JP4010648B2 - Combine grain discharge operation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a combine grain discharging operation device.
[0002]
[Prior art]
There is a combine equipped with an electric soot discharge operation means that operates an electric motor by a switch operation to make the soot discharge clutch mechanism intermittent (see Japanese Patent Publication No. 6-42807).
[0003]
In the above combine, when a soot discharge command is input to the control device by a switch operation, the soot discharge clutch mechanism continues to operate, the engine rotation is transmitted to the soot discharge auger device, and the soot discharge port of the soot discharge auger device The soot in the tank is discharged.
[0004]
Conversely, when a soot discharge stop command is input to the control device by operating the switch, the soot discharge clutch mechanism is disengaged, the transmission of engine rotation to the soot discharge auger device is cut off, and soot discharge in the soot tank is performed. Is stopped.
[0005]
For example, the switch is provided at two places, that is, a control portion and a tip portion of a horizontal auger that forms a part of the dredging auger device. The soot discharging clutch mechanism can be intermittently connected from the place, so that soot discharging work can be performed conveniently.
[0006]
[Problems to be solved by the invention]
In the above-described conventional combine, when the soot discharge clutch mechanism is in a continuous state and soot is being discharged, the soot discharge operation electrical system fails and the clutch means cannot be operated. The soot discharge is stopped by stopping the engine. However, such a measure makes it difficult to stop soot discharge quickly and is unsafe, and also works on the soot discharge auger device. Since the resistance prevents the engine from restarting, smooth soot discharge work is impaired.
[0007]
Further, if the electric system for the soot discharge operation fails when the soot discharge clutch mechanism is in the disengaged state, the intermittent operation of the soot discharge clutch becomes difficult, and the soot discharge operation cannot be performed smoothly. An object of the present invention is to provide a combine grain discharging operation device capable of coping with the above situation.
[0008]
[Means for Solving the Problems]
In order to achieve the above object, in the present invention, the cutting unit, the control unit, the engine, the threshing selection processing unit, and the grain tank are supported by the traveling unit, and the grains in the grain tank are discharged outside the machine. A combine that is provided with a grain discharge auger device, and the rotation of the engine is transmitted to the grain discharge auger device through a grain discharge clutch mechanism. Because In addition to the electric grain discharging operation means that electrically switches the grain discharging clutch mechanism by operating the switch, the operation lever is used regardless of the operating state of the electric grain discharging operation means. Combined grain discharging operation device provided with mechanical grain discharging operating means capable of mechanically interrupting the grain discharging clutch mechanism by the operation of In the above, an operation lever is provided that operates the grain discharge clutch mechanism via an inner and outer operation cord, while the grain discharge clutch mechanism is operated by displacing the inner of the operation cord. In addition to providing an electric motor and a switch for operating the electric motor, the outer end of the operation cord is alternatively fixed to either the normal position or the non-normal position. .
[0009]
According to this, the intermittent operation of the grain discharge clutch mechanism can be performed by either the switch or the operation lever. More specifically, when the electric motor breaks down in the continuous state of the grain discharge clutch mechanism, the grain discharge clutch mechanism is intermittently operated simply by operating the operation lever, while the electric motor is disconnected from the grain. When a failure occurs due to the disengagement state of the discharge clutch mechanism, the grain discharge clutch mechanism is intermittently operated by operating the operation lever in a state where one end of the outer is held at another position away from the specific direction. Will be.
[0010]
The present invention can be further embodied as follows. That is, the guide member (a pair of outer receivers) is supported at two appropriately spaced locations on the inner, and the inner part between the guide members (the pair of outer receivers) is displaced in a direction intersecting the inner by an electric motor. Therefore, the grain discharge clutch mechanism is activated.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
1 to 6 relate to a combine according to an embodiment of the present invention, FIG. 1 is a plan view, FIG. 2 is a right side view, and FIGS. 3 to 6 are part of an operation device of a grain discharge auger device. It is explanatory drawing shown.
