JP4510962B2 - Combine - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a combine that stores grain that has been threshed and sorted in a threshing section in a grain tank, and that takes out the grain in the grain tank to the outside by a discharge auger.
[0002]
[Problems to be solved by the invention]
  Conventionally, the discharge port provided at the tip of the discharge auger has a fixed structure. Therefore, in order to change the discharge position, there is no other way but to rely on the movement of the machine body, the turning of the discharge auger and the vertical movement. Therefore, when it is desired to adjust the movement of the discharge port in the front-rear direction, there are two methods of moving the discharge auger up and down or moving the machine body. In addition, in order to move the airframe, it is necessary to temporarily stop driving the discharge auger each time.
[0003]
[Means for Solving the Problems]
  Therefore, the present invention provides a combiner provided with a discharge auger for picking up grains in a grain tank so as to be pivotable above the grain tank. The auger tube has a spiral tip end protruding forward from the auger tube, and the discharge port is rotatable through a lateral rotation fulcrum shaft provided below the tip of the auger tube. A rotating base plate having a cylindrical shaft fixed to a rotating shaft that rotatably supports the rotating fulcrum shaft is fixed to the outer side of the lower portion of the auger tube. A motor base on which a discharge port rotation motor having a small-diameter gear mounted on a motor shaft is provided on the left side surface of the moving base plate, and a fixed large diameter coupled to the small-diameter gear is provided on the rotation fulcrum shaft. A gear is provided to move the discharge port rotation mode. Rotation of the rotational fulcrum shaft by driving theSetThe discharge port can be rotated in the front-rear direction,The discharge portion has an outer peripheral wall that faces the tip opening of the auger tube as an arc portion centered on the rotation fulcrum shaft, and has an inner peripheral surface along the arc portion outside the arc portion. Connect and fix the cover to the outside of the auger tube,The discharge port rotation motor, the small diameter gear, and the fixed large diameter gear,in frontLeft side plate of discharge memberAndAnd the left side plate of the outlet cover,It is intended to provide a combine that is provided between the auger tube.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
  Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is an overall side view of a combine, FIG. 2 is a plan view thereof, in which (1) is a track frame for mounting a traveling crawler (2), and (3) is a machine installed on the track frame (1). Pedestal, (4) is a threshing section that stretches the feed chain (5) on the left side and incorporates a handling cylinder (6) and a processing cylinder (7), (8) is a cutting blade (9) and a culm feeding mechanism (10) A mowing unit provided with (10) etc., (11) is a slaughter processing unit (12) facing the end of the sewage chain (12), (13) is a grain from the threshing unit (4) via the milling cylinder (14) (15) is a discharge auger for carrying out the grains in the tank (13) to the outside of the machine, (16) is a driving cabin provided with a driving operation part (17) and a driver seat (18), 19) is an engine provided below the driving cabin (16), which continuously cuts cereal and threshes. It is configured.
[0007]
  As shown in FIG. 3, the lower end of the cereal conveyor (20) of the cereal cylinder (14) is linked to the first conveyor (22) of the threshing part (4) via the relay conveyor (21), and the threshing part ( While the grain threshed in 4) is put into the grain tank (13) via the cereal conveyor (20) and stored, the bottom transverse auger (23) in the front-rear direction provided at the bottom of the grain tank (13) The grain at the inner bottom of the grain tank (13) is laterally fed to the rear, transferred to the vertical feed auger (24) and transported to the upper position of the tank (13), and then transferred to the upper discharge auger (15). The grain is taken out from the machine through the discharge port (25).
[0008]
  Reference numeral (26) denotes an auger clutch that drives and stops the augers (15), (23), and (24).
