JP2008212058A - Combine - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a combine furnished with an operation tool for a grain carrying-out unloader in a position where even a poorly skilled operator can easily perform an operation by sensuously recognizing an operating direction. <P>SOLUTION: The slewing operation tool 30 for inputting a command for the slewing drive of a cross-feed conveyor of a grain carrying-out unloader, and an elevating operation tool 31 for inputting a command for the drive of the rise/fall and swing the cross-feed conveyor are provided in an operation tool attaching part 26 near a driver's seat 20. A plurality of attaching faces 26a, 26b and 26c, on which extension lines along an operation tool attaching face cross with each other, are formed on the operation tool attaching part 26; and the slewing operation tool 30 and the elevating operation tool 31 are provided in a parted manner on the separate attaching faces 26b and 26c different from each other. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an improvement of a combine including an unloader device for carrying out a grain that is configured to lift and convey a grain taken out from a grain storage unit and discharge the grain to an external predetermined position.

  The unloader device for carrying out the grain used in the conventional combine is configured to operate the swing lever and the swing swing by operating the operation lever arranged on the rear side of the driver's seat in the front / rear / left / right cross direction. (See Patent Document 1).

Japanese Patent Laying-Open No. 2003-325032 (paragraph number [0042] and FIGS. 1, 2 and 6)

With this type of combine, operations such as steering operations while the aircraft is traveling, aircraft attitude control according to the field situation, lifting operation of the pre-cutting processing unit, or control of the aircraft traveling speed according to the lying state of the planting stems, etc. An operation tool for performing various control operations with high operation frequency during traveling and various display devices are arranged in a front portion that is easy to operate in a forward-facing posture mounted on the seat or is easy to see.
Therefore, the unloader device for unloading the grains that is not frequently used tends to be disposed near the rear part of the driver seat, which is difficult for the driver to see during the driving operation and is often operated by groping. .
For this reason, if it is an expert who is accustomed to the operation, it is possible to undoubtedly perform the operation of raising and lowering the unloader for carrying out the grain relatively well, but for the driver who is not used to the work so much It has been difficult to operate quickly without making a mistake in the operating direction of the unloader for carrying out the grain.

  An object of the present invention is to provide a combine provided with an operation tool in an unloader device for carrying out a grain, which is easy to operate even by a driver who is not so used to work.

The technical means of the present invention taken in order to achieve the above object has the structural features and operational effects in the following points.
[Solution 1]
As described in claim 1, a grain carry-out composed of a vertical feed conveyor that lifts and conveys the grain taken out from the grain storage unit, and a horizontal feed conveyor connected to the upper end of the vertical feed conveyor. In a combine equipped with an unloader device for
A turning actuator for turning the transverse conveyor around a vertical axis, and an elevating actuator for swinging the transverse conveyor around a horizontal axis;
A turning operation tool that inputs a turning operation command to a control device that controls the operation of the turning actuator, and a lifting operation tool that inputs a hoisting operation command to the control device that controls the operation of the lifting actuator. , In preparation for the operation tool mounting point near the driver's seat,
A plurality of attachment surfaces where extension lines along the operation tool attachment surface intersect with each other are formed at the operation tool attachment location, and the turning operation tool and the lifting operation tool are distributed to different attachment surfaces. It is characterized by being provided.

[Function and effect]
According to the above configuration, the turning operation tool and the lifting operation tool are not separated from one operation tool but separated from each other, and the turning operation tool and the lifting operation tool are extended along the operation tool mounting surface. By recognizing which operating tool is arranged on a plurality of mounting surfaces where the lines intersect each other, it is possible to determine whether the operating tool is a swivel operating tool. It can be determined whether it is a tool. Thereafter, if only the operation direction of the selected operation tool is stored in advance, it becomes possible to correctly operate the target operation tool in the target direction and to display the intended work state.
In other words, the mounting surface should be different so that the operating tool can be recognized even in the groping state, and the selected operating tool can be controlled in a simple two-way switching operation. Therefore, it is easy to operate in a state where there are few operation mistakes compared to the operation in the cross direction of the conventional single operation tool.

[Solution 2]
In the unloader for carrying out the grain of the present invention, as described in claim 2, the attachment surface of the operation tool attachment portion is such that the surface direction is closer to the horizontal than the other, and the surface direction is perpendicular to the other. It is good to provide a near mounting surface, and to provide the turning operation tool on the mounting surface near the horizontal, and the lifting operation tool on the mounting surface near the vertical.

[Function and effect]
According to the above configuration, the turning operation tool for performing the turning operation around the vertical axis is provided on the mounting surface that is closer to the horizontal than the other, and the swinging tool is used for swinging around the horizontal axis. Since the lifting operation tool is provided on the mounting surface that is closer to the vertical than the other, it is easy to sensuously select the operation tool with few errors.