[0012]
In FIGS. 1 and 2, 1 is a traveling unit, 2 is a machine base supported by the traveling unit 1, and 3 is a cutting part provided at the front part of the machine base 2. On the machine base 2, a control unit 4, a threshing selection processing unit 5, a waste processing unit 6, a grain tank 7, and a grain discharge auger device 8 are provided.
[0013]
The grain discharge auger device 8 will be described in more detail. A lower conveyor 9 installed at the bottom of the grain tank 7 in the front-rear direction, a vertical auger 10 provided upright at the rear of the grain tank 7, and The horizontal auger 12 extends laterally from the upper end of the vertical auger 10 via the connecting tube portion 11.
[0014]
Here, the lower conveyor 9 is configured to send the grains in the grain tank 7 toward the lower part of the vertical auger 10 by transmitting the rotation of the engine 13 provided at the rear part of the control unit 4. is there.
[0015]
The vertical auger 10 includes a vertical pipe 15 that is rotatably supported around a fixed vertical axis Y, and a vertical conveyor 10a that is linked to the lower conveyor 9 is provided in the vertical pipe 15, and the vertical conveyor 10a. The vertical pipe 15 is rotated around a fixed longitudinal axis Y by an electric motor 16 provided in the same body as the machine base 2.
[0016]
The electric motor 16 includes a brake means 16a for restricting the rotation of the electric motor 16. The brake means 16a is in a state where the electric power to the electric motor 16 is cut off and when the electric motor 16 is turned off. Is rotated, the vertical pipe 15 is allowed to rotate freely, that is, in a non-restricted state.
[0017]
The connecting cylinder portion 11 connects the vertical auger 10 and the horizontal auger 12 so as to be swingable around a fixed horizontal axis X orthogonal to the fixed vertical axis Y, and internally includes a vertical conveyor in the vertical auger 10. 10a, a transfer conveyor (not shown) that conveys grains from the vertical auger 10 side to the horizontal auger 12 side is provided, and a hydraulic cylinder for raising and lowering the horizontal auger 12 around a certain horizontal axis X is provided outside. 17 is provided.
[0018]
The lateral auger 12 is configured as follows. In other words, the front auger 18 and the front auger 19 are provided, and the augers 18 and 17 are connected via flanges 18a and 19a fixed to the respective sides. A grain discharge port 20 is provided at the tip of the front auger 19, and a resin sheet 21 that can be bent and deformed is suspended from the periphery of the lower end of the discharge port 20.
[0019]
Inside the former side auger 18 and the leading side auger 19, there are provided an original side conveyor 18 b and a leading side conveyor 19 b corresponding to each other. At this time, the original side conveyor 18 is a transfer conveyor of the connecting cylinder portion 11. In addition, the conveyor shafts of the former conveyor 18b and the former conveyor 19b are integrally coupled. On the side portion of the threshing selection processing unit 5, there is provided a catch 22 for supporting the lateral auger 12 in the retracted posture state.
[0020]
The power transmission mechanism from the engine 13 to the lower conveyor 9 is as follows. That is, an intermediate transmission device 23 is provided on the machine base 2 in the vicinity of the lower part of the grain tank 7, and the transmission device 23 includes a first intermediate pulley 24 that is rotated about an axis in the horizontal direction of the machine body, and the pulley 24. And a second intermediate pulley 25 that is linked and rotated about the longitudinal axis of the machine body.
[0021]
The first intermediate pulley 24 has an endless transmission belt 27 wound around a driving pulley 26 fixed to the output shaft of the engine 13 in a tension state, and the second intermediate pulley 25 and the lower conveyor. A grain discharge clutch mechanism 29 is formed between the pulley 9 and the input pulley 28 fixed to the front part 9 for intermittently transmitting rotation between these pulleys.
[0022]
As shown in FIG. 3, the clutch mechanism 29 includes an endless transmission belt 30 wound in a relaxed state between the second intermediate pulley 25 and the input pulley 28, and a tension roller for tensioning the transmission belt 30. 31. At this time, the tension roller 31 is pivotally attached to the tip of an arm member 33 that is swingably supported by a support shaft 32 fixed to the same body as the machine base 2.