[0009]
  As shown in FIG. 4, the upper discharge auger is provided so as to be pivotable in the horizontal direction around the rear portion, and is a hydraulic lifting cylinder (27) for raising and lowering the front end portion around the rear base portion of the discharge auger (15). A discharge auger (15) base is connected to the upper end of the vertical feed auger (24) so as to be rotatable up and down around a horizontal axis, and the upper half of the vertical feed auger (24) is connected to a pair of gears (28 ) (29) to provide an electric turning motor (30) that rotates around the axis, and the upper half of the vertical auger (24) and the discharge auger (15) around the substantially vertical axis of the vertical auger (24). The discharge port (25) at the tip of the discharge auger (15) is moved up and down by the control of the lift cylinder (27), and the discharge port (at the tip of the discharge auger (15) is controlled by the swing motor (30). It is configured to swirl 5) to the left and right.
[0010]
  Further, a potentiometer type auger position sensor (32) is attached to a sensor bracket (31) fixed on the upper surface of the motor (30), and a detection shaft (33) of the sensor (32) is detachably attached to a small diameter gear (28). By connecting, the turning position (turning angle) of the discharge auger (15) is detected by the position sensor (32).
[0011]
  As shown in FIGS. 5 to 9, the discharge port (25) is rotatably attached to the lower side of the tip of the auger tube (34) of the discharge auger (15) via a horizontal rotation fulcrum shaft (35). A discharge member (36) having a substantially inverted L shape when viewed from the side, and a discharge tube (38) having a substantially rectangular cross section and a vertically long tube portion fixed to the outer periphery of the distal end of the discharge member (36) via a bolt (37). As shown in FIG. 9, the discharge cylinder (38) is formed by bending one rubber plate into a quadrangular cylinder and fixing the overlapping portions at both ends with fastening members (39) such as screws or rivets. (36) A pair of left and right steel wire bodies (40) made of spring steel (round bar, piano wire) having a U shape in side view between the left and right outer sides of the tip and the left and right inner sides of the discharge tube (38) are bolted. (37) is fixed, and the lower end of the steel wire body (40) is substantially aligned with the lower end of the discharge tube (38). The upper and lower lengths of the steel wire body (40) are formed to keep the flexible discharge cylinder (38) in a cylindrical shape, and also when the discharge cylinder (38) comes into contact with a truck bed etc. (38) is configured to prevent accidents such as damage.
[0012]
  The bearing member (41) is detachably fixed to the upper surface of the outer periphery of the tip of the auger tube (34), the tip of the auger shaft (15a) of the discharge auger (15) is rotatably supported by the bearing member (41), A rotating base plate (42) is fixed to the lower outer side of the auger tube (34) on the base end side from the bearing member (41), and the tube shaft (43) for rotatably supporting the fulcrum shaft (35) is used as the base plate. (42) Removably fixed to the lower surface via bolts (44).
[0013]
  In addition, a motor base (46) for mounting a discharge port rotation motor (45), which is a rotation drive member, is detachably fixed to the left side surface of the base plate (42) via a bolt (47), and the motor (45 The left and right pivot plates (49) are coupled to the fixed large diameter gear (50) of the fulcrum shaft (35) and fixed to the left and right ends of the fulcrum shaft (35). 51) is detachably fixed to the left and right inner surfaces of the discharge member (36) via bolts (52), and the fulcrum shaft (35) is rotated by driving the rotation motor (45). ) And the discharge member (36) and the discharge tube (38) are also configured to rotate in the front-rear direction, which is the axial direction of the auger shaft (15a).
[0014]
  Further, the discharge member (36) forms an outer peripheral wall facing the tip opening of the auger tube (34) in an arc portion (36a) centered on the fulcrum shaft (35), and the arc portion (36a). ) A discharge port cover (53) having an inner peripheral surface (53a) along the arc portion (36a) outside the fixed dimension is connected and fixed to the auger tube (34) outside, and the auger tube (34) is close to the auger tube (34). When the discharge port (25) that is folded substantially parallel to the tube (34) is stored, the upper end region of the auger tube (34) that is opened from the arc portion (36a) is covered with a cover (53), and the discharge port (25) is configured to prevent dust, rainwater, and the like from entering.
