JP6896435B2 - Paddy field work machine - Google Patents

Description

The present invention relates to a paddy field working machine such as a riding type rice transplanter or a riding type direct sowing machine that supplies materials such as seedlings, seeds, fertilizers and chemicals to a rice field surface.

In a passenger-type rice transplanter, which is an example of a paddy field work machine, as disclosed in Patent Document 1, a seedling planting device is used while traveling substantially straight from one ridge to the other ridge in a paddy field. (Equivalent to a work device) is used to plant seedlings. Next, when the traveling aircraft reaches the other ridge, the work run is interrupted, the turn is made at the other ridge, and the next work run is started from the other ridge toward one ridge. , Work running and turning are repeated.

In Patent Document 1, a work traveling line on which the traveling machine travels while planting seedlings by the seedling planting device is set, and a positioning unit for detecting the position of the traveling machine is provided on the traveling machine, and the position of the traveling machine is provided. Based on the above, a function is provided for automatically maneuvering the traveling machine so that the traveling machine automatically travels along the work running line.

Even if the autopilot function is not provided, a positioning unit may be provided to acquire a work travel line, and the position of the traveling aircraft and the work travel line may be displayed on a display device such as a display.
As a result, the driver can visually move the traveling machine along the working running line by operating the steering while visually recognizing the positional relationship between the position of the traveling machine and the working running line. it can.

Japanese Unexamined Patent Publication No. 2008-92818

Since the paddy field working machine as described above roughens the paddy field surface by the front wheels and the rear wheels when traveling in the paddy field, there is a high demand for leveling the paddy field surface.
An object of the present invention is to ensure that the surface of a paddy field is properly leveled in a paddy field working machine.

The paddy field working machine of the present invention
A work device that is supported by the traveling machine so that it can be raised and lowered to supply materials to the surface of the field.
A ground leveling part that can be raised and lowered is provided at a leveling position where the ground is leveled by touching the ground surface and a non-leveling position that rises upward from the field surface.
A positioning unit for detecting the position of the traveling machine and a working running line acquisition unit for acquiring the working running line on which the traveling machine travels are provided.
A discriminating unit for determining non-working travel in which the traveling machine is traveled on a route from an entrance in a paddy field to a work start position where work is first started with the work apparatus stopped.
When the traveling machine travels on the route from the entrance in the paddy field to the work start position where the work is first started, the control unit for automatically lowering the ground leveling portion to the ground leveling position is provided.

According to the present invention, when the work running is performed based on the positioning unit and the work running line acquisition unit, the ground leveling unit is automatically lowered to the leveling position in the non-working run performed before the start of the work running. Ground leveling is performed by the ground leveling section.
Focusing on the non-working run that is performed before the start of the work running in this way, by making the ground leveling by the ground leveling part perform in the non-working run, the ground leveling of the rice field can be properly performed and the work can be performed. The work of the device will be performed accurately.

In the present invention
The discriminating unit
It is preferable to determine the non-working travel based on the position of the traveling machine body and the working traveling line.

According to the present invention, since the work travel line on which the work is performed by the work apparatus is recognized as position data, non-work travel can be appropriately determined based on the position of the traveling machine detected by the positioning unit and the work travel line. Can be done.

In the present invention
The ground leveling portion is a float provided in the lower part of the working device.
The control unit
In the non-working run, it is preferable to lower the ground leveling portion to the ground leveling position by lowering the work device to the field surface while the work device is stopped.

In paddy field working machines such as riding type rice transplanters and riding type direct seeding machines, a float is often provided at the bottom of the working device. In addition to the function of stabilizing the posture of the work equipment by touching the ground surface, the float also has a function of pressing the unevenness of the rice field surface from above to level the ground surface.
According to the present invention, in non-working running, the work device is lowered to the rice field surface while the work device is stopped, and the float touches the rice field surface to level the ground surface. It can be used effectively.

In the present invention
The ground leveling portion is a ground leveling device that rotationally drives the ground leveling body around the horizontal axis in the left-right direction.
A ground leveling device for raising and lowering the ground leveling portion to the ground leveling position and the non-leveling position is provided.
The discriminating unit
The non-working run and the turning work running in which the traveling machine body runs along the ridge with the working device in the operating state are determined.
The control unit
In the non-working run and the rotating work running, it is preferable to lower the ground leveling portion to the ground leveling position by the ground leveling section elevating device.

Paddy rice transplanters such as passenger-type rice transplanters and passenger-type direct seeders may be equipped with a ground-leveling device that rotationally drives the ground-leveling body around the horizontal axis in the left-right direction, and the ground-leveling device has a high leveling function.
According to the present invention, in non-working travel, the ground leveling device is lowered to the leveling position, and the ground leveling device prepares the ground surface.

In paddy field work machines such as passenger-type rice transplanters and passenger-type direct seeders, in addition to normal work travel, the traveling machine may travel around the ridges along the ridges. When the work run is repeated, the ridge is often a place to turn the running machine, so the field surface is often rough.
According to the present invention, in the rotating work running, the ground leveling device is lowered to the ground leveling position, and the work running is performed while the ground leveling device prepares the ground surface, so that the work of the work device is accurate even when the field surface is rough. It will be done often.

In the present invention
It is preferable that an automatic traveling control unit that automatically controls the traveling aircraft is provided so that the traveling aircraft travels along the work traveling line based on the position of the traveling aircraft.

According to the present invention, since the traveling machine body automatically travels along the working traveling line to perform the work, the work of the working apparatus can be performed with high accuracy.

In the present invention
For the non-working run
It includes a state in which the work is interrupted to replenish the materials and the vehicle travels to a predetermined position on the ridge, and a state in which the supply of materials is completed and the vehicle travels to a position where the work is resumed from the predetermined position on the ridge. Suitable.

In a paddy field work machine, for example, when materials such as seedlings, seeds, fertilizers, chemicals, and fuel are low, the work is interrupted, the traveling machine is moved to a predetermined position on the ridge and stopped, and the material is removed from the ridge. Replenish. When the supply of materials is completed, the traveling machine is driven from a predetermined position on the ridge to a position where the work is resumed, and the work is resumed.

According to the present invention, paying attention to the non-working run for replenishing the materials as described above, the ground leveling by the ground leveling portion is performed, so that the ground leveling of the rice field is appropriately performed, and the work apparatus. Work will be done accurately.

It is an overall side view of a passenger-type rice transplanter. It is an overall plan view of a passenger-type rice transplanter. It is a schematic plan view which shows the steering operation system of a front wheel, and the transmission system to a front wheel and a rear wheel. It is a figure which shows the linkage state of a control device and each part. It is a top view which shows the setting state of a work running line and a turning line. It is a top view which shows the setting state of a work running line and a turning line. It is a top view which shows the setting state of a work running line and a turning line. It is a top view which shows the running state along the work running line and the turning line of a running machine. It is a top view which shows the running state along the work running line and the turning line of a running machine. It is a top view which shows the running state along the work running line and the turning line of a running machine. It is a top view which shows the running state in the rotating work running of a traveling machine body. It is a top view which shows the setting state of the work running line and the turning line which are different from the state shown in FIG. It is a top view which shows the running state to a predetermined position of a ridge. It is a top view which shows the traveling state to the predetermined position of the ridge in 1st alternative embodiment of the invention.

In the embodiment of the present invention, a 6-row planting type passenger-type rice transplanter, which is an example of a paddy field working machine for planting in a paddy field, is shown.
Unless otherwise specified, the front-rear direction and the left-right direction in the embodiment of the present invention are described as follows. When the traveling machine body 50 is traveling, the traveling direction on the forward side is "forward", and the traveling direction on the reverse side is "rear". The direction corresponding to the right side is "right" and the direction corresponding to the left side is "left" with respect to the forward posture in the front-back direction.