[0023]
Next, an operation device for the grain discharge auger device 8 will be described with reference to FIGS. Reference numeral 34 denotes a control device for operating the electric motor 16 and the hydraulic cylinder 17 and is provided in the vicinity of the control unit 4. Operating means 35A and 35B for inputting a required command to the control device 34 are provided at the control portion 4 and the distal end portion of the sideways auger 12.
[0024]
The operating means 35A of the control unit 4 includes an operating lever 36 for mechanically connecting / disconnecting the clutch mechanism 29, a grain discharge switch 37 for electrically connecting / disconnecting the clutch mechanism 29, and raising / lowering the lateral auger 12. It consists of a cross lever switch 38 for turning.
On the other hand, the operating means 35B at the tip of the sideways auger 12 includes a grain discharge switch 39 for electrically connecting and disconnecting the clutch mechanism 29, a lifting switch 40 for lifting and lowering the auger 12, and a free movement of the auger 12. It comprises a turning restriction release switch 41 which makes the brake means 16a for restricting turning unregulated.
[0025]
The operation lever 36 is swing-operated and is held at two positions, an entry position p1 and a cutting position p2. The lift switch 40 and the grain discharge switch 39 are attached to a switch box 42 provided on the side of the tip of the sideways auger 12. The turning restriction release switch 41 is attached to a side portion of a U-shaped handle 43 which is fixed to the front end of the lateral auger 12 so as to protrude. At this time, a lever member 44 for turning the turning restriction release switch 41 on and off is provided inside the handle 43.
[0026]
Each switch 37, 38, 39, 40, 41 will be described. Each of the grain discharge switches 37, 39 comprises two switches s1, s2. When one switch s1 is pushed and operated, a grain discharge command is issued, and the other When the switch s2 is pressed and operated, a command to stop grain discharge is input to the control device 34.
[0027]
The cross lever switch 38 swings the lever member back and forth and left and right. When the lever member swings back and forth, an up / down command is input to the control device 34 and when the lever member swings left and right, A turning command is input to the control device 34.
[0028]
The up / down switch 40 is configured such that an upward command is input to the control device 34 only when the upper switch 40a is being pressed, and a downward command is input to the control device 34 only when the lower switch 40b is being pressed. Further, the turning restriction release switch 41 is configured so that the brake means 16a is in an unregulated state when the lever member 44 is brought close to the grip portion 43a of the handle 43.
[0029]
In FIG. 5, 45 is a battery, 46 is a relay box for starting and stopping the electric motor 16, 47 is a relay box for starting and stopping the electric motor 48 for intermittently connecting and disconnecting the clutch mechanism 29, and 49 is an expansion and contraction of the hydraulic cylinder 17. It is a solenoid for opening and closing an oil flow direction switching valve for supplying and discharging pressure oil for causing the oil to flow.
[0030]
The operation mechanism by the operation lever 36 and the grain discharge switches 37 and 39 will be described in further detail as follows. That is, the operating lever 36 is mounted so as to be able to swing around the shaft 50 shown in FIG. 3, and the output portion 36a and the tip end portion of the spring 34 engaged with the input portion 33a of the arm member 33 are connected. Operation cord The inner 51 is joined by a wire.
[0031]
Operation cord The inner 51 is inserted into two outer 52 and 53 having a flexible guide tube, and a motor unit 54 is provided between the two outer 52 and 53. As shown in FIG. 6, the motor unit 54 includes a plate member 55 fixed at an appropriate position of the machine body, an electric motor 48 fixed to the plate member 55, an inner tension means 56 operated by the motor 48, A pair of outer receptacles 57 and 58 for holding the end portions of the outer 52 and 53 is provided.