[0015]
  A potentiometer type outlet position sensor (54) connected to the fulcrum shaft (35) is attached to the outlet cover (53) via the sensor bracket (55), and the auger tube (34), the outlet (25), The relative angle change is detected.
[0016]
  Further, the rotation motor (45) and the gears (49) and (50) which are rotation mechanisms for rotating the discharge port (25) include an auger tube (34), a discharge member (36) and a discharge port cover (53). ), And the motor (45) is always covered with the left side plate of the outlet cover (53) with the longitudinal direction of the rotation motor (45) aligned with the axial direction of the auger (15). The gears (49) and (50) are always positioned inside the external line of the left side plate of the discharge member (36) in a side view to prevent the gears (49) and (50) from being exposed. ) (50) is configured to be protected.
[0017]
  Then, by the drive control of the rotation motor (45), the maximum rotation angle (θ1) of 90 ° to 180 ° from the horizontal storage state where the rotation angle (θ) of the discharge port (25) is 0 as shown in FIG. Is rotated in a rotation range between the two, and the tip outlet (25a) of the discharge port (25) is always faced downward from the horizontal to promote smooth discharge of the grain. The discharge auger (15 When the auger (15) is at any inclination angle, it is possible to control the outlet (25a) of the outlet (25) so that it always faces downward, and from the grain tank (13). It is configured to take out good grains.
[0018]
  Further, as shown in FIG. 11, when the maximum rotation angle of the discharge port (25) to the maximum rotation angle (θ1) position, the discharge member serving as the tip end receiving portion of the auger cylinder (34) and the discharge port (25). (36) From the rear receiving surface (36b) at the front end side,Spiral(15b) The tips are projected forward in the dimensions (t1) (t2) (t1 <t2), respectively, so that the grains sent by the discharge auger (15) are prevented from accumulating in the auger cylinder (34), and smooth. Grain is prevented by accelerating the discharge and preventing the clogging accident of the grain, and also preventing the grain leakage from the gap between the discharge member (36) and the clogging between the auger tube (34) and the discharge member (36). It is configured to promote good emissions.
[0019]
  As shown in FIG. 9, a remote control box (56) as a remote control device is provided on the left outer surface of the discharge member (36) in the vicinity of the fulcrum shaft (35), and the discharge auger (15) is moved up and down and swiveled. A cross-type auger operating lever (57) to be operated, an auger clutch operating member (58) for turning on and off the auger clutch (26), and a discharge auger (15) rotated to a discharge set position outside the machine body are automatically restored. An automatic return switch (60) that is an automatic storage operation member that returns the augerest (59) to the position of the auger rest (59), and a discharge port rotation operation member (61) that rotates the discharge port (25) to the discharge set position or the storage position. These operation levers (57), operation members (58), (61), and switches are provided in the box (56) at a discharge work position such as a truck bed and away from the driver's seat (18). 60) by operating the discharge auger (15) of the swivel and the outlet (are configured to perform the rotation of 25). As shown in FIG. 10, the operation box (56) may be provided directly on the left outer surface of the auger tube (34) of the discharge auger (15) at the rear position of the discharge port (25). Regardless of the rotational position of (25), the operability can be improved by always operating the operation box (56) at a fixed position of the discharge auger (15).
[0020]
  2 and 12, the auger operation panel (62) in the vicinity of the driver's seat (18) is also provided with an auger operation lever (57), an auger clutch operation member (58), an auto return switch ( 60) and a discharge port turning operation member (61), and an auto set switch (63) for automatically turning the discharge auger (15) from the storage position of the auger rest (59) to the discharge set position outside the machine body. And a potentiometer type auto set setting volume (64) for arbitrarily setting the discharge set position, and a potentiometer type discharge port setting volume (65) for arbitrarily setting the discharge set position of the discharge port (25). It is configured to perform various operations of the discharge auger (15) at the driver seat (18).