(Overall configuration of passenger rice transplanter)
As shown in FIGS. 1 and 2, the passenger-type rice transplanter drives the link mechanism 3 and the link mechanism 3 up and down at the rear part of the traveling machine body 50 having the right and left front wheels 1 and the right and left rear wheels 2. A hydraulic cylinder 4 is provided, and a seedling planting device 5 (corresponding to a working device) is supported at the rear of the link mechanism 3.

As shown in FIGS. 1 and 2, the seedling planting device 5 is rotatably arranged on the right and left sides of the planting transmission case 6 and the rear portion of the planting transmission case 6 arranged at predetermined intervals in the left-right direction. It is provided with a supported rotating case 7, a pair of planting arms 8 provided at both ends of the rotating case 7, a float 9 (corresponding to a ground leveling portion), a seedling stand 10, and the like.

As shown in FIGS. 1 and 2, three floats 9 are provided at the lower part of the seedling planting device 5 so as to be arranged in the left-right direction. Each of the floats 9 is located between and in front of the two sets of rotating cases 7 and the planting arms 8 (two rows), and the three floats 9 are the full width of the seedling planting by the seedling planting device 5. It is arranged so as to cover.

As shown in FIGS. 1 and 2, the float 9 has a function of stabilizing the posture of the seedling planting device 5 by touching the surface of the rice field and a function of pressing the unevenness of the surface of the rice field from above to level the surface of the rice field. I have. Since the right and left floats 9 are arranged behind the right and left rear wheels 2, the ground surface is mainly leveled by the right and left rear wheels 2.

As described later (automatic elevating control of the seedling planting device), the central float 9 is from the rice field surface (center float 9) to the seedling planting device 5 in the automatic elevating control of the seedling planting device 5. It is also used to detect height.

As shown in FIG. 4, right and left markers 19 are provided on the right and left sides of the seedling planting device 5, and are in an action posture in which the seedling planting device 5 is in contact with the ground and a retracted posture in which the seedlings are separated from the rice field (see FIG. 4). ) Can be changed freely. The right and left markers 19 include an arm portion 19a supported by the seedling planting device 5 so as to be swingable up and down, and a rotating body 19b supported by the tip portion of the arm portion 19a so as to be freely rotatable. An electric motor 21 for operating the right and left markers 19 in the working posture and the retracting posture is provided.

(Transmission system to front and rear wheels)
As shown in FIGS. 1 and 3, the power of the engine 31 provided in the front portion of the traveling machine body 50 is transmitted to the hydrostatic continuously variable transmission 33 and the transmission case 34 via the transmission belt 32. From the auxiliary transmission (not shown) inside the transmission case 34 to the front wheels 1 on the right and left via the front wheel differential mechanism (not shown) and the transmission shaft inside the front axle case 35 (not shown). Be transmitted.

As shown in FIGS. 1 and 3, the power of the auxiliary transmission is the transmission shaft 36, the input shaft 38 of the rear axle case 37, the bevel gear 38a fixed to the input shaft 38, the bevel gear 39a and the bevel gear 39a that mesh with the bevel gear 38a. It is transmitted to the right and left rear wheels 2 via the fixed transmission shaft 39 and the right and left side clutches 40.

As shown in FIGS. 1, 2 and 4, a speed change lever 45 is provided on the left lateral side of the control handle 20, and the speed change lever 45 and the continuously variable transmission 33 cooperate with each other (not shown). It is mechanically connected via. The shift lever 45 allows the continuously variable transmission 33 to be operated steplessly from the neutral position N to the forward side F and the reverse side R.

As shown in FIG. 3, the steering member 41 is swingably supported around the vertical axis P2 at the lower part of the mission case 34, and the tie rod 42 extends over the steering member 41 and the right and left front wheels 1. It is connected. As shown in FIGS. 1 and 2, a steering wheel 20 is provided on the front side of the driver's seat 13, and the steering handle 20 and the steering member 41 are mechanically connected via a steering shaft 11 (see FIG. 4). Has been done.

As a result, as shown in FIGS. 3 and 4, the steering member 41 is swung by the steering handle 20, and by operating the steering handle 20, the right and left front wheels 1 are moved straight from the straight-ahead position A1. , Right and left steering limits A3 can be operated.

As shown in FIG. 3, the right and left side clutches 40 are of a friction multi-plate type and are urged to a transmission state by a spring (not shown). The right and left operating shafts 43 that operate the right and left side clutches 40 in a shut-off state against the spring are supported downward by the rear axle case 37, and the steering member 41 and the right and left operating shafts 43 are supported. The right and left operating rods 44 are connected to the above. The right and left operating rods 44 are provided with elongated holes 44a for flexibility at the connecting portions with the right and left operating shafts 43.

As shown in FIG. 3, when the right and left front wheels 1 are steered within the range of the straight-ahead position A1 and the right and left set angles A2, the accommodation of the elongated holes 44a of the right and left operation rods 44 causes the steering operation. The right and left side clutches 40 are operated in the transmission state. As a result, the traveling aircraft 50 moves forward (reverse) while the power is transmitted to the right and left front wheels 1 and the right and left rear wheels 2 (the transmission state of the right and left side clutches 40).

As shown in FIG. 3, when the right and left front wheels 1 are steered to the right steering limit A3 side beyond the right set angle A2, the range of the elongated hole 44a of the right operating rod 44 is exceeded. The right operating rod 44 is pulled, and the right operating shaft 43 operates the right side clutch 40 in a disengaged state.
As a result, power is transmitted to the right and left front wheels 1 and the left rear wheel 2 (turning outside) (the transmission state of the left side clutch 40), and the right rear wheel 2 (turning center side) (right side clutch). The traveling machine body 50 turns to the right while the clutch state (40) is freely rotating.

As shown in FIG. 3, when the right and left front wheels 1 are steered to the left steering limit A3 side beyond the left set angle A2, the range of the elongated hole 44a of the left operating rod 44 is exceeded. The left operating rod 44 is pulled, and the left operating shaft 43 operates the left side clutch 40 in a disengaged state.
As a result, power is transmitted to the right and left front wheels 1 and the right rear wheel 2 (turning outside) (the transmission state of the right side clutch 40), and the left rear wheel 2 (turning center side) (left side clutch). The traveling machine body 50 turns to the left while the clutch state (40) is freely rotating.

As shown in FIG. 3, when the right and left front wheels 1 are steered from the right (left) steering limit A3 side to the right (left) set angle A2 to the straight-ahead position A1 side, the clutch is shut off. The operated right (left) side clutch 40 is operated to the transmission state, and the right and left side clutches 40 are returned to the transmission state.

(Transmission system to seedling planting device)
As shown in FIGS. 1 and 4, in the mission case 34, the power branched from immediately before the auxiliary transmission is transmitted to the seedling planting device 5 via the planting clutch 26 and the PTO shaft 25, and is planted. An electric motor 28 that operates the clutch 26 in a transmission and disengagement state is provided.

As shown in FIGS. 1 and 2, when the planting clutch 26 is operated in the transmission state, the rotating case 7 is driven to the left and right by reciprocating and laterally feeding, and the rotating case 7 is counterclockwise to the paper surface of FIG. It is rotationally driven in the clockwise direction, and the planting arms 8 alternately take out the seedlings from the lower part of the seedling stand 10 and plant them on the rice field surface. When the planting clutch 26 is operated in the disconnected state, the seedling stand 10 and the rotating case 7 are stopped.

(Leveling device)
As shown in FIG. 1, a ground leveling device 71 (corresponding to a ground leveling section) is supported at the front portion of the seedling planting device 5.

