d of the protective frame 16 enters the cutout portion 15 e of the cover 15 from the outside, and the mounting portion 16 c of the protective frame 16 is connected to the mounting portion 15 f on the cover 15. Located in the same position.

[5]
Next, the attachment of the cover 15 and the protective frame 16 and the positional relationship between the lighting device 12 and the cover 15 and the protective frame 16 will be described.
As shown in FIGS. 3, 4, and 5, bolts 17 are attached to the portion of the discharge unit 11 on the lighting device 12 side so as to face right and left. The cover 15 and the protective frame 16 are attached so that the bolts 17 enter the attachment portions 15 f and 16 c of the cover 15 and the protective frame 16, and a nut 60 is fastened to the bolt 17. Thereby, the cover 15 and the protection frame 16 are connected to the opposite side of the grain discharging device 8 to the side of the horizontal conveying unit 10 in the discharging unit 11.

  As shown in FIGS. 3, 4, and 5, when the cover 15 and the protection frame 16 are attached to the grain discharging device 8, the outer peripheral portion of the lighting device 12 is covered by the cover 15, The frame 16 surrounds the outer periphery of the lighting device 12.

  As shown in FIGS. 3, 4, and 5, an opening is formed between the portion 11 a of the discharge portion 11 and the upper end portion of the first front surface portion 15 a of the cover 15, and the wiring 14 is connected to the discharge portion 11. Are arranged in the vertical direction through openings of the portion 11a and the upper end portion of the first front surface portion 15a of the cover 15.

  As shown in FIG. 3, the second front surface portion 15b of the cover 15 and the front portion 16a of the protective frame 16 are opposite to the discharge unit 11 by a distance B1 with respect to the illumination device 12 in the transport direction A1 of the lateral transport unit 10. Is arranged. The front portion 16a of the protective frame 16 is disposed on the lower discharge side of the discharge unit 11 in the discharge direction A2 by a distance B2 from the illumination device 12 in the discharge direction A2 of the discharge unit 11. The protection frame 16 (lateral portion 16b) surrounds the lighting device 12 in a state where it obliquely intersects with the light projecting direction of the lighting device 12 (the discharge direction A2 of the discharge portion 11).

[6]
Next, the structure of the bottom part of the Glen tank 6 is demonstrated.
As shown in FIG. 7, an outer inclined wall 18 positioned on the outer side (right side) of the aircraft and an inner inclined wall 19 positioned on the left and right center side of the aircraft are provided at the bottom of the Glen tank 6. A space between 18 and the inner inclined wall 19 is an opening 6b for maintenance along the front-rear direction of the Glen tank 6. As shown in FIGS. 9 and 10, a plate member 22 having high wear resistance is attached across the outer inclined wall 18 and the inner inclined wall 19 in the vicinity of the outlet 6 a of the Glen tank 6.

  As shown in FIGS. 7 and 10, an openable / closable lid member 20 that closes the opening 6 b of the Glen tank 6 is provided. The lid member 20 is configured by bending a plate material, and includes a hinge portion 20a for opening and closing and a hook portion 20b for fixing at a closed position, and a plate member 20c having high wear resistance is attached. Yes. A buckle member 21 for fixing the lid member 20 in the closed position is provided.

  As shown in FIG. 7, a plate member 23 having high wear resistance is attached to the inner surfaces of the outer inclined wall 18 and the inner inclined wall 19. The plate member 23 attached to the outer inclined wall 18 and the plate member 23 attached to the inner inclined wall 19 are the same, and the two plate members 23 are turned upside down to be attached to the outer inclined wall 18 and the inner inclined wall 19. It is attached.

[7]
Next, attachment of the lid member 20, the two buckle members 21, and the two plate members 23 at the bottom of the Glen tank 6 will be described.
As shown in FIG. 9, five long holes 18 a, 18 b, 18 c, 18 d, and 18 e along the front-rear direction are opened on the outer inclined wall 18 in the vicinity of the opening 6 b of the Glen tank 6. . As shown in FIG. 10, five long holes 19 a, 19 b, 19 c, 19 d, 19 e along the front-rear direction are opened in the inner inclined wall 19 at a part slightly away from the opening 6 b of the Glen tank 6. Has been.