[0032]
Each outer receiver 57, 58 has a shaft portion a as shown in FIG. 6B, and the shaft portion a is inserted into a hole of the plate member 55 so as to be swingable around the shaft portion a. One outer 52 has one end supported by the outer receiver 57 and the other end supported by an outer receiver 59 that is alternatively fixed to either the normal position p3 or the non-normal position p4. The other outer 53 has one end supported by the outer receiver 58 and the other end supported by an outer receiver 60 fixed to the body side.
[0033]
The inner tension means 56 is rotated around the rotation support shaft 48a by the electric motor 48. crank The circular rod 63 engaged with the inner 51 is pivotally attached to the tip of the rod 62, and the inner motor 51 is pulled toward the virtual line k1 by the rotation of the electric motor 48 or as shown by a solid line. It is supposed to be restored.
[0034]
The above-described operating device is used as follows, for example. That is, when there is no problem even if the grain discharge auger device 8 is operated from the control unit 4, the required operation is performed by operating the operation means 35A of the control unit 4.
[0035]
For example, when the lateral auger 12 is to be raised, the lever member of the cross lever switch 38 is swung backward, and when it is desired to be lowered, it is swung forward.
As the lever member swings back and forth, the control device 34 changes the energized state of the solenoid 49 to switch the pressure oil flow direction switching valve, and the hydraulic cylinder 17 is extended or lowered by this switching operation. Is swung around the X axis, and the soot discharge port 20 is raised or lowered as planned.
[0036]
When the lateral auger 12 is to be turned leftward, the lever member is swung leftward. Conversely, when the lateral auger 12 is to be turned rightward, it is swung rightward. The control device 34 energizes the electric motor 16 for forward rotation or reverse rotation by swinging the lever member left and right.
As a result, the brake means 16a is in a non-regulated state, the electric motor 16 is rotated forward or backward, the vertical pipe 15 is rotated around the Y axis, and the lateral auger 12 is rotated in either the planned left or right direction. It will be a thing.
[0037]
As described above, the lateral auger 12 is moved up and down and swiveled to set it to a required position, and then the straw in the grain tank 7 is discharged. In normal use, the operation lever 36 is held at the entry position p1, and the outer receiver 59 is fixed at the normal position p3. In this initial state, when the electric motor 48 is in a state of stopping the grain discharge, the inner 51 is pulled in the arrow direction f1 to such an extent that the grain discharge clutch mechanism 29 is not connected.
[0038]
When discharging the grain under this initial state, one switch s1 of the grain discharge switch 37 is turned on and operated. As a result, the control device 34 operates the electric motor 48, whereby the crank 60 is rotated by this operation, the inner 51 is pulled in the arrow direction f1, the grain discharge clutch mechanism 29 is continued, and the engine 13 is rotated by the lower conveyor. 9 is transmitted. The rotation of the lower conveyor 9 is transmitted to the vertical conveyor 10a, the transfer conveyor, the former conveyor 18b, and the former conveyor 19b in this order, and the grains in the grain tank 7 are discharged from the grain discharge port 20. .
[0039]
When stopping the grain discharge, the other switch s2 is turned on and operated, whereby the control device 34 operates the electric motor 48 in the reverse direction, and the crank 60 is rotated in the reverse direction by this operation, and the inner 51 Is pulled back in the direction of the arrow f1 due to the weight of the tension pulley 31, etc., the grain discharge clutch mechanism 29 is turned off, the rotation of the engine 13 is disconnected from the lower conveyor 9, and the grain discharge is stopped.
[0040]
On the other hand, the grain discharged from the grain outlet 20 may be processed so as to be sequentially accommodated in another bag. In such a case, by operating the operating means 35B at the tip of the sideways auger 12 Actuate the sideways auger 12.
[0041]
That is, for example, when the lateral auger 12 is to be raised, one of the elevating switches 28 is pushed, and the control device 23 swings the lever member of the cross lever switch 38 backward. The hydraulic cylinder 17 is extended during the pushing operation of the switch 28a, the lateral auger 12 is swung upward about the X axis, and the grain outlet 20 is raised.