As shown in FIG. 1, right and left support cases 72 are swingably supported up and down around the horizontal axis P3 in the left-right direction at the right and left ends of the seedling planting device 5 and extend to the front side. Has been done. A drive shaft (not shown) is rotatably supported around the horizontal axis P4 in the left-right direction over the front portion of the right and left support cases 72, and a large number of ground leveling bodies 73 are rotatably supported on the drive shaft in the left-right direction. They are connected so that they are lined up. As a result, the ground leveling body 73 is arranged on the front side of the float 9 over the entire width of seedling planting by the seedling planting device 5.

As shown in FIG. 1, the elevating member 74 is fitted outside in the middle portion of the drive shaft, and an elevating motor 75 (corresponding to a leveling portion elevating device) for elevating and driving the elevating member 74 is provided. The lifting motor 75 lifts and lowers the ground leveling device 71 to a ground leveling position where the ground leveling body 73 touches the ground surface (see FIG. 1) and a non-leveling position where the ground leveling body 73 greatly rises upward from the field surface.

The power transmitted to the transmission shaft 39 shown in FIG. 3 is a ground leveling clutch (not shown) provided inside the rear axle case 37, and a transmission shaft (not shown) connected to the rear axle case 37 and the ground leveling device 71. It is transmitted to the ground leveling device 71 via (not shown). The drive shaft and the ground leveling body 73 are rotationally driven around the horizontal axis P4 in the counterclockwise direction on the paper surface of FIG. 1, and the ground leveling body 73 prepares the ground surface.

When the ground leveling device 71 is lowered to the ground leveling position, the ground leveling clutch is automatically operated in the transmission state, and when the traveling machine body 50 is in the traveling state (power is transmitted to the transmission shaft 39), The leveling body 73 is rotationally driven as described above. When the ground leveling device 71 is raised to a non-leveling position, the ground leveling clutch is automatically operated to the disengaged state, and the ground leveling body 73 stops.

As shown in FIG. 1, in the leveling device 71, the leveling position is a position at substantially the same height as the float 9, and the non-leveling position is a position that greatly rises upward from the position of the float 9.
As will be described later, when the seedling planting device 5 is lowered to the rice field surface and the float 9 is in contact with the rice field surface and the ground leveling device 71 is lowered to the ground leveling position, the ground leveling body 73 touches the ground surface. When the ground leveling device 71 is raised to a non-leveling position, the ground leveling body 73 moves upward from the field surface.
When the seedling planting device 5 is operated to rise from the rice field surface and the float 9 is moved upward from the rice field surface, even if the ground leveling device 71 is operated to descend to the ground leveling position, the ground leveling body 73 does not touch the ground surface and moves upward from the rice field surface. is seperated.

(Automatic elevating control of seedling planting device)
As shown in FIG. 4, the rear portion of the central float 9 is swingably supported up and down around the horizontal axis P1 of the seedling planting device 5, and the height of the central float 9 with respect to the seedling planting device 5 is high. The height sensor 22 of the potentiometer type for detecting the above is provided, and the detection value of the height sensor 22 is input to the control device 23. The float 9 in the center follows the ground surface as the traveling machine body 50 advances, and the height from the rice field surface (float 9 in the center) to the seedling planting device 5 is detected by the detection value of the height sensor 22. be able to.

As shown in FIG. 4, the elevating operation unit 57 is provided in the control device 23 as software, and the control valve 24 for supplying / discharging hydraulic oil to the hydraulic cylinder 4 is operated by the elevating operation unit 57. When the control valve 24 is operated to the raised position, hydraulic oil is supplied to the hydraulic cylinder 4, the hydraulic cylinder 4 contracts, and the seedling planting device 5 rises. When the control valve 24 is operated to the lowering position, the hydraulic oil is discharged from the hydraulic cylinder 4, the hydraulic cylinder 4 is extended, and the seedling planting device 5 is lowered.

As shown in FIG. 4, in the operating state of the automatic elevating control, the elevating operation is performed so that the seedling planting device 5 is maintained at the set height from the rice field surface based on the height from the rice field surface to the seedling planting device 5. The control valve 24 is operated by the unit 57, the hydraulic cylinder 4 expands and contracts, and the seedling planting device 5 automatically moves up and down. As a result, the planting depth of the seedlings is maintained at the set depth.

(Operating lever)
As shown in FIGS. 1, 2 and 4, an operation lever 12 is provided on the right lateral side below the control handle 20, and the operation lever 12 extends to the right lateral outside. The operating lever 12 has a first ascending position UU1 on the upper side, a second ascending position UU2 on the upper side, a first descending position DD1 on the lower side, a second descending position DD2 on the lower side, a right marker position MR on the rear side, and a left marker position on the front side from the neutral position N1. It is configured to be operable in the cross direction of the ML and is urged to the neutral position N1, and the operation position of the operation lever 12 is input to the control device 23.

As shown in FIG. 4, an angle sensor 29 for detecting the vertical angle of the link mechanism 3 with respect to the traveling machine body 50 is provided, and the detection value of the angle sensor 29 is input to the control device 23. The clutch operation unit 58 and the marker operation unit 59 are provided in the control device 23 as software.

As described later (operation of each part based on the operation of the operation lever), the control valve 24 is operated to the ascending, neutral, and descending positions by the elevating operation unit 57 based on the operation of the operation lever 12. The automatic elevating control of the seedling planting device 5 described above is in the operating state and the stopped state.

As described later (operation of each part based on the operation of the operation lever), the electric motor 28 is operated by the clutch operation part 58 based on the operation of the operation lever 12, and the planting clutch 26 is in the transmission state and shut off. The state is operated, and the electric motor 21 is operated by the marker operation unit 59, and the right and left markers 19 are operated in the working posture and the retracted posture.

(Operation of each part based on the operation of the operation lever)
As shown in FIG. 4, when the operation lever 12 is operated to the second ascending position UU2, the planting clutch 26 is operated in the disconnected state, the automatic elevating control of the seedling planting device 5 is stopped, and the right and left markers. 19 is operated in the retracted posture, the control valve 24 is operated in the raised position, the hydraulic cylinder 4 is contracted, and the seedling planting device 5 is raised. When the angle sensor 29 detects that the seedling planting device 5 has reached the upper limit position, the control valve 24 is operated to the neutral position and the hydraulic cylinder 4 is stopped.

As shown in FIG. 4, when the operation lever 12 is operated to the second lowering position DD2, the planting clutch 26 is operated in the disconnected state, the automatic raising / lowering control of the seedling planting device 5 is stopped, and the right and left markers. While the 19 is operated in the retracted posture, the control valve 24 is operated to the lowering position, the hydraulic cylinder 4 is extended, and the seedling planting device 5 is lowered. When the float 9 in the center touches the surface of the rice field, the seedling planting device 5 touches the surface of the rice field and stops due to the automatic elevating control of the seedling planting device 5. When the operating lever 12 is operated to the second lowering position DD2 again, the planting clutch 26 is operated in the transmission state in the operating state of the automatic raising / lowering control of the seedling planting device 5.

As shown in FIG. 4, the operation lever is operated in the state where the planting clutch 26 is operated in the disconnected state and the right and left markers 19 are operated in the retracted posture while the automatic raising / lowering control of the seedling planting device 5 is stopped. When the 12 is operated to the first ascending position UU1, the control valve 24 is operated to the ascending position, the hydraulic cylinder 4 is contracted, and the seedling planting device is operated only while the operating lever 12 is operated to the first ascending position UU1. 5 goes up. When the operating lever 12 is operated to the neutral position N1, the control valve 24 is operated to the neutral position and the raising of the seedling planting device 5 is stopped.