[0021]
  Then, as shown in FIG. 12, an auger up / down switch (66) (67) for detecting the raising / lowering operation of the operating lever (57), and an auger left / right turning for detecting the turning operation of the operating lever (57). Switches (68) (69), an auger clutch on / off switch (70) (71) for detecting on / off operation of the auger clutch operating member (58), an auto return switch (60), and rotation of the discharge port Discharge port set and storage switches (72) (73) for detecting the setting and storage operation of the operation member (61), auto set switch (63), auto set setting volume (64), and discharge port set volume (65 ), An auger position sensor (32) and a discharge port position sensor (54) are connected to the controller (74), and the lifting cylinder (27) is manufactured. A controller (74) for an electromagnetic lift valve (75), an auger turning motor (30), an auger clutch motor (76) for driving the auger clutch (26) on and off, and a discharge port turning motor (45) Are connected to automatically and manually turn the discharge auger (15) and rotate the discharge port (25) automatically and manually.
[0022]
  As shown in FIG. 14, the upper discharge auger (15) has a turning range set to 270 °, the storage position of the auger rest (59) is set to a turning angle of 0 °, and the discharge set position which is the maximum turning position is the turning angle 270. The upper discharge auger (15) is swung by the non-dischargeable area where the discharge port (25) is located above the fuselage and the discharge areas on the left, rear and right sides, and the storage position or set position. When the upper discharge auger (18) makes a turning transition, the upper discharge auger (15) moves from the constant speed operation region where the upper discharge is turned to the deceleration operation region and the slow operation region, and the turning speed is reduced in two stages. The force is reduced stepwise to stop the turning operation.
[0023]
  Further, as shown in the flowchart of FIG. 13, when the output of the auger position sensor (32) is not in the stowed position by operating the auto return switch (60), the elevating cylinder (27) and the swing motor (30) are automatically operated. The storage operation for controlling the auger (15) to the auger rest (59) is automatically performed, and the auger clutch (26) is engaged when the automatic storage and the auger (18) are in the storage position. Even if it is turned off, it is turned off and held, and when the manual operation is not performed, the auto set switch (63) is operated, so that the auto set setting volume (64) and the auger position sensor (32) are operated. ) When there is a difference in output and the output of the auger position sensor (32) does not reach the set position, the lifting cylinder (27) and swivel Automatically controlling the data (30) to automatically move the auger (15) to the set position of the auto-setting setting volume (64), and when the auger (15) is at the set position, An auger clutch on / off switch (70) (71) is used to turn on or off the auger clutch (26). During the automatic storage operation and automatic setting operation, the auger (15) is in the storage position or set position. When the position is more than a predetermined distance from the position, the turning motor (30) is operated at a high speed by continuous operation as a constant speed operation area, and when the auger (15) approaches the storage position or set position, the deceleration operation area In addition, the turning motor (30) is operated while being gradually decelerated by a pulse operation as a slow speed operation region.
[0024]
  Further, when the switches (66) to (69) are manually operated with the operation lever (57) of the operation panel (62) in the vicinity of the driver's seat (18), the automatic storing and setting operations are stopped, When the auger position sensor (32) has not reached the storage position or the set position, the turning motor (30) is operated at the speeds of the constant speed, deceleration, and slow speed operating ranges shown in FIG. A high-speed manual operation for operating the turning motor (30) at a high speed by continuous operation is performed until the switches (68) and (69) are turned off. When the auger (15) is in the storage position, the auger clutch (26) When the high-speed manual operation is performed or at the set position, the auger clutch on / off switch by the auger clutch operating member (58) is held. Ji (70) (71) on and off by the ON operation or OFF operation of the auger clutch (29) is performed.