[0042]
Conversely, when the lateral auger 12 is desired to be lowered, the other switch 28b is pushed and operated, so that the control device 23 acts in the same manner as when the lever member of the cross lever switch 38 is swung backward. During the pressing operation of the switch 28b, the hydraulic cylinder 17 is shortened, the lateral auger 12 is swung downward about the X axis, and the grain outlet 20 is lowered.
[0043]
When it is desired to turn the sideways auger 12, the grip portion 43 a of the handle 43 is gripped together with the lever member 44. At this time, since the lever member 44 is displaced toward the grip portion 43a by the hand holding the handle 43, the power supply to the electric motor 16 is cut off, so that the electric motor 16 erroneously turns the cross lever switch 38. Even if operated, the brake means 16a is not rotated, and the brake means 16a is in a non-restricted state, and the lateral auger 12 is turned and displaced to the left and right by human force.
[0044]
In particular, when bagging grains, it is necessary to accurately match the straw outlet 20 with the mouth of the bag, but an operator working in the vicinity of the grain outlet 20 may use the grain outlet 20. The turning position of the sideways auger 12 can be precisely fine-tuned with one's hand without leaving, and the grain outlet 20 is easily matched with the mouth of the bag.
[0045]
After setting the sideways auger 12 to a required position as described above, the kernel in the kernel tank 7 is discharged. Under the initial state, one switch s1 of the kernel discharge switch 39 is turned on. Operate. Thereby, like the case of operation of the grain discharge switch 39 of the control part 4, the control apparatus 34 operates the electric motor 48, and the grain in the grain tank 7 is related to this, and the grain outlet 20 It will be discharged from. When the other switch s2 is turned on and operated, the controller 34 reversely operates the electric motor 48 in the same manner as the operation of the grain discharge switch 37 of the control unit 4, and the grain discharge is stopped.
[0046]
By the way, when the grain discharge clutch mechanism 29 is continued by the grain discharge switches 37 and 39 at the front end of the control unit 4 or the sideways auger 12 and the grain is discharged under the normal use state, the electrical system is It may break down and make the electric motor 48 impossible to operate. In such a case, if the grain discharge is not stopped immediately, an accident such as the overflowing of the grain from the receiving container may be expected. In such a case, the operation lever 36 is turned to the position p2 (FIG. 3). Operation).
[0047]
By this operation, the inner 51 is pulled back in the direction opposite to the arrow direction f1 by the weight of the tension roller 31 or the like as long as it was pulled by the operation lever 36, and the grain discharge clutch mechanism 29 does not operate even if the electric motor 48 is activated. However, it will be in a disconnected state, and grain discharge will be stopped immediately. Thereafter, when the grain discharge is continuously performed, the grain discharge clutch mechanism 29 is intermittently operated by the operation of the operation lever 36.
[0048]
In addition, the electrical system may fail due to the disconnected state of the grain discharge clutch mechanism 29 and the electric motor 48 cannot be operated. In such a case, it may be desired to discharge the grain. In this case, the outer receiver 59 is removed from the normal position p3 and fixed to the non-normal position p4. As a result, the inner 51 is pulled in the arrow direction f1 by a certain dimension related to the moving distance of the outer receiver 59.
[0049]
Under this state, the operation lever 36 is operated to cause the grain discharge clutch mechanism 29 to be intermittent, and the grain is discharged. At this time, when the operation lever 36 is in the cut state, the inner 51 is pulled back in the direction opposite to the arrow direction f1 due to the weight of the tension roller 31 and the grain discharge clutch mechanism 29 is in the disconnected state. Since the inner 51 is pulled in the arrow direction f1, even if the electric motor 48 does not operate, the grain discharge clutch mechanism 29 is in a continuous state.
[0050]
Next, a first modification of the operation device will be described with reference to FIGS. 1, 2, 4, 5, 7 and 8. FIG. 7 is an explanatory view showing an operating device according to this modification, and FIG. 8 is a view showing a part of FIG. As shown in FIG. 7, the inner 51 in which the output portion 36 a of the operation lever 36 and the tip of the spring 34 are coupled is inserted into a single outer 64, and the previous motor unit is placed in the middle of the outer 64. 54 (see FIG. 3) is not provided.