As shown in FIG. 4, the operation lever is operated in the state where the planting clutch 26 is operated in the disconnected state and the right and left markers 19 are operated in the retracted posture while the automatic raising / lowering control of the seedling planting device 5 is stopped. When the 12 is operated to the first lowering position DD1, the control valve 24 is operated to the lowering position, the hydraulic cylinder 4 is extended, and the seedling planting device is operated only while the operating lever 12 is operated to the first lowering position DD1. 5 goes down. When the operating lever 12 is operated to the neutral position N1, the control valve 24 is operated to the neutral position and the lowering of the seedling planting device 5 is stopped.

As described above, the seedling planting device 5 can be raised and lowered only while the operating lever 12 is being operated to the first ascending position UU1 and the first descending position DD1, and the seedling planting device 5 can be arbitrarily used. It can be stopped by ascending and descending to the height of.

As shown in FIG. 4, when the operating lever 12 is operated to the right marker position MR, the right marker 19 is operated to the working posture. When the operating lever 12 is operated to the left marker position ML, the left marker 19 is operated to the working posture.

(Configuration of detection of the position of the traveling aircraft and the orientation of the traveling aircraft)
As shown in FIGS. 1 and 2, right and left support frames 16 are provided on the right and left portions of the front portion of the traveling machine body 50, and the spare seedling rest 15 is supported by the support frame 16. .. A support frame 17 is connected over the upper part of the right and left support frames 16.

As shown in FIGS. 1 and 2, a measuring device 30 (corresponding to a positioning unit) is attached to a portion of the support frame 17 located at the left and right center CL of the traveling machine body 50 in a plan view. The measuring device 30 is provided with a receiving device (not shown) that acquires position information by a satellite positioning system, and an inertial measurement device (not shown) that detects the inclination (pitch angle, roll angle) of the traveling machine body 50. The measuring device 30 outputs positioning data indicating the position of the traveling machine body 50.

As shown in FIGS. 1 and 2, an inertial measurement unit 48 for measuring inertial information is attached to a portion of the rear axle case 37 located at the left and right center CL of the traveling machine body 50 in a plan view.
The inertial measurement of the inertial measurement unit 48 and the measuring device 30 is configured by an IMU (Inertial Measurement Unit).

Above satellite positioning system: The (GNSS Global Navigation Satel l ite System ), GPS (Global Positioning System) may be mentioned as representative. GPS receives the measuring device 30 by using a plurality of GPS satellites orbiting the earth, a control station that tracks and controls GPS satellites, and a receiving device provided in a positioning target (traveling aircraft 50). It measures the position of the device.

The inertial measurement unit 48 includes a gyro sensor (not shown) capable of detecting the angular velocity of the yaw angle of the traveling machine body 50 (turning angle of the traveling machine body 50), and an acceleration sensor (not shown) that detects acceleration in three axial directions orthogonal to each other. (Not shown). The inertial information measured by the inertial measurement unit 48 includes directional change information detected by the gyro sensor and position change information detected by the acceleration sensor.
As a result, the measuring device 30 and the inertial measurement unit 48 detect the position of the traveling machine body 50 and the orientation of the traveling machine body 50.

(Configuration related to automatic driving of traveling aircraft)
As shown in FIGS. 1, 2 and 4, the operating position of the speed change lever 45 is input to the control device 23. A center mascot 14 is provided at the left and right center CL positions of the traveling machine body 50 in a plan view at the front portion of the traveling machine body 50. A steering motor 51 for operating the steering handle 20 (steering member 41) is provided, and a shifting motor 53 for operating the shifting lever 45 is provided.

As shown in FIG. 4, a Wi-Fi unit 47 corresponding to a smartphone 46 (mobile information terminal) carried by the driver is provided in the traveling machine body 50. The smartphone 46 and the Wi-Fi unit 47 communicate wirelessly with each other according to the Wi-Fi standard, and the Wi-Fi unit 47 and the control device 23 are connected by a CAN. The smartphone 46 and the external computer 49 can communicate with each other by wireless data communication via the Internet.

As shown in FIG. 4, the ridge position acquisition unit 52, the determination unit 54, the work travel line acquisition unit 55, the swivel line acquisition unit 56, the control unit 60, the work travel line setting unit 61, the automatic travel control unit 62, and the swivel line setting. A unit 63, an automatic turning control unit 64, and a display control unit 65 are provided in the control device 23 as software.

As shown in FIGS. 2 and 4, a push button type operation unit 18 for artificially operating the automatic traveling control unit 62 and the automatic turning control unit 64 in the operating state and the stopped state is provided in the grip portion of the speed change lever 45. The operation signal of the operation unit 18 is input to the control device 23. A display device 27 composed of a liquid crystal display or the like is provided on the front side of the steering wheel 20.

(Acquisition of position data of ridge line)
As shown in FIG. 5, for example, in a paddy field provided with ridges B1, B2, B3 and B4, the position data of the ridge lines B11, B21, B31 and B41 of the ridges B1 to B4 and the position data of the outlet B23 of the paddy field. Is obtained in advance by, for example, any one (or a plurality) of the methods shown in the following (1) to (5), and stored in the computer 49.

(1) The measuring device 30 shown in FIGS. 1 and 2 is removed from the traveling machine body 50, and the worker holding the measuring device 30 walks along the ridge lines B11 to B41, so that the worker using the measuring device 30 walks. Positioning data indicating the position of the paddy field is obtained as the position data of the ridge lines B11 to B41 and the position data of the outlet B23 of the paddy field.

(2) By running the passenger-type rice transplanter (with the measuring device 30 attached) shown in FIGS. 1 and 2 along the ridge lines B11 to B41, the position of the traveling machine 50 by the measuring device 30 can be determined. The indicated positioning data is obtained as the position data of the ridge lines B11 to B41 and the position data of the outlet B23 of the paddy field.

In this case, the measuring device 30 is attached to the portion located at the left and right center CL of the traveling machine body 50, and the outer end portion of the traveling machine body 50 (seedling planting device 5) is located at the ridge lines B11 to B41. Therefore, from the positioning data indicating the position of the traveling machine body 50 by the measuring device 30, the position outside by 1/2 of the width of the traveling machine body 50 (seedling planting device 5) is the position data of the ridge lines B11 to B41 and the paddy field. The correction is performed so that the position data of the exit B23 of the above is obtained.

(3) The same passenger-type rice transplanter (or another passenger-type rice transplanter or passenger-type seeder equipped with the measuring device 30) has traveled (worked) in the paddy field in the past, and the position of the traveling machine 50 that has traveled in the paddy field. When the positioning data indicating the above is obtained, this positioning data is used as the position data of the ridge lines B11 to B41 and the position data of the exit B23 of the paddy field. In this case, the correction described in the preceding paragraph (2) is performed.

(4) Various work vehicles such as combines and tractors equipped with the measuring device 30 have traveled (worked) in the field (paddy field) in the past (or present) to determine the position of the work vehicle that has traveled in the field (paddy field). When the indicated positioning data is obtained, this positioning data is used as the position data of the ridge lines B11 to B41 and the position data of the exit B23 of the paddy field.

(5) If there is a commercially available storage medium that records the position data of the ridge lines B11 to B41 and the position data of the outlet B23 of the paddy field, this storage medium is used.

(Setting of work running line and turning line) (Part 1)
As shown in FIG. 5, when the passenger-type rice transplanter arrives near the paddy field (position K1 of the traveling machine 50), the position data of the ridge lines B11 to B41 and the position data of the exit B23 of the paddy field are transferred from the computer 49 to the smartphone 46. Will be sent to. The position data of the ridge lines B11 to B41 and the position data of the paddy field exit B23 are transmitted from the smartphone 46 to the Wi-Fi unit 47, and are sent from the Wi-Fi unit 47 to the control device 23.