  As shown in FIGS. 8, 9, and 10, the plate member 23 is provided with five bolts 23a, 23b, 23c, 23d, and 23e. Two long holes 21 a are opened in the buckle member 21 along the vertical direction. One long hole 20d is opened in the hinge portion 20a of the lid member 20 along the vertical direction.

  With the above structure, on the inner surface of the outer inclined wall 18, as shown in FIGS. 7 and 9, the bolts 23a to 23e of the plate member 23 are inserted into the long holes 18a to 18e of the outer inclined wall 18 (the bolt 23a and The long hole 18a, the bolt 23b and the long hole 18b, the bolt 23c and the long hole 18c, the bolt 23d and the long hole 18d, the bolt 23e and the long hole 18e), and the plate member 23 are attached to the inner surface of the outer inclined wall 18.

7 and 9, the long hole 21a of the buckle member 21 is inserted into the bolts 23a and 23b and the bolts 23c and 23d of the plate member 23 on the outer surface of the outer inclined wall 18, and the bolts 23a to 23d of the plate member 23 are inserted. A nut 24 is attached and tightened to 23 e to connect the plate member 23 and the buckle member 21 to the outer inclined wall 18.
In this case, the position of the plate member 23 in the front-rear direction can be finely adjusted by the long holes 18 a to 18 e of the outer inclined wall 18. The vertical position of the buckle member 21 can be finely adjusted by the long hole 21a of the buckle member 21.

  On the inner surface of the inner inclined wall 19, as shown in FIGS. 7 and 10, the plate member 23 is turned upside down to insert the bolts 23 a to 23 e of the plate member 23 into the long holes 19 a to 19 e of the inner inclined wall 19. (The bolt 23a and the long hole 19a, the bolt 23b and the long hole 19b, the bolt 23c and the long hole 19c, the bolt 23d and the long hole 19d, the bolt 23e and the long hole 19e), and the plate member 23 is attached to the inner surface of the inner inclined wall 19 .

As shown in FIGS. 7 and 10, the long hole 20 d of the lid member 20 (hinge portion 20 a) is inserted into the bolts 23 a and 23 c of the plate member 23 on the outer surface of the inner inclined wall 19. A nut 24 is attached and tightened to 23 e to connect the plate member 23 and the lid member 20 to the inner inclined wall 19.
In this case, the position of the plate member 23 in the front-rear direction can be finely adjusted by the long holes 19 a to 19 e of the inner inclined wall 19. The vertical position of the lid member 20 (hinge part 20a) can be finely adjusted by the long hole 20d of the lid member 20 (hinge part 20a).

[7]
Next, a support structure for the canopy 28 that covers the upper side of the operation unit 5 will be described.
As shown in FIGS. 1, 2, and 11, the driving unit 5 is provided with a driving seat 25, an operation lever 26 that performs a steering operation of the right and left traveling devices 1 and a lifting operation of the reaping unit 3, a traveling transmission ( A shift lever 27 and the like for operating a not shown) are provided.

As shown in FIGS. 1, 2, and 3, a support frame 29 that supports the canopy 28 is provided at the upper portion, and a support member 30 that supports the lower portion of the support frame 29 is provided.
As shown in FIGS. 12, 13, and 14, the support member 30 is formed in a square pipe shape by connecting a long flat plate-like second member 32 to a channel-like first member 31 by welding. Brackets 33 and 34 formed by bending are connected to the upper and lower portions of the first and second members 31 and 32 by welding.

  As shown in FIGS. 11 and 12, a reinforcing frame 35 is coupled to the front wall 6c of the Glen tank 6 along the left-right direction. The bracket 33 of the support member 30 is bolted to the frame 35, and the bracket 34 of the support member 30 is bolted to the front wall 6 c of the glen tank 6.

  As shown in FIGS. 12, 13, and 14, in the support member 30, the first member 31 is provided with one opening 31 a for position fixing, and a large-diameter opening is provided at a portion facing the opening 31 a. 31b is provided. A contact plate 36 having an opening is connected to the opening 31a of the first member 31 by welding, and a nut 37 is connected to the contact plate 36 by welding.