[0051]
One end of the outer 64 is supported by an outer receiver 60 fixed to the body, and the other end is supported by an outer receiver 59 fixed to one end of a support lever 65. The support lever 65 is swingably mounted on a support shaft 66 fixed to the machine base 2, and a spring 67 is stretched between the support lever 65 and the machine base 2.
[0052]
The other end of the support lever 65 is interlocked with an electric motor 48 fixed to the airframe via a pulling means 68. The electric motor 48 is supported by rotating and displacing the pulling means 68 in its longitudinal direction. The lever 65 and the outer receiver 59 are selectively moved to either the entry position p5 or the cut position p6 shown in FIG. At this time, the support lever 65 can be swung independently of the operating position of the electric motor 48 by shortening the pulling means, etc., and the outer receiver 59 can be fixed at the entry position p5 via a fixing means (not shown). .
[0053]
An example of use in the case where the grain is discharged by the operation device of this modification will be described. In the case of normal use, the operation lever 36 is entered and held at the position p1 as in the previous embodiment. When the electric motor 48 is in a state where the grain discharge is stopped in this initial state, the inner 51 is pulled in the arrow direction f1 to the extent that the grain discharge clutch mechanism 29 is not connected. Yes.
[0054]
In order to discharge the grain under this state, one of the switches s1 of the grain discharge switch 37 or 39 is turned on and operated. As a result, the control device 34 operates the electric motor 48, the support lever 65 is moved into the position p5 by this operation, the inner 51 is pulled in the direction of the arrow f1, the grain discharge clutch mechanism 29 is continued, and the grain The grain in the grain tank 7 is discharged from the grain outlet 20.
[0055]
When stopping the grain discharge, the other switch s2 is turned on and operated, whereby the control device 34 operates the electric motor 48 in the reverse direction, and this operation swings the support lever 65 to the cutting position p6. Thus, the inner 51 is pulled back in the direction of the arrow f1 by the weight of the tension roller or the like, the grain discharge clutch mechanism 29 is turned off, and the grain discharge is stopped.
[0056]
In addition, when the grain discharge clutch mechanism 29 is kept in the connected state by the grain discharge switch 37 or 39 at the front end of the control unit 4 or the sideways auger 12 and the grain is discharged under the normal use state, the electric system fails. When the operation of the electric motor 48 becomes impossible and the grain discharge needs to be stopped immediately, the operation lever 36 is operated to the cutting position p2.
[0057]
By this operation, the inner 51 is pulled back in the reverse direction of the arrow direction f1 by the weight of the tension roller 31 or the like by the length pulled by the operation lever 36, and the grain discharge clutch mechanism 29 does not operate the electric motor 48. However, it will be in a disconnected state, and grain discharge will be stopped immediately.
Thereafter, when the grain discharge is continuously performed, the grain discharge clutch mechanism 29 is intermittently operated by the operation of the operation lever 36.
[0058]
In addition, when the grain discharge clutch mechanism 29 is disconnected, the electric system may break down and the electric motor 48 may not be able to operate. In such a case, when it is desired to discharge the grain, it is supported by human power. The lever 65 is swung and fixed at the entry position p5. As a result, the inner 51 is pulled in the arrow direction f1 by a certain dimension related to the moving distance of the outer receiver 59.
[0059]
Under this state, the operation lever 36 is operated to cause the grain discharge clutch mechanism 29 to be intermittent, and the grain is discharged. At this time, at the cutting position p2 of the operating lever 36, the inner 51 is pulled back by the weight of the tension roller 31 and the grain discharge clutch mechanism 29 is in a disconnected state, and at the entering position p1 of the operating lever 36, the inner 51 is in the direction of the arrow. Since it is pulled to f1, even if the electric motor 48 does not operate, the grain discharge clutch mechanism 29 is in a continuous state.