The state shown in FIG. 5 is a state in which the passenger-type rice transplanter is located at the entrance B22 of the paddy field. In this case, even if the passenger-type rice transplanter is not located at the entrance B22 of the paddy field, if the passenger-type rice transplanter arrives near the paddy field other than the entrance B22 of the paddy field, the position data of the ridge lines B11 to B41 and the paddy field The position data of the exit B23 of the above is transmitted from the computer 49 to the smartphone 46.

As a result, the ridge lines B11 to B41 are acquired and stored in the ridge position acquisition unit 52 as position data of the ridges B1 to B4, and the outlet B23 of the paddy field is acquired by the ridge position acquisition unit 52 as position data. Is remembered.

In this case, the position data of the ridge lines B11 to B41 and the position data of the paddy field exit B23 are directly transmitted from the computer 49 to the control device 23 without providing the traveling machine body 50 with the Wi-Fi unit 47 that wirelessly communicates with the smartphone 46. It may be sent to the ridge position acquisition unit 52 and acquired and stored in the ridge position acquisition unit 52.

The work travel line setting unit 61 and the swivel line setting unit 63 will be described later (setting of the work travel line and the swivel line) (No. 2) based on the position data of the ridge lines B11 to B41 and the position data of the paddy field exit B23. ), And as shown in FIGS. 5, 6 and 7, the work traveling lines L01 to L07 and the turning lines LL1 to LL6 are set. The paddy field is assumed to be a rectangular paddy field in a plan view in which the ridge lines B11 and B21 are parallel and the ridge lines B31 and B41 are parallel.

In this case, as shown in FIG. 11, in the rotating work traveling LD1 to LD4 described later, when the final rotating work traveling LD4 is completed, the passenger-type rice transplanter moves to the paddy field exit B23 without changing the direction of the traveling machine 50. The work running lines L01 to L07 and the turning lines LL1 to LL6 are set so that they can go out from.

(Setting of work running line and turning line) (Part 2)
As shown in FIG. 5, from the ridge lines B11 and B21 to the position on the center side of the paddy field by the width of the traveling machine body 50 (seedling planting device 5), along the ridge lines B11 and B21, the headland lines LA1 and LA2 Is set. Headland lines LB1 and LB2 are set along the ridge lines B31 and B41 at positions on the center side of the paddy field by the width of the traveling machine body 50 (seedling planting device 5) from the ridge lines B31 and B41.

As shown in FIG. 6, the work travel line setting unit 61 ensures that a plurality of work travel lines L are parallel to the headland lines LB1 and LB2 and parallel to each other between the headland lines LA1 and LA2. It is set over the headland lines LA1 and LA2 with a predetermined interval W1 (width of the traveling machine body 50 (seedling planting device 5)).

As shown in FIG. 7, the work travel lines L01, L02, L03, L04, L05, L06, L07 are set, and the directions of the work travel lines L01 to L07 (see the arrows of the work travel lines L01 to L07 shown in FIG. 7). Is set.

As shown in FIG. 7, the start end portions (one end portion) of the work travel lines L01 to L07 are the work start positions C1, C2, C3, C4, C5, C6, and C7. The end portions (the other end portions) of the work travel lines L01 to L07 are the work end positions D1, D2, D3, D4, D5, D6, and D7. The work start position at which the work is first started is the position K2.

As shown in FIG. 7, a circular swirl line LL1 in a plan view is set in the field so as to connect the work end position D1 and the work start position C2. Similarly, work end position D2 and work start position C3, work end position D3 and work start position C4, work end position D4 and work start position C5, work end position D5 and work start position C6, work end position D6 and work start. Circular swivel lines LL2, LL3, LL4, LL5, LL6 are set so as to connect to the position C7.

As a result, the positions of the work start positions C1 to C7, the work end positions D1 to D7, the work travel lines L01 to L07, the turning lines LL1 to LL6, and the traveling machine body 50 by the measuring device 30 are displayed by the display control unit 65 (the display device 27 ( (See FIG. 4).

When the driver determines that there is no problem with the work traveling lines L01 to L07 and the turning lines LL1 to LL6 displayed on the display device 27, the driver presses the approval button (not shown) to operate the display device 27. As a result, the position data of the work travel lines L01 to L07, the work start positions C1 to C7, and the work end positions D1 to D7 are acquired and stored in the work travel line acquisition unit 55 as position data. At the same time, the turning lines LL1 to LL6 are acquired and stored in the turning line acquisition unit 56 as position data.

As shown in FIG. 12, when one entrance / exit B24 exists in the paddy field, when the last turning work running LD4 is completed in the turning work running LD1 to LD4 described later, the traveling machine 50 is used without changing the direction. The work traveling lines L01 to L07 and the turning lines LL1 to LL6 are set so that the rice transplanter can exit from the paddy field entrance / exit B24. The work start position at which the work is first started is the position K10.

(Running to the work start position where the work starts first)
As shown in FIG. 8, when the driver operates the operation unit 18 in the state where the traveling machine body 50 is located at the position K1, the speed change motor is based on the position of the traveling machine body 50 by the measuring device 30 and the inertia information by the inertial measuring device 48. 53 (shift lever 45) and steering motor 51 (steering handle 20) are operated, and the traveling machine body 50 starts at position K1 and travels along the path LC1 as a work start position where work is first started. Stop at position K2.

As shown in FIG. 8, when the traveling machine body 50 starts from the position K1 and starts to enter the route LC1, the position of the traveling machine body 50 and the working running lines L01 to L07 determine that the running machine is not working by the discriminating unit 54. Will be done.

When the discriminating unit 54 determines that the vehicle is not working, the control unit 60 maintains the planting clutch 26 in the disconnected state (the seedling planting device 5 is stopped), as shown in FIG. The seedling planting device 5 is lowered to the rice field surface, the float 9 touches the rice field surface, and the automatic raising / lowering control of the seedling planting device 5 is activated.

At the same time, as shown in FIG. 1, the control unit 60 operates the elevating motor 75 to lower the ground leveling device 71 to the leveling position, and the ground leveling clutch is operated to the transmission state, and the ground leveling device 71 is operated to level the ground. The display device 27 indicates that the vehicle has been lowered to the position. As a result, the surface of the route LC1 is leveled by the float 9 and the ground leveling device 71 (ground leveling body 73).

As shown in FIG. 8, when the traveling machine body 50 stops at the position K2, the ground leveling device 71 (ground leveling body 73) stops because the power is not transmitted to the transmission shaft 39 shown in FIG. At the same time, the seedling planting device 5 is lifted by the control unit 60, the lifting motor 75 is operated, the ground leveling device 71 is lifted to the non-leveling position, and the ground leveling clutch is operated in the disconnected state. The display device 27 indicates that the ground leveling device 71 has been raised to the non-leveling position.

When the traveling aircraft 50 moves backward in order to correct the orientation of the traveling aircraft 50, the seedling planting device 5 is automatically raised, and the traveling aircraft 50 is in a state where the float 9 and the ground leveling device 71 are in contact with the ground surface. There is no situation in which the player moves backward. Next, when the traveling machine body 50 finishes moving backward and starts moving forward, the seedling planting device 5 is operated to descend to the field surface, and the float 9 and the ground leveling device 71 (ground leveling body 73) return to the state where the field surface is leveled. To do.

The raising and lowering operation of the seedling planting device 5 by moving forward and backward of the traveling machine 50 described above will be described later (running of the traveling machine along the work running line and the turning line) (No. 1) (No. 2) (No. 3). (Running of the traveling aircraft along the ridge line and headland line) (No. 1) (No. 2), (Running to a predetermined position at the ridge) (No. 1) (No. 2) (No. 3) It is done in the same way.