  As shown in FIGS. 12, 13, and 14, the support frame 29 is formed by bending a square pipe, and is provided with a plurality of openings 29a for position fixing along the longitudinal direction, and a pin 29b is provided at the lower part. Connected by welding. The support frame 29 is inserted into the support member 30 from above so as to be movable up and down, and the support frame 29 is extended between the pins 29b of the support frame 29 and the bracket 34 inside the support frame 29 and the support member 30. A spring 38 is provided for biasing upward.

  As shown in FIGS. 12, 13, and 14, a jack bolt type fixing member 39 is provided. The fixing member 39 includes a hexagonal bar-shaped large-diameter portion 39a, a round-bar-shaped small-diameter portion 39b, a screw portion 39c provided at the tip of the small-diameter portion 39b, and an operation bar 39d for rotational operation provided in the large-diameter portion 39a. I have.

With the above structure, as shown in FIGS. 12, 13, and 14, the support frame 29 is moved up and down with respect to the support member 30, and the desired opening 29 a of the support frame 29 is moved to the support member 30 (first member 31). ) At the positions of the openings 31a and 31b.
Next, the fixing member 39 is inserted from the opening 31b of the support member 30 (first member 31), and the fixing member 39 is opened to the openings 31a and 31b of the support member 30 (first member 31) and the support frame 29. The screw member 39c of the fixing member 39 is inserted into the nut 37, and the fixing member 39 is tightened.

Accordingly, as shown in FIGS. 13 and 14, the support frame 29 is formed on the inner surface of the support member 30 (first member 31) by the step portion 39 e between the large diameter portion 39 a and the small diameter portion 39 b of the fixing member 39. The support frame 29 is fixed to the support member 30 by being pressed.
The fixing member 39 is removed, and the support frame 29 is moved up and down with respect to the support member 30 so that another opening 29a of the support frame 29 is positioned at the positions of the openings 31a and 31b of the support member 30 (first member 31). The height of the support frame 29 and the canopy 28 can be changed by positioning and attaching the fixing member 39 again. In this case, when the support frame 29 is raised, the raising operation of the support frame 29 is assisted by the spring 38.

[8]
Next, the structure of the connecting portion between the canopy 28 and the support frame 29 will be described.
As shown in FIG. 15, the horizontal frames 41, 42, and 43 are connected across the right and left portions of the rectangular frame 40 in plan view, and the frame extends between the right and left portions of the frame 40 and the horizontal frame 42. 44 are connected, and the frame-shaped frame 45 is comprised. A canvas (canvas) cover 46 is attached to the frame 45 to form the canopy 28.

  As shown in FIGS. 16, 17, and 18, in the canopy 28, right and left support plates 47 are connected to intermediate portions of the horizontal frames 41 and 42, and a pipe member 48 extends across the right and left support plates 47. Are connected. A fulcrum shaft 49 is attached over the right and left support plates 47, and an operation lever 50 is supported swingably around the fulcrum shaft 49 on the left side of the fulcrum shaft 49. Is supported around the fulcrum shaft 49 so as to be swingable.

  As shown in FIGS. 16, 17, and 18, the shaft member 52 is coupled across the operation lever 50 and the arm 51, and the operation lever 50, the arm 51, and the shaft member 52 swing together around the fulcrum shaft 49. To do. A spring 54 is connected across the bracket 53 connected across the right support plate 47 and the pipe member 48 and the bracket 51a of the arm 51, and the operation lever 50, arm 51 and shaft member 52 are connected to the spring 54. Therefore, it is biased toward the pipe member 48 side.

  As shown in FIGS. 16, 17, and 18, the horizontal frame 55 is connected to the end portion of the support frame 29, and the right and left fulcrum members 56 are connected to the horizontal frame 55. The fulcrum member 56 includes a vertically long opening 56a, a plurality of recessed openings 56b connected to the opening 56a, and upper and lower bent portions 56c. The left fulcrum member 56 is provided with a vertically long opening 56d.