[0060]
Next, a second modification of the operation device will be described with reference to FIGS. 1, 2, 4, 5, and 9. Here, FIG. 9 is an explanatory view showing an operating device according to this modification. As shown in FIG. 9A, the inner 51 extends from the tip of the spring 34 engaged with the arm member 33 of the grain discharge clutch mechanism 29. At this time, the inner 51 is connected to the output part of the operation lever 36 of the control part 4 and is inserted in a single outer (not shown) as in the previous modification.
[0061]
Each end of the outer is supported by an outer receiver fixed to the fuselage, and the operation lever 36 continues the grain discharge clutch mechanism 29 at the entering position, and cuts the grain discharge clutch mechanism 29 at the cutting position. It is supposed to be a state. Further, as shown in FIGS. 9B and 9C, a grain discharge input clutch mechanism 69 is formed between the driving pulley 26 and the first intermediate pulley 24 for intermittently transmitting rotation between these pulleys.
[0062]
The input clutch mechanism 69 includes a transmission belt 27 wound in a relaxed state between the driving pulley 26 and the first intermediate pulley 24, and a tension roller 70 for tensioning the transmission belt 27. At this time, the tension roller 70 is pivotally attached to the tip of an arm member 72 that is swingably supported by a support shaft 71 fixed to the same body as the machine base 2.
[0063]
A spring 73 is engaged with the arm member 72, and a distal end portion of the spring 73 and the electric motor 48 fixed to the machine base 2 are interlocked and connected via a tension means 74. The electric motor 48 is configured to displace the pulling means 74 by rotation and move the arm member 72 alternatively to either the entering position p7 or the cutting position p8.
[0064]
At this time, the arm member 74 can be fixed to the entry position p7 via a fixing means (not shown) regardless of the rotational position of the electric motor 48 by swinging the pulling means 74 in the arrow direction f2 by an artificial force. Do it like this.
[0065]
An example of use in the case where the grain is discharged by the operation device according to this modification will be described. In normal use, the operation lever 36 is in the same position as in the previous embodiment and fixed at the position.
[0066]
In order to discharge the grain under this initial state, one switch s1 of the grain discharge switch 37 or 39 is turned on and operated. As a result, the control device 34 operates the electric motor 48, and by this operation, the arm member 72 enters and swings to the position p7, the input clutch mechanism 69 is continued, and the straw in the grain tank 7 is stored in the grain outlet 20. It will be discharged from.
[0067]
When stopping the grain discharge, the other switch s2 is turned on and operated, so that the control device 34 operates the electric motor 48 in the reverse direction, whereby the arm member 72 is swung to the cutting position p8. Thus, the input clutch mechanism 69 is turned off, and the grain discharge is stopped.
[0068]
In addition, when the kernel is discharged under the normal use state with the input clutch mechanism 69 in the continuous state by the kernel discharge switch 37 or 39 at the tip of the control unit 4 or the lateral auger 12, the electrical system breaks down. When it is necessary to immediately stop the grain discharge when the operation of the electric motor 48 becomes impossible, the operation lever 36 is operated to the cutting position.
[0069]
By this operation, the grain discharge clutch mechanism 29 is disconnected even if the electric motor 48 is not operated, and the grain discharge is immediately stopped. Thereafter, when the grain discharge is continuously performed, the grain discharge clutch mechanism 29 is intermittently operated by the operation of the operation lever 36.
[0070]
In addition, when the input clutch mechanism 69 is disengaged, the electric system may fail and the electric motor 48 may be unable to operate. In such a case, when it is desired to discharge the grain, the arm member 72 is manually operated. Is swung and fixed at the entry position p7. Under this state, the operation lever 36 is operated to cause the grain discharge clutch mechanism 29 to be intermittent, and the grain is discharged.
[0071]
【The invention's effect】
According to the present invention configured as described above, when the electrical system for stopping the discharge of the grain is broken during the discharge of the grain, the discharge of the grain is mechanically stopped by the operation of the operation lever. As a result, accidents such as inadvertent overflow of the grain out of the container can be prevented, and safety during grain discharge is ensured. Moreover, even if the electric system for operating the grain discharging operation fails, the grain discharging operation can be performed mechanically and smoothly by operating the operation lever.