(Running of the running machine along the work running line and turning line) (Part 1)
As shown in FIGS. 7 and 8, in a state where the work start positions C1 to C7, the work end positions D1 to D7, the work travel lines L01 to L07, and the turning lines LL1 to LL6 are set, the driver operates the operation unit 18. By operating, the automatic traveling control unit 62 performs the following operations.

As shown in FIG. 8, when the driver operates the operation unit 18 in the state where the traveling machine body 50 is located at the position K2, the control valve 24 is operated by the elevating operation unit 57 and the clutch operation unit 58 is operated as described later. The planting clutch 26 (electric motor 28) is operated, the right and left markers 19 (electric motor 21) are operated by the marker operation unit 59, and the display device 27 is operated by the display control unit 65.

As described later (running of the traveling machine along the work running line and the turning line) (No. 2), the control unit is based on the position of the traveling machine 50 by the measuring device 30 and the inertia information by the inertial measuring unit 48. The speed change lever 45 (speed change motor 53) and the control handle 20 (steering motor 51) are operated by the automatic travel control unit 62, the automatic turning control unit 64, and the automatic turning control unit 64.

The automatic traveling control unit 62 operates the shifting lever 45 (shifting motor 53) to the first shifting position F1 (see FIG. 4) on the forward side F, and the traveling machine body 50 travels along the working traveling lines L01 to L07. The steering handle 20 (steering motor 51) is operated so as to (so that the position of the measuring device 30 is located on the work traveling lines L01 to L07).

The automatic turning control unit 64 operates the speed change lever 45 (speed change motor 53) to the second speed change position F2 (see FIG. 4) on the forward side F, and the traveling machine body 50 travels along the turning lines LL1 to LL6. (So that the position of the measuring device 30 is located on the turning lines LL1 to LL6), the steering handle 20 (steering motor 51) is operated. In this case, the second shift position F2 is on the lower speed side (neutral position N side) than the first shift position F1.

A work mode in which the automatic driving control unit 62 operates (the automatic turning control unit 64 stops) and a turning mode in which the automatic driving control unit 64 operates (the automatic driving control unit 62 stops) are set. The control unit 60 switches to the working mode and the turning mode.

In the work mode, it is assumed that the traveling speed of the traveling body 50 is relatively high, the steering operation of the front wheels 1 is performed in a relatively small range near the straight-ahead position A1, and the steering operation speed of the front wheels 1 is relatively low. Has been done.
The automatic traveling control unit 62 is provided with a control function suitable for the above-mentioned state when operating the speed change lever 45 (speed change motor 53) and the steering handle 20 (steering motor 51).

In the turning mode, the traveling speed of the traveling body 50 is relatively low, the steering operation of the front wheels 1 is performed in a large range over the right and left steering limits A3, and the steering operation speed of the front wheels 1 is relatively high. The state is assumed.
The automatic turning control unit 64 is provided with a control function suitable for the above-mentioned state when operating the shift lever 45 (shift motor 53) and the steering handle 20 (steering motor 51).

(Running of the running machine along the work running line and turning line) (Part 2)
As shown in FIG. 8, when the driver operates the operation unit 18 in the state where the traveling machine body 50 is located at the position K2, the mode is switched to the work mode.

As a result, the shift lever 45 (shift motor 53) is operated to the first shift position F1 to start the traveling machine body 50, and the control handle 20 (steering motor 51) is operated to move the traveling machine body 50 to the work traveling line L01. The display device 27 indicates that the traveling machine body 50 has started traveling.

In this case, the seedling planting device 5 is lowered to the field surface from a position shortly before the seedling planting device 5 (planting arm 8) reaches the work start position C1, and the automatic raising / lowering control of the seedling planting device 5 is activated. The state is set (the planting clutch 26 is cut off), and the marker 19 on the right is operated to the working posture (the marker 19 on the left is the retracted posture). The display device 27 indicates that the seedling planting device 5 has been lowered to the surface of the field and that the marker 19 on the right has been operated to the working posture.

As shown in FIGS. 8 to 9, when the seedling planting device 5 (planting arm 8) reaches the work start position C1, the planting clutch 26 is operated in the transmission state to plant the seedlings from the work start position C1. Is started. The display device 27 indicates that the planting of the seedlings has started.

As a result, as shown in FIG. 9, seedlings are planted while the traveling machine body 50 is traveling along the working traveling line L01, and the marker 19 on the right is used to position the field surface corresponding to the working traveling line L02. An index is formed (see position K3 of traveling machine 50).
In this case, the position of the traveling machine body 50 and the work traveling lines L01 to L07 determine that the work traveling is performed by the discriminating unit 54, and the control unit 60 maintains the ground leveling device 71 in the non-leveling position.

(Running of the traveling machine along the work running line and turning line) (Part 3)
As shown in FIG. 9, when the seedling planting device 5 (planting arm 8) reaches the work end position D1, the planting clutch 26 is operated in the disconnected state (stop planting of seedlings), and the marker 19 on the right. Is operated to the retracted posture.

In parallel with this, when the traveling machine body 50 reaches the work end position D1, the traveling machine body 50 shifts from the work traveling line L01 to the turning line LL1, and the working mode is switched to the turning mode.

As a result, the speed change lever 45 (speed change motor 53) is operated to the second speed change position F2, and the seedling planting device 5 is lowered to the field surface (in the operating state of the automatic elevating control of the seedling planting device 5). , The traveling machine body 50 travels (turns) along the turning line LL1 (see position K4 of the traveling machine body 50). The display device 27 indicates that the planting of the seedlings has stopped, that the marker 19 on the right has been operated to the retracted posture, and that the turning to the right has started.

In this case, the position of the traveling machine body 50 and the working traveling lines L01 to L07 determine that the traveling unit 54 is not working. The elevating motor 75 is operated by the control unit 60 to lower the ground leveling device 71 to the leveling position, and the ground leveling clutch is operated to the transmission state. It is displayed on the display device 27. As a result, the surface of the turning line LL1 is leveled by the float 9 and the ground leveling device 71 (ground leveling body 73).

As shown in FIG. 9, on the turning line LL1 (see position K4 of the traveling machine body 50), the left marker 19 is operated to the working posture from a position slightly before the traveling machine body 50 reaches the work start position C2 (right). The marker 19 is in the retracted posture), and the display device 27 indicates that the marker 19 on the left has been operated in the working posture.

As shown in FIGS. 9 to 10, when the seedling planting device 5 (planting arm 8) reaches the work start position C2, the planting clutch 26 is operated in the transmission state to plant the seedlings from the work start position C2. Is started, and the display device 27 indicates that the planting of seedlings has started.

In parallel with this, when the traveling machine body 50 reaches the work start position C2, the traveling machine body 50 shifts from the turning line LL1 to the working running line L02, and the turning mode is switched to the working mode. The speed change lever 45 (speed change motor 53) is operated to the first shift position F1, and the seedlings are planted while the traveling machine body 50 travels along the work traveling line L02. An index is formed at the position of the field surface corresponding to the line L03 (see position K5 of the traveling machine body 50).

In this case, the position of the traveling machine body 50 and the working traveling lines L01 to L07 determine that the traveling aircraft is in working traveling by the discriminating unit 54. The elevating motor 75 is operated by the control unit 60 to raise the ground leveling device 71 to a non-leveling position, the ground leveling clutch is operated to the disconnected state, and the ground leveling device 71 (ground leveling body 73) is stopped. The display device 27 indicates that the 71 has been raised to the non-leveled position.

In the above state, it is detected by the headland lines LA1, LA2, LB1, LB2, the work start positions C1 to C7 and the work end positions D1 to D7, the work running lines L01 to L07, the turning lines LL1 to LL6, and the measuring device 30. The position of the traveling machine body 50 is displayed on the display device 27, and the traveling machine body 50 moves along the work traveling lines L01 and L02 and the turning line LL1 on the display device 27.