As shown in FIGS. 16, 17, and 18, with the right and left support plates 47 disposed inside the right and left fulcrum members 56, the fulcrum shaft 57 is connected to the right and left fulcrum members 56, right and left Inserted into the support plate 47 and the pipe member 48, the fulcrum shaft 57 is connected to the right and left fulcrum members 56.
Thereby, the canopy 28 is supported so as to be swingable up and down around the fulcrum shaft 57. In this case, the end of the shaft member 52 is inserted into the openings 56 a and 56 b of the right and left fulcrum members 56.

  As shown in FIGS. 16, 17, and 18, by inserting the end of the shaft member 52 into the opening 56 b of the right and left fulcrum members 56, the posture of the canopy 28 can be fixed. By operating the operation lever 50, the end of the shaft member 52 is taken out of the opening 56b of the right and left fulcrum members 56 and inserted into another opening 56b, thereby changing the posture of the canopy 28 up and down. Can do.

  As shown in FIGS. 16, 17 and 18, a nut 47 a is connected to the left support plate 47, and a jack bolt type fixing member 58 similar to the fixing member 39 (see FIGS. 13 and 14) is provided. Yes. The fixing member 58 is inserted into the nut 47 a of the left support plate 47 while being passed through the opening 56 d of the left fulcrum member 56.

Accordingly, as shown in FIGS. 16, 17, and 18, the fixing member 58 is inserted in a state where the end of the shaft member 52 is inserted into the opening 56 b of the right and left fulcrum members 56 and the posture of the canopy 28 is fixed. By tightening, the play of the canopy 28 can be suppressed.
When the operation lever 50 is operated to change the posture of the canopy 28 up and down, the posture of the canopy 28 can be changed up and down by loosening the fixing member 58, and the fixing member 58 is the left fulcrum member 56. It moves along the opening 56d.

[9]
Next, the cover 59 attached to the right and left fulcrum members 56 in the canopy 28 will be described.
As shown in FIGS. 19 and 20, the cover 59 is integrally formed of synthetic resin, and the cover 59 attached to the right fulcrum member 56 and the cover 59 attached to the left fulcrum member 56 are the same. Is.

  As shown in FIGS. 19 and 20, the cover 59 has one first claw portion 59a provided at the edge portion, two second claw portions 59b provided at the edge portion, and 2 provided on the inner surface. Convex portions 59c, central opening 59d (for inserting the fixing member 58), one opening 59e for removing the mold from the first claw 59a during molding, and gold from the second claw 59b during molding Two openings 59f for removing the mold and two reinforcing ribs 59g provided on the outer surface are provided.

  With the above structure, when the cover 59 is attached to the fulcrum member 56, as shown in FIGS. 16, 17, and 18, the first claw portion 59a of the cover 59 is moved while the cover 59 is inclined with respect to the fulcrum member 56. The cover 59 is pushed against the end of the fulcrum member 56 and the cover 59 is pushed toward the fulcrum member 56, and the convex portion 59 c of the cover 59 is applied to the fulcrum member 56.

Next, as shown in FIGS. 16, 17, and 18, while increasing the interval near the second claw portion 59 b of the cover 59, the vicinity of the rib 59 g of the cover 59 is pushed toward the fulcrum member 56 side to The two claw portions 59 b are hung on the outer arc surface of the bent portion 56 c of the fulcrum member 56.
Accordingly, the cover 59 is attached to the fulcrum member 56 without backlash by the engagement of the first claw portion 59a of the cover 59, the contact of the convex portion 59c of the cover 59, and the engagement of the second claw portion 59b of the cover 59. .

[First Alternative Embodiment of the Invention]
In the above-mentioned [Mode for Carrying Out the Invention], the cover 15 may not be provided, and only the protective frame 16 may be provided.
The lighting device 12 may be provided in the right or left lateral portion of the discharge unit 11 instead of being provided in the portion 11a of the discharge unit 11 opposite to the lateral conveyance unit 10 in the grain discharge device 8. You may prepare in the part close | similar to the discharge part 11 in the horizontal conveyance part 10. FIG.