[Solution 3]
In the unloader for carrying out the grain of the present invention, as described in claim 3, the turning operation tool is arranged in a state along the horizontal direction, and the switching operation direction is set to a direction that matches the turning direction of the transverse conveyor. In addition, the lifting operation tool may be arranged in a state along the vertical direction, and the switching operation direction may be set to a direction that matches the lifting direction of the transverse feed conveyor.

[Function and effect]
According to the above configuration, the turning operation tool is disposed along the horizontal direction, the lifting operation tool is disposed along the vertical direction, and the switching operation direction of each operation tool matches the turning direction of the laterally-feed conveyor. Since the direction is set, the operation direction of the operation tool is easy to operate with few mistakes.

[Overall structure of the combine]
Hereinafter, an embodiment of a combine provided with an unloader device for carrying out the grain of the present invention will be described based on the drawings.
As shown in FIGS. 1 and 2, the combine is attached to the front part of the machine body V provided on the upper part of the pair of left and right crawler travel devices 1 in a state in which the cutting unit 3 is swingable around the horizontal axis. The machine body V includes a control unit 2, a threshing unit 4 that threshs and sorts the harvested cereal, a grain tank 5 that stores grains sorted and collected by the threshing part 4, and a grain stored in the grain tank 5. Is provided with an unloader A for carrying out the grain for discharging the rice to the outside.
In the control unit 2, a main control panel 23 having a steering operation lever 22 and the like is disposed on the upper surface side of a control tower 21 standing in front of the driver seat 20, and a speed change is made on the left side of the driver seat 20. A sub-control panel 25 having an operation tool 24 and the like is provided.

[Unloader for grain export]
The unloader A for carrying out the grain is a transfer cylinder that constitutes a transfer path of the grain from the grain storage part to the discharge port, and a moving component in the cylinder axis direction of the grain by rotational driving in the transfer cylinder. Specifically, a bottom screw conveyor provided in a state along the front-rear direction at the bottom of the Glen tank 5 that is a grain storage unit. 7, a vertical feed conveyor 8 provided upward from the conveying terminal end of the bottom screw conveyor 7, and a horizontal feed conveyor 9 for delivering the grain provided above the vertical feed conveyor 8. ing.

That is, in the bottom screw conveyor 7, a bottom conveyor screw 7A provided at the bottom of the Glen tank 5 constitutes a driving rotating body, and a guide rod portion 7B at the bottom of the Glen tank 5 that houses the bottom conveyor screw 7A serves as a conveyance path. A conveying cylinder is configured.
Further, an output pulley 13A of a belt tension type discharge clutch 13 for intermittently transmitting power from the engine E provided at the right front part of the machine body to the bottom screw conveyor 7 is attached to the conveyance start end of the bottom conveyor screw 7A. .
In the vertical feed conveyor 8, a vertical conveyor screw 8A linked to the bottom conveyor screw 7A via a bevel gear constitutes a driving rotary body, and covers the vertical conveyor screw 8A and is connected to the Glen tank 5 in communication with it. 8B constitutes a conveying cylinder.
In the transverse conveyor 9 for carrying out the grain, the conveyor screw 9A interlocked and connected to the vertical conveyor screw 8A via a bevel gear constitutes a driving rotary body, covers it and rotates to the cylindrical case 8B of the vertical conveyor screw 8A. A cylindrical case 9B connected in communication via the moving case 6 constitutes a transport cylinder.

The base end portion of the horizontal conveying conveyor 9 for carrying out the grain is arranged around the vertical axis P2 on the cylindrical case 8B of the vertical conveyor screw 8A via the rotating case 6 provided on the upper portion of the vertical conveying conveyor 8. It is connected so as to be capable of relative rotation, and is connected to the cylindrical case 9B of the transverse feed conveyor 9 so as to be capable of relative rotation about the horizontal axis P1. A grain outlet 10 in a downward direction is formed at the tip of the cylindrical case 9 </ b> B of the transverse feed conveyor 9.
The thus configured transverse feed conveyor 9 for carrying out the grains is equipped so as to swing up and down around the horizontal axis P1 and to be swiveled around the vertical axis P2. Then, the bottom conveyor screw 7A, the vertical conveyor screw 8A and the conveyor screw 9A are driven by the power of the engine E transmitted through the clutch 13, and the grains stored in the glen tank 5 are discharged from the transverse conveyor 9. It is configured to discharge from the outlet 10.