[0025]
  Further, when the switches (67) to (69) are manually operated with the operation lever (57) of the operation box (56) at the tip of the upper discharge auger (18), the auger position sensor (32) is moved to the storage position or When the set position has not been reached, the turning motor is operated by the same pulse operation as the slow speed operation region of FIG. 14 except that the control is stopped by the reverse operation of the switches (66) to (69) on the operation panel (62) side. When the auger (15) is in the stowed position, the auger clutch (26) is turned off and held even when the auger clutch (26) is engaged, while the low speed manual operation is performed. When broken or set, the auger clutch on / off switch (70) (71) is manually operated to turn on or off the auger clutch (26).
[0026]
  On the other hand, when the auto set switch (63) or the auto return switch (60) is not operated, the discharge port setting or storage switch (72) (73) is manually operated by the discharge port turning operation member (61). In some cases, the discharge port (25) is manually rotated by the rotation motor (45) to manually set or store the discharge port (25), and the auto set switch (63) or the auto return switch (60). During the set operation in which the discharge auger (15) rises to the maximum angle (maximum ascending position) by the operation and turns, when the discharge auger (15) rises to the maximum angle, the discharge port setting volume (65) The automatic setting or storage operation of moving the discharge port (25) to the set position or the storage position of the discharge auger (15) is performed. There is an automatic set or storage operation is also carried out a series at the same time of the discharge port at the time of storage work (25). Also, when the discharge port (25) is automatically and manually stored, the auger clutch (26) is automatically turned off while the auger clutch (26) is being engaged, and the auger clutch (26) is held off. .
[0027]
  As apparent from the above, in the combine provided with the discharge auger (15) for taking out the grains in the grain tank (13) so as to be pivotable horizontally above the grain tank (13), the shaft at the tip of the discharge auger (15) By connecting the discharge port (25) to be pivotable in the core direction, the discharge auger (15) is stopped during the discharge operation by rotating the discharge port (25) in the front-rear direction without moving the machine body as in the past. Grain can be discharged evenly in the front-rear direction without storage, and good grain storage can be done for truck beds, containers, etc. Grain can be improved over a wide area by using swiveling and lifting operations of the discharge auger (15). It can be discharged.
[0028]
  Further, the rotation fulcrum shaft (35) of the discharge port (25) is disposed below the tip of the auger cylinder (34) of the discharge auger (15), so that the rotation fulcrum shaft (35) is obstructed. The discharge port (25) can be satisfactorily discharged by the non-discharge auger (15) and the discharge port (25), and when the discharge port (25) is stored, the discharge port (25) is folded in two along the lower side of the discharge auger (15). Can be stored compactly.
[0029]
  Further, the rotation motor (45) is connected to the rotation fulcrum shaft (35) of the discharge port (25), and the discharge port (25) is rotated by the rotation motor (45). (25) It is possible to easily and accurately rotate and adjust the position to the set position or the storage position by drive control of the motor, and also easily connect the discharge auger (15) to the raising and lowering and turning of the discharge auger ( 15) and a series of automatic setting of the discharge port (25) or storage control can be easily performed.
[0030]
  In addition, a cylindrical discharge port (25) is rotatably connected in the axial direction of the tip of the discharge auger (15), and the auger cylinder (34) of the discharge auger (15) when the discharge auger (15) is turned to the maximum. And the discharge auger (15) from the base grain receiving surface (36a) of the discharge port (25).Spiral(15b)ofBy projecting the tip forward, the discharge auger (15)Spiral(15b) is faced forward from the auger tube (34), so that grains such as cocoons sent by the discharge auger (15) are prevented from accumulating in the auger tube (34), and clogging is promoted by promoting smooth discharge. In addition to preventing grain leakage and clogging with the discharge port (25), good grain discharge can be performed at all times.