[Second Embodiment of the Invention]
In the above-mentioned [Mode for Carrying Out the Invention] and [First Another Mode for Carrying Out the Invention], the grain discharging apparatus 8 is not provided with the vertical conveying section 9 and the horizontal conveying section 10, but the grain discharging apparatus 8 is provided. Alternatively, only the vertical conveyance unit 9 may be provided, and the discharge unit 11 may be provided on the leading end side of the vertical conveyance unit 9. When comprised in this way, the grain discharging apparatus 8 (vertical conveyance part 9) should just be comprised so that it may rock | fluctuate up and down around the horizontal axis center along the bottom screw 7, and a posture may be changed.

[Third Another Embodiment of the Invention]
In the above-mentioned [second alternative embodiment of the invention], the conveying screw 9a of the grain discharging device 8 (vertical conveying unit 9) is abolished, and a rotationally driven splashing member (not shown) is replaced with a grain. You may provide in the base of the discharge apparatus 8 (vertical conveyance part 9).
If comprised in this way, the grain which came out from the exit 6a of the Glen tank 6 will be jumped off by the jumping member, and it will fly inside the trunk | drum 9b of the grain discharging apparatus 8 (vertical conveyance part 9). , Discharged from the discharge unit 11.

[Fourth Embodiment of the Invention]
In the above-mentioned [Mode for Carrying Out the Invention] and [First Another Mode for Carrying Out the Invention] to [Third Another Mode for Carrying Out the Invention], the protective frame 16 is not a round pipe but a square pipe or a triangular pipe. You may comprise pipe members of various cross-sectional shapes, such as, solid members of various cross-sectional shapes, such as a circle, a square, and a triangle, and various bar materials, such as an angle material and a channel material. In this case, the protective frame 16 may be made of not only a metal but also a hard synthetic resin material.
Similarly to the protective frame 16, the cover 15 may be made of not only metal but also a hard synthetic resin material.

[Fifth Embodiment of the Invention]
In the above-mentioned [Mode for Carrying Out the Invention] and [First Another Mode for Carrying Out the Invention] to [The Fourth Another Mode for Carrying Out the Invention], the fixing member 58 is not provided on the left support plate 47, The right support plate 47 may be provided, or both the right and left support plates 47 may be provided.

  The present invention is not limited to the combination of a normal type (whole-throw type) combine, but also a self-removing type combine (provided with a feed chain, with the stock chain side of the harvested cereal held by the feed chain, Can also be applied to a type of combine) that inserts the tip of the head into a threshing device and performs threshing treatment.

DESCRIPTION OF SYMBOLS 3 Cutting part 4 Threshing device 6 Glen tank 8 Grain discharge device 10 Conveyance part 11 Discharge part 12 Illumination device 15 Cover 15e Cover cutout part 16 Protection frame 16d Folding part of protection frame A1 Conveyance direction of conveyance part A2 Discharge part Ejection direction

Claims (5)

A reaping unit, a threshing device for threshing the crops harvested by the reaping unit, a glen tank for storing grains from the threshing device,
Connected to the Glen tank, provided with a discharge part on the tip side, and provided with a grain discharge device for discharging the grain stored in the Glen tank from the discharge part,
The grain discharging device is equipped with a lighting device that projects light toward the discharging direction of the discharging unit,
A combine in which a protective frame configured in a frame shape by a bar is provided so as to surround an outer peripheral portion of the lighting device. The grain discharging device is provided with a linear conveying unit that conveys the grain,
The discharge unit is provided at an end of the transfer unit on the lower conveyance side, and can discharge the grain to the outside in a direction intersecting the transfer direction of the transfer unit,
The illumination device is provided in a portion of the discharge unit opposite to the transport unit,
The protective frame is disposed on the opposite side of the discharge unit with respect to the lighting device in the transfer direction of the transfer unit, and is lower than the discharge unit of the discharge unit in the discharge direction of the discharge unit. The combine according to claim 1 arranged on the side.   The combine according to claim 1 or 2, wherein the protection frame is a U-shaped frame and surrounds the lighting device in a state of obliquely intersecting a light projecting direction of the lighting device. A box-shaped cover covering the outer periphery of the lighting device is provided;
The combine according to any one of claims 1 to 3, wherein the protective frame is provided along an outer peripheral portion of the cover.   The combine according to claim 4, wherein a cutout portion that allows the bent portion of the protective frame to enter is provided at a corner portion of the cover.

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