As described above, when the traveling machine 50 travels along the working traveling line L02, the marker 19 on the right corresponds to the working traveling line L02 in the traveling state along the working traveling line L01 of the previous traveling aircraft 50. An index is formed at the position of the field surface (see position K3 of the traveling machine body 50 in FIG. 9).
As a result, the driver visually observes the display device 27 and at the same time visually observes the center mascot 14 and the index of the position of the field surface corresponding to the above-mentioned work travel line L02, whereby the traveling machine body 50 is brought to the work traveling line L02. It can be confirmed that the vehicle runs along.

As described above, as shown in FIGS. 9 and 10, the traveling machine body 50 travels along the working traveling lines L01 to L07 in the working mode (automatic traveling control unit 62), and the turning mode (automatic turning). The control unit 64) travels (turns) along the turning lines LL1 to LL6 of the traveling machine body 50.

As shown in FIGS. 9 and 10, in the work running lines L01 to L07, the ground leveling device 71 is operated to ascend to the non-leveling position, and the ground leveling device 71 does not perform the leveling of the field surface, but the float 9 prepares the ground surface. Will be done. In the turning lines LL1 to LL6, the ground leveling device 71 is operated to descend to the ground leveling position, and the float 9 and the ground leveling device 71 (ground leveling body 73) level the rice field.

In this case, the center mascot 14, the right and left markers 19, may be abolished so that the right and left markers 19 do not form an index of the position of the field surface corresponding to the work running lines L02 to L07. .. In this configuration, the driver visually confirms that the traveling machine body 50 travels along the work traveling lines L02 to L07 by visually observing the display device 27.

(Running of the traveling aircraft along the ridge line and headland line) (Part 1)
As shown in FIG. 11, when the traveling machine body 50 reaches the work ending position D7 from the working running line L07 and finishes running along the working running lines L01 to L07, the traveling machine body 50 stops at the work ending position D7. ..

As shown in FIG. 11, when the driver operates the operation unit 18 in the state where the traveling machine body 50 is stopped at the work end position D7, the position of the traveling machine body 50 by the measuring device 30 and the inertia information by the inertial measuring device 48 are used. The speed change lever 45 (speed change motor 53) and the control handle 20 (steering motor 51) are operated to allow the traveling machine body 50 to travel along the route LC2, correct the direction of the traveling machine body 50, and move forward and backward. The traveling machine body 50 stops at the position K6.

In this case, as in the above description (running to the work start position where the work is first started), the discriminating unit 54 is not working according to the position of the traveling machine 50 and the work running lines L01 to L07. Is determined.

While the planting clutch 26 is maintained in the disconnected state (the seedling planting device 5 is stopped) by the control unit 60, the seedling planting device 5 is lowered to the rice field surface, the float 9 touches the rice field surface, and the seedlings are grounded. The automatic elevating control of the planting device 5 is activated.

At the same time, the control unit 60 operates the elevating motor 75 to lower the ground leveling device 71 to the leveling position, and the ground leveling clutch is operated to the transmission state, and the ground leveling device 71 is lowered to the leveling position. Is displayed on the display device 27. As a result, the surface of the route LC2 is leveled by the float 9 and the ground leveling device 71 (ground leveling body 73).

(Running of the traveling aircraft along the ridge line and headland line) (Part 2)
As shown in FIG. 11, when the driver operates the operation unit 18 in the state where the traveling machine body 50 is located at the position K6, the seedling planting device 5 is lowered to the rice field surface, and the seedling planting device 5 is automatically raised and lowered. Is in the operating state (the planting clutch 26 is shut off), and the right and left markers 19 are held in the retracted posture without being operated by the working posture. The display device 27 indicates that the seedling planting device 5 has been lowered to the surface of the field.

After that, as shown in FIG. 11, the shift lever 45 (shift motor 53) is operated to the first shift position F1 by the work mode, the traveling machine body 50 starts, and the steering handle 20 (steering motor 51) is moved. Operated, the traveling machine body 50 travels along the ridge line B41 and the headland line LB2. At the same time as the traveling machine body 50 starts, the planting clutch 26 is operated in the transmission state, and the planting of seedlings is started from the position K6. The display device 27 indicates that the planting of the seedlings has started.
As a result, as shown in FIG. 11, seedlings are planted while the traveling machine body 50 travels along the ridge line B41 and the headland line LB2 (rotating work traveling LD1).

In this case, the position of the traveling machine body 50 and the working traveling lines L01 to L07 determine that the rotating work traveling LD1 is performed by the discriminating unit 54.
The control unit 60 operates the elevating motor 75 to lower the ground leveling device 71 to the leveling position, and the ground leveling clutch is operated to the transmission state. It is displayed on the display device 27. As a result, the surface of the rotating work traveling LD1 is leveled by the float 9 and the ground leveling device 71 (ground leveling body 73).

As shown in FIG. 11, when the rotating work traveling LD1 is completed and the front portion of the traveling machine body 50 reaches the ridge line B21, the planting clutch 26 is operated in the disconnected state (planting of seedlings is stopped), and the seedlings are stopped. The automatic elevating control of the planting device 5 is stopped, the seedling planting device 5 is operated to ascend from the rice field surface, the speed change lever 45 is operated to the neutral position N, and the traveling machine body 50 is stopped.
Next, when the driver operates the operation unit 18, the direction of the traveling machine body 50 is corrected and the traveling machine body 50 is moved forward and backward according to the turning mode, and the traveling machine body 50 stops at the position K7.

As shown in FIG. 11, when the driver operates the operation unit 18 in the state where the traveling machine body 50 is located at the position K7, the seedling planting device 5 is lowered to the field surface in the same manner as the above-mentioned rotating work traveling LD1. The automatic elevating control of the seedling planting device 5 is activated (the planting clutch 26 is cut off), and the right and left markers 19 are held in the retracted posture without being operated by the working posture. The display device 27 indicates that the seedling planting device 5 has been lowered to the surface of the field.

After that, according to the work mode, the speed change lever 45 (speed change motor 53) is operated to the first shift position F1, the traveling machine body 50 is started, and the steering handle 20 (steering motor 51) is operated to operate the traveling machine body 50. Travels along the ridge line B21 and the headland line LA2, and at the same time as the traveling aircraft 50 starts, the planting clutch 26 is operated in the transmission state, and the planting of seedlings is started from the position K7. .. The display device 27 indicates that the planting of the seedlings has started.
As a result, as shown in FIG. 11, seedlings are planted while the traveling machine body 50 travels along the ridge line B21 and the headland line LA2 (rotating work traveling LD2).

After that, as shown in FIG. 11, similarly to the above-mentioned rotating work traveling LD1 and LD2, the rotating work traveling LD3 along the ridge line B31 and the headland line LB1 from the position K8, and the rotating work traveling LD3 from the position K8, and The rotating work traveling LD4 is performed along the ridge line B11 and the headland line LA1 from the position K9, and when the rotating work traveling LD4 is completed, the passenger-type rice transplanter leaves the field. As described above, the planting of seedlings in one field is completed.

In this case, the work traveling lines L01 to L07 and the turning lines LL1 to LL6 are set as described in (Setting of working traveling line and turning line) (No. 1) and (No. 2). As a result, when the last round work running LD4 is completed, the exit B23 of the field is located in front of the running machine 50, and the direction of the running machine 50 is changed from the last round work running LD4. Without having to, the passenger-type rice transplanter can exit from the field exit B23.