[0031]
  Further, the cylindrical portion (38) of the discharge port (25) is formed of a rubber material, and the wire body (40) is disposed inside the rubber cylindrical portion (38), so that the discharge port (25) can be easily formed. There is no inconvenience such as damage even when the tip of the discharge port (25) is brought into contact with a truck bed or a container into which grains are to be thrown in, as well as processing, and it is also troublesome when brought into contact with an operator or the like. However, it is possible to always discharge the grain while keeping the discharge port (25) in an appropriate shape with the linear body (40).
[0032]
  In addition, the discharge port (25) is rotatably connected to the tip of the discharge auger (15), and the discharge port position sensor (54) for detecting the rotation position of the discharge port (25) is provided. The combination of the rotation motor (45) for controlling the rotation of the outlet (25) and the position sensor (54) enables easy automatic setting up to the set position of the discharge port (25) and automatic storage up to the storage position. In addition, even when the discharge port (25) rotates more than a predetermined value due to an erroneous operation or the like, the position sensor (54) can detect it quickly and surely to prevent problems such as breakage.
[0033]
  Further, by restricting the amount of rotation by the position sensor so that the front end outlet (25a) of the outlet (25) always faces downward from the horizontal, the outlet (25) which makes the lower end outlet (25a) horizontal. ) Within a certain work rotation range (θ1) from the storage position, the throat (25a) can always face downward, facilitating smooth grain discharge.
[0034]
  Furthermore, by automatically stopping the driving of the discharge auger (15) when the discharge port (25) is rotated and stored, the inconvenience of discharging the grain when the discharge port (25) is stored or stored is eliminated. Accidents such as clogging can be prevented in advance.
[0035]
  In addition, a remote operation device (56) for connecting the discharge port (25) to the tip of the discharge auger (15) so as to be rotatable and performing operations such as turning of the discharge auger (15) and rotation of the discharge port (25). Is integrally provided in the vicinity of the rotation fulcrum of the discharge port (25), so that, for example, an operator can turn and lift the discharge auger (15) while watching the grain accumulation on the truck bed, and the discharge port ( 25), the grain is discharged uniformly and efficiently, and the operator's hand can reach the operation device (56) regardless of the position of the discharge port (25). Can be appropriately operated.
[0036]
  Further, an operation member (60) for operating the discharge auger (15) and the discharge port (25) in series from the set position to the storage position is provided in the operation device (56), so that, for example, a truck bed that is separated from the machine. The storage operation of the discharge auger (15) and the discharge port (25) from above is performed easily and reliably, simplifying the storage operation of the discharge auger (15) and the discharge port (25) and improving the work efficiency. Can be planned.
[0037]
  Further, the discharge port (25) is rotatably connected to the tip of the discharge auger (15), and when the discharge auger (15) is automatically turned to the set position outside the machine body, the discharge port (25) is also moved to the predetermined set position. By automatically turning, when the discharge auger (15) is set to the set position, the discharge port (25) is also always set to the set position to prevent grain clogging due to forgetting to set the discharge port (25) and discharging. The troublesome work of setting the outlet (25) each time can be eliminated, and the operation can be simplified and the workability can be improved.
[0038]
  Further, when the discharge auger (15) is automatically turned to the storage position inside the machine body, the discharge port (25) is also automatically rotated to a predetermined storage position, so that the discharge auger (15) is stored. In addition to preventing forgetting, it is possible to eliminate the hassle of storing the discharge port (25) each time.
[0039]
  Further, when the discharge auger (15) is automatically raised during the automatic turning operation of the discharge auger (15), the discharge port (25) is automatically rotated to discharge during the automatic setting or storage operation of the discharge port (25). It is possible to prevent an accident such as the outlet (25) coming into contact with the airframe or the truck bed and damaging it, and to enable the discharge port (25) to be satisfactorily set or stored.