  FIG. 2 shows a state in which the transverse feed conveyor 9 has been swung to the storage turning position on the combine. At this position, the transverse feed conveyor 9 is lowered and received by the receiving device 16 so that the transverse feed conveyor 9 is It is stored in the storage position (see FIG. 1). The receiving device 16 is provided with a storage switch 16a as a storage state detecting means for detecting whether or not the transverse feed conveyor 9 is in the storage state stored in the storage position.

The drive means for the turning operation of the transverse feed conveyor 9 will be described. As shown in FIG. 3, the large-diameter gear 11 for turning driving is fixed to the outer surface of the rotating case 6 and meshes with the large-diameter gear 11. A turning electric motor M1 (an example of a turning actuator) that rotationally drives the pinion gear 12 is fixed to the vertical feed conveyor 8, and as the turning electric motor M1 is driven forward / reversely, the transverse feed conveyor 9 is moved vertically. A turning operation is performed around the axis P2, and the turning is stopped as the turning electric motor M1 is stopped.
In the figure, Ry is a turning position detection sensor using a multi-rotation type potentiometer for detecting the turning position of the transverse conveyor 9, and is a large-diameter gear for turning driving by a gear 14 driven by an electric motor M1 for turning. 11 is rotated at the same time.
As shown in FIG. 2, a swivelable range is set in advance, and based on the detection information of the swivel position detection sensor Ry, the lateral feed conveyor 9 is set to the left limit position LE and the right limit position RE of the swivelable range. When it reaches, the turning electric motor M1 is automatically stopped.

  Next, the driving means for the raising / lowering operation of the transverse feed conveyor 9 will be described. As shown in FIG. 3, the raising / lowering hydraulic cylinder 15 (elevating / lowering) is provided between the proximal end portion of the transverse feed conveyor 9 and the rotating case 6. As an example, an actuator for the lifting operation is provided, and as the lifting hydraulic cylinder 15 is extended, the transverse conveyor 9 is lifted around the horizontal axis P1 and the lifting hydraulic cylinder 15 is shortened. Thus, the transverse feed conveyor 9 is lowered around the horizontal axis P1.

(Swivel operation tool)
Reference numeral 30 shown in FIGS. 2 and 4 is a turning operation tool that outputs an operation command for turning the transverse feed conveyor 9 by the operation in the front-rear direction and the left-right direction in the control unit 2.
The turning operation tool 30 is disposed at an operation tool mounting location 26 located behind the driver seat 20 and closer to the rear of the auxiliary control panel 25.

  The operation tool mounting portion 26 is configured by a bulging box-shaped step portion that partially bulges upward at the rear portion of the auxiliary control panel 25. And in this operation tool attachment location 26, three attachment surfaces 26a, 26b, and 26c are formed so that virtual extension lines along the operation tool attachment surface intersect each other. In other words, the first mounting surface 26a configured in a substantially horizontal plane, the third mounting surface 26c configured in a substantially vertical plane, and the second mounting crossing obliquely at an intermediate position between these mounting surfaces 26a and 26c. The turning operation tool 30 is provided on the second mounting surface 26b at the intermediate position.

  The turning operation tool 30 includes a pair of left and right push operation portions 30a and 30b, and when one of the push operation portions 30a and 30b is pushed and turned on in the normally open state, the other push operation portion is turned off. It is composed of a seesaw-type push button switch returned to the position shown in FIG. Both the left and right push operation units 30a and 30b are turned ON only during the push operation, and if either the left or right push operation unit 30a or 30b is pushed, the transverse conveyor 9 turns in the same direction as that direction, and the hand is moved. If it is released, it will return to neutral and turn off, and the transverse feed conveyor 9 will also stop turning.

[Elevating tool]
Reference numeral 31 shown in FIGS. 2 and 4 is a lifting operation tool when an operation command for operating the swinging conveyor 9 to swing up and down by the operation in the front-rear direction and the left-right direction is output.
The lifting operation tool 31 is provided on a third mounting surface 26c formed of a substantially vertical surface in the operation tool mounting location 26, and a pair of push operation portions 31a and 31b are juxtaposed in the vertical direction. By operating the upper push operation portions 31a and 31b, the lateral feed conveyor 9 is operated to the ascending side, and by operating the lower push operation portions 31a and 31b, the lateral feed conveyor 9 is operated to the lowering side. It is configured as follows.
The structure of the lifting / lowering operation tool 31 is constituted by a seesaw type push button switch, similar to the turning operation tool 30, and is turned on only at the time of pushing operation, and is neutralized by releasing the hand to be turned off to be in a transverse feed conveyor. 9 is configured to stop raising and lowering.
Thus, the turning operation tool 30 and the lifting operation tool 31 are provided separately on different mounting surfaces 26b and 26c.