[0072]
Also It is easy to structure and operates reliably, and it is easy to unitize the electric motor and the related members (crank, inner tension means, guide member) for interrupting the grain discharge clutch mechanism, and also the electric motor etc. Since it can be installed anywhere in the middle of the length of the inner, it can be applied to various types of combines.
[Brief description of the drawings]
FIG. 1 is a plan view of a combine according to an embodiment of the present invention.
FIG. 2 is a right side view of the combine.
FIG. 3 is an explanatory diagram showing a mechanism for operating a grain discharge clutch mechanism in a part of the operation device of the combine grain discharge auger apparatus.
4A and 4B show operating means provided at a tip portion of a lateral auger as a part of the operating device, wherein A is a plan view, B is a side view, and C is a front view.
FIG. 5 is a diagram showing an electrical system that is a part of the operating device.
6 shows a part of the operation device, wherein A is a view showing a motor unit for operating the grain discharge clutch mechanism, and B is a view showing an xx portion of A. FIG.
FIG. 7 is an explanatory diagram showing a first modification of the operation device.
FIG. 8 is a diagram showing a part of FIG. 7;
FIG. 9 is an explanatory diagram showing a second modification of the operation device.
[Explanation of symbols]
1 Traveling part
3 cutting parts
4 Control section
6 Threshing sorting section
7 grain tank
8 Grain discharge auger device
13 engine
29 Grain discharge clutch mechanism
36 Control lever
37, 39 switch
48 Electric motor
51 inner
52, 53, 64 outer
57, 58 Outer receptacle (guide member)
p3 Normal position
p4 Unusual position

Claims (2)

The grain cutting auger device for allowing the harvesting part, the control part, the engine, the threshing and sorting part and the grain tank to be supported by the traveling part and for discharging the grain in the grain tank to the outside of the machine. The grain discharge auger device is a combine that is adapted to transmit the rotation of the engine via a grain discharge clutch mechanism, and is electrically connected to the grain discharge clutch mechanism by a switch operation. In addition to the type of grain discharge operation means, it is possible to mechanically interrupt the grain discharge clutch mechanism by operating the operation lever regardless of the operating state of the electric grain discharge operation means. in grain discharge operating device combine provided with a mechanical grain discharge operating means, and shall be operated via the operating cord comprising the grain discharged clutch mechanism from the inner and outer operating While providing the bar has a switch for actuating the electric motor and the electric motor was assumed to operate the grain discharge clutch mechanism by displacing the inner of the operating cord, the outer end of the operating cord A combine grain discharging operation device characterized in that the portion is alternatively fixed to either the normal position or the non-normal position. The grain cutting auger device for allowing the harvesting part, the control part, the engine, the threshing and sorting part and the grain tank to be supported by the traveling part and for discharging the grain in the grain tank to the outside of the machine. The grain discharge auger device is a combine that is adapted to transmit the rotation of the engine via a grain discharge clutch mechanism, and is electrically connected to the grain discharge clutch mechanism by a switch operation. In addition to the type of grain discharge operation means, it is possible to mechanically interrupt the grain discharge clutch mechanism by operating the operation lever regardless of the operating state of the electric grain discharge operation means. in grain discharge operating device combine provided with a mechanical grain discharge operating means, and shall be operated via the operating cord comprising the grain discharged clutch mechanism from the inner and outer operating While providing the bar has a switch for actuating the electric motor and the electric motor was assumed to operate the grain discharge clutch mechanism by displacing the inner of the operating cord, the outer end of the operating cord The part is alternatively fixed to either the normal position or the non-normal position, and the guide member is supported at two appropriately spaced locations on the inner, and the inner part between the guide members is connected to the inner by an electric motor. A grain discharge operation device for a combine, characterized in that the grain discharge clutch mechanism is operated by displacing in a crossing direction.

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