[0040]
  15 to FIG. 18, the discharge port rotation motor (45) is disposed horizontally in the horizontal direction between the left and right side plates (36c) of the discharge member (36). A fulcrum shaft (35) connected to and fixed to the discharge member (36) is rotatably attached to the base plate (42) fixed to the lower surface of the motor (45) via the cylindrical shaft (43), and the motor (45) is lowered. A motor base (46) fixed to the side is detachably fixed to the lower surface of the base plate (42) via a bolt (47), and a large-diameter bevel gear (77) fixed to the left end side of the fulcrum shaft (35) is provided. When the fulcrum shaft (35) is rotated by driving the rotation motor (45) in the same manner as in the previous embodiment, the fulcrum shaft (35) is coupled to a small-diameter bevel gear (78) attached to the motor shaft (48) of the motor (45). The discharge port (25) is also rotated in the front-rear direction integrally with (35). It is obtained by sea urchin configuration. In the case of this configuration, the rotation motor (45) is arranged with good left-right balance around the auger shaft (15a) below the auger tube (34) to form a compact structure, and the auger tube as in the previous embodiment. Compared to the structure in which the motor (45) is disposed in the horizontal longitudinal direction in the front-rear direction below the left and right sides centering on (34), the width between the left and right side plates (36) of the discharge member (36) is reduced, and the discharge port (25) can be formed into a small and lightweight one with a small left and right width.
[0041]
  19 and 20 show a configuration in which the discharge port (25) is rotatably provided around the axis of the auger shaft (15a). The discharge port (25) is separated from the auger tube (34) on the base end side. 25) A mouth tube (79) connected to the rear end, a large-diameter gear (80) connected and fixed to the outer periphery of the mouth tube (79), and an outer periphery of the auger flange (81) at the tip of the auger tube (34) A holding plate (82) that squeezes the surface with a large-diameter gear (80) so that the surface can be freely rotated, and the holding plate (82) is fixed to the large-diameter gear (80) via a collar at a predetermined interval so as to be freely removable. The mounting bolt (83), the rotation motor (85) fixed to the fixing bracket (84) of the auger tube (34), and the end of the motor shaft (86) of the rotation motor (85) are fixed to the large shaft. A small-diameter gear (87) coupled to the radial gear (80) and driven by the motor (85). When rotating the small diameter gear (87), the discharge port (25) is configured to rotate in the left-right direction around the auger shaft (15a) integrally with the large diameter gear (80) coupled to the small diameter gear (87). It is a thing. In this case, only the discharge port (25) is moved in the left-right direction while maintaining the front and rear positions of the discharge port (25), and the grains from the discharge port (25) are uniformly distributed in the left-right direction around the discharge auger (15). It can be discharged.
[0042]
【The invention's effect】
  As is apparent from the above embodiments, the present invention provides a combine that includes a discharge auger for taking out grains from a grain tank so as to be pivotable above the grain tank, and a cylindrical discharge port is rotatable at the tip of the discharge auger. And the front end of the spiral portion of the discharge auger protrudes forward from the auger tube of the discharge auger, and the discharge port is rotated through a lateral rotation fulcrum shaft provided below the front end of the auger tube. A rotation base plate having a substantially inverted L-shaped discharge member attached to the auger tube in a movable manner and having a tube shaft fixed to the rotation fulcrum shaft rotatably supported on the lower outer side of the auger tube. A motor base on which a discharge port rotation motor having a small-diameter gear attached to a motor shaft is mounted on the left side surface of the rotation base plate, and the small-diameter gear and the rotation fulcrum shaft Provide a fixed large-diameter gear combined, Rotation of the rotational fulcrum shaft by driving an outlet rotation motorSetThe discharge port can be rotated in the front-rear direction,The discharge portion has an outer peripheral wall that faces the tip opening of the auger tube as an arc portion centered on the rotation fulcrum shaft, and has an inner peripheral surface along the arc portion outside the arc portion. Connect and fix the cover to the outside of the auger tube,The discharge port rotation motor, the small diameter gear, and the fixed large diameter gear,in frontLeft side plate of discharge memberAndAnd the left side plate of the outlet cover,Since it is provided between the auger cylinder, the spiral part of the discharge auger faces the front of the auger cylinder, so that grains such as cocoons sent by the discharge auger are prevented from accumulating in the auger cylinder. It is possible to prevent clogging by promoting proper discharge, and also to prevent grain leakage and clogging with the discharge port, and always perform good grain discharge, and always discharge port rotation motor and small diameter gear The fixed large-diameter gear can be protected by being covered with the discharge port cover and the discharge member.