[Clutch operating tool]
Grain unloading by the grain unloader A for grain unloading is controlled to be switched between the unloading state and the unloading stopped state by the clutch lever 32 disposed at the operation tool mounting location 26.
The clutch lever 32 is positioned in a guide groove 27 provided on the side closer to the driver seat 20 than the turning operation tool 30 and the lifting operation tool 31, and the first mounting surface 26 a configured by the substantially horizontal plane, In the intermediate position, the guide groove 27 can be swung around the horizontal axis in a state of straddling the second mounting surface 26b that obliquely intersects. In this embodiment structure, the posture of the guide groove 27 erected at the end on the first mounting surface 26a side is the clutch disengagement position where the driving of the grain unloader A is stopped, and the second mounting surface 26b side. The posture switched to the end of the clutch is the clutch engagement position for driving the unloading device A for carrying out the grain.
In the state where the clutch is engaged, the operation locus of the clutch lever 32 is located at the position where the turning operation tool 30 is disposed so that the turning operation tool 30 provided on the second mounting surface 26b is difficult to operate from the driver seat side. The guide groove 27 is disposed so as to overlap in the front-rear direction. Therefore, when the turning operation tool 30 is operated, the turning operation is performed in advance by switching the clutch lever 32 to the cutting position on the first mounting surface 26a side and turning the clutch of the unloader A for carrying out the grain. It is configured to be easy to do.

[Another embodiment]
[1] The turning operation tool 30 and the lifting operation tool 31 are not limited to those constituted by a seesaw-type push button switch in which a pair of push operation units 30a and 30b are integrated to enable seesaw rocking. As shown in FIG. 5, each push operation part 30a, 30b is made into an individual push button type, and each push operation part 30a, 30b is in an ON state only at the time of the push operation, and returns to an OFF state when the hand is released. It may be configured to stop the turning or raising / lowering drive.

[2] Further, the turning operation tool 30 and the lifting operation tool 31 are not limited to the push button type including the pair of push operation parts 30a and 30b as described above. It may be configured such that the operation state can be selected and switched by an operation lever. 4 and 5, “right” and “left” of the routing operation tool 30 may be set in reverse. 4 and 5, the first mounting surface 26a may be configured on a horizontal plane, and the second mounting surface 26b may be configured on a surface slightly inclined with respect to the horizontal plane.

[3] In the above-described embodiment, the self-removal type combine is exemplified as the combine, but a full-pile type combine may be used.

Overall side view showing the combine Overall plan view showing the combine Main part enlarged side view showing the operation configuration of the unloader device for carrying out the grain The perspective view which shows the operation tool arrangement | positioning location of the unloader apparatus for grain export The perspective view of other embodiment which shows the operation tool arrangement | positioning location of the unloader apparatus for grain carrying out

Explanation of symbols

DESCRIPTION OF SYMBOLS 2 Steering part 4 Threshing part 5 Glen tank 7 Bottom screw conveyor 8 Vertical feed conveyor 9 Horizontal feed conveyor 20 Driving seat 25 Sub control panel 26 Operation tool installation location 26a First installation surface 26a, 26b, 26c Installation surface 30 Turning operation tool 30a , 30b Push operation unit 31 Elevating operation tool 31a, 31b Push operation unit 32 Clutch lever A Unloader device for carrying out grain

Claims (3)

It is a combine equipped with an unloader device for unloading the grain composed of a vertical feed conveyor that lifts and conveys the grain taken out from the grain storage unit, and a horizontal feed conveyor connected to the upper end of the vertical feed conveyor. And
A turning actuator for turning the transverse conveyor around a vertical axis, and an elevating actuator for swinging the transverse conveyor around a horizontal axis;
A turning operation tool that inputs a turning operation command to a control device that controls the operation of the turning actuator, and a lifting operation tool that inputs a hoisting operation command to the control device that controls the operation of the lifting actuator. , In preparation for the operation tool mounting point near the driver's seat,
A plurality of mounting surfaces where extension lines along the operating tool mounting surface intersect with each other are formed at the operating tool mounting location, and the turning operating tool and the lifting operating tool are distributed to different mounting surfaces. Combines characterized by being provided.
The mounting surface of the operation tool mounting location includes a mounting surface whose surface direction is closer to the horizontal than the other, and a mounting surface whose surface direction is closer to the vertical than the other, and the turning operation tool is close to the horizontal mounting surface, The combine according to claim 1, wherein the lifting operation tool is provided on a mounting surface close to the vertical.
The turning operation tool is arranged in a state along the horizontal direction, and the switching operation direction is set to a direction that matches the turning direction of the transverse conveyor. The combine according to claim 1 or 2, wherein the operation direction is set to a direction that coincides with the lifting and lowering direction of the transverse feed conveyor.

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