[Brief description of the drawings]
FIG. 1 is an overall side view of a combine.
FIG. 2 is an overall plan view of the combine.
FIG. 3 is an explanatory plan view of a grain tank unit.
FIG. 4 is an explanatory diagram of a longitudinal feed auger section.
FIG. 5 is an explanatory side view of a discharge port.
FIG. 6 is an explanatory side view of a discharge port turning portion.
FIG. 7 is an explanatory front view of a discharge port turning portion.
FIG. 8 is an explanatory plan view of a discharge port turning portion.
FIG. 9 is an explanatory side view of a remote control box unit.
FIG. 10 is an explanatory diagram of another mounting structure of the remote control box unit.
FIG. 11 is an explanatory view of the maximum angle rotation of the discharge port.
FIG. 12 is an auger control circuit diagram.
FIG. 13 is a flowchart.
FIG. 14 is an output diagram of a turning position sensor.
FIG. 15 is an explanatory side view of a discharge port in another installation structure of an auger turning motor.
FIG. 16 is an explanatory side view of a discharge port in another installation structure of an auger turning motor.
FIG. 17 is a front explanatory view of a discharge port in another installation structure of an auger turning motor.
FIG. 18 is an explanatory plan view of a discharge port in another installation structure of an auger turning motor.
FIG. 19 is an explanatory side view of another rotating structure of the discharge port.
FIG. 20 is a front explanatory view of another rotating structure of the discharge port.
[Explanation of symbols]
(13) Grain tank
(15) Discharge auger
(15b)Spiral
(25) Discharge port
(34) Ogre tube
(36a) Grain receiving surface (grain receiving part)
(38) Tube part
(40) Linear body

Claims (1)

In a combine equipped with a discharge auger (15) for taking out the grains in the grain tank (13) so as to be pivotable above the grain tank (13),
A cylindrical discharge port (25) is rotatably connected to the tip of the discharge auger (15), and the tip of the spiral portion (15b) of the discharge auger (15) from the auger tube (34) of the discharge auger (15). While projecting the part forward,
The discharge port (25) is mounted on the auger tube (34) so as to be rotatable through a lateral rotation fulcrum shaft (35) provided at the lower end of the auger tube (34). L-shaped discharge member (36) provided,
A rotation base plate (42) fixed to a cylinder shaft (43) that rotatably supports the rotation fulcrum shaft (35) is fixed to the lower outer side of the auger tube (34),
On the left side surface of the rotation base plate (42) is provided a motor base (46) to which a discharge port rotation motor (45) having a small diameter gear (49) attached to a motor shaft (48) is mounted.
The rotation fulcrum shaft (35) is provided with a fixed large diameter gear (50) coupled to the small diameter gear (49), and the discharge fulcrum motor (45) is driven to drive the rotation fulcrum. axis (35) is rotated by rotatable said discharge port (25) in the longitudinal direction,
The discharge portion (36) forms an outer peripheral wall facing the tip opening of the auger tube (34) in an arc portion (36a) centered on the rotation fulcrum shaft (35), and the arc portion (36a ) The outlet cover (53) having the inner peripheral surface (53a) along the arc portion (36a) on the outer side is connected and fixed to the outer side of the auger tube (34),
And the outlet rotating motor (45), and said small-diameter gear (49), the left of the stationary large-diameter gear (50), the left side plate 及 beauty the outlet cover before Symbol discharge member (36) (53) A combine provided between a plate and the auger tube (34).

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