Similarly to the rotating work traveling LD1, the rotating work traveling LD2, LD3, LD4 is also determined to be the rotating working traveling LD2, LD3, LD4 by the discriminating unit 54 based on the position of the traveling machine body 50 and the working traveling lines L01 to L07. Will be done.
The control unit 60 operates the elevating motor 75 to lower the ground leveling device 71 to the leveling position, and the ground leveling clutch is operated to the transmission state. It is displayed on the display device 27. As a result, the float 9 and the ground leveling device 71 (ground leveling body 73) prepare the ground surface of the rotating work traveling LD2, LD3, and LD4.

In the above (running of the traveling machine along the ridge line and the headland line) (No. 1) (No. 2), as shown in FIG. 11, the traveling machine 50 runs along the work running lines L01 to L07. When the work end position D7 is reached, the traveling machine body 50 does not stop at the work end position D7, but travels along the subsequent route LC2, turns work travel LD1 to LD4, and positions K6 to K9. The orientation of the traveling machine 50 and the operation of the seedling planting device 5 (planting clutch 26) are automatically performed continuously and automatically so that the traveling machine 50 stops at a position in front of the exit B23 of the paddy field. It may be.

(Supplying seedlings to the seedling stand)
When the number of seedlings on the seedling stand 10 is reduced in the work running lines L01 to L07, the turning lines LL1 to LL6, and the rotating work running LD1 to LD4, the driver can use the spare seedling stand 15 shown in FIGS. 1 and 2. The seedlings are taken out from the seedlings and replenished on the seedling stand 10.

In this case, the driver operates the speed change lever 45 to the neutral position N against the speed change motor 53 to stop the traveling machine body 50, and operates the operation lever 12 to the second ascending position UU2 to plant the seedling planting device. 5 is operated ascending (see (operation lever) (operation of each part based on the operation of the operation lever) described above). Alternatively, the seedling planting device 5 is left on the surface of the field without being lifted.

Automatic traveling is established by at least one of the fact that the speed change lever 45 is operated to the neutral position N and that the operation lever 12 is operated to the second ascending position UU2 and the seedling planting device 5 is operated to ascend. The control unit 62 and the automatic turning control unit 64 are stopped.

In the above-mentioned state, the driver takes out the seedlings from the spare seedling stand 15 and supplies the seedlings to the seedling stand 10. When the driver operates the operation unit 18 after finishing the supply of seedlings to the seedling stand 10, the automatic traveling control unit 62 and the automatic turning control unit 64 are activated, and the seedling planting device 5 is placed on the field surface. The descent operation is performed and the planting of seedlings is resumed. As described above, the seedlings of the spare seedling stand 15 are consumed.

(Running to a predetermined position on the ridge) (Part 1)
Each of the spare seedling pedestals 15 is provided with a seedling sensor (not shown) for detecting the presence or absence of seedlings, and the detection signal of the seedling sensor is input to the control device 23, and based on the detection signal of the seedling sensor, The number of seedlings remaining on the reserve seedling stand 15 can be detected.

As shown in FIG. 4, the seedling remaining amount calculation unit 66 is provided in the control device 23 as software, and the seedling remaining amount calculation unit 66 includes a detection signal of the seedling sensor, a position of the traveling machine 50, and a seedling planting interval. The following calculations are performed based on (between shares) and the like.

As shown in FIG. 13, for example, in a state where the traveling machine body 50 is located in the middle of the working traveling line L03 (position K11), when traveling is continued as it is and the next working traveling line L04 is entered, the working traveling line is entered. Whether all the seedlings on the spare seedling stand 15 are consumed in the middle of L04, or whether the seedlings remain on the spare seedling stand 15 even after reaching the work end position D4 from the work running line L04. It is calculated by the remaining amount calculation unit 66.
The above-mentioned calculation by the seedling remaining amount calculation unit 66 is performed in each of the work running lines L01 to L07.

As a result, as shown in FIG. 13, for example, in a state where the traveling machine body 50 is located in the middle of the working traveling line L03 (position K11), when traveling is continued as it is and the next working traveling line L04 is entered, the work is performed. It is assumed that the seedling remaining amount calculation unit 66 calculates when all the seedlings of the spare seedling stand 15 are consumed in the middle of the traveling line L04.

In this case, as shown in FIG. 13, the automatic travel control unit 62 continues traveling along the work travel line L03, and the seedling planting device 5 (planting arm 8) is moved to the work end position D3. When it reaches, the planting clutch 26 is operated in the disconnected state (stop planting of seedlings), and the marker 19 on the right is operated in the retracted posture.

As shown in FIG. 13, when the seedling planting device 5 (planting arm 8) reaches the work end position D3, the traveling machine body 50 is stopped, and the automatic traveling control unit 62 and the automatic turning control unit 64 are stopped. Therefore, the display device 27 indicates that the seedlings should be replenished on the reserve seedling stand 15.

(Running to a predetermined position on the ridge) (Part 2)
As shown in FIG. 4, the non-working travel control unit 67 is provided as software in the control device 23, and works as described in the above-mentioned (traveling to a predetermined position at the ridge) (No. 1). When the driver operates the operation unit 18 while the traveling machine body 50 is stopped at the end position D3, the spare seedling pedestal 15 is in a state where the seedlings should be replenished. The control unit 60 and the non-working travel control unit 67 perform the operations as described below.

In the above-mentioned state, when the driver operates the operation unit 18, the speed change motor 53 (shift lever 45) and the steering motor 51 (steering handle) are based on the position of the traveling machine body 50 by the measuring device 30 and the inertia information by the inertial measuring device 48. 20) is operated, the traveling machine body 50 starts from the work end position D3, and travels along the route LC3.

At the same time, the seedling planting device 5 is lowered to the surface of the field (with the planting clutch 26 shut off, the automatic elevating control of the seedling planting device 5 is operating), the elevating motor 75 operates, and the leveling device 71 Is lowered to the ground leveling position, and the ground leveling clutch is operated in the transmission state, and the display device 27 indicates that the ground leveling device 71 has been lowered to the ground leveling position.

As a result, in the route LC3 (corresponding to the state where the work is interrupted to replenish the materials and the vehicle travels to a predetermined position on the ridge), the float 9 and the ground leveling device 71 (ground leveling body 73) prepare the field surface of the route LC3. Will be done.

(Running to a predetermined position on the ridge) (Part 3)
As shown in FIG. 13, a replenishment position B24 is set in advance in the ridge B4, and seedlings, fuel, and the like are prepared in advance in the replenishment position B24.
As described in (Setting of work running line and turning line) (No. 1) above, when the position data of the ridge lines B11 to B41 and the position data of the paddy field exit B23 are transmitted from the computer 49, the replenishment position The position data of the predetermined position K12 on the ridge adjacent to the B24 is also included, and the position data of the predetermined position K12 on the ridge is acquired and stored in the ridge position acquisition unit 52.

As shown in FIG. 13, when the traveling machine body 50 reaches the predetermined position K12 at the ridge, the traveling machine body 50 stops, and the traveling machine body 50 is stopped at the predetermined position K12 at the ridge, and the replenishment position B24 The seedlings of the above are replenished to the reserve seedling stand 15. If necessary, fuel and the like may be replenished.
If it is a passenger-type rice transplanter equipped with a fertilizer application device (not shown) or a chemical spraying device (not shown), the fertilizer or chemicals at the supply position B24 may be replenished to the traveling machine body 50.

In this case, the ground leveling device 71 is maintained at the leveling position and the ground leveling clutch is maintained in the transmission state. However, since the transmission shaft 39 shown in FIG. 3 is stopped due to the stop of the traveling machine body 50, the ground leveling device 71 (Leveling body 73) also stops.

As shown in FIG. 13, when the replenishment at the predetermined position K12 at the ridge is completed, the driver operates the operation unit 18. As a result, the speed change motor 53 (shift lever 45) and the steering motor 51 (steering handle 20) are operated by the position of the traveling machine body 50 by the measuring device 30 and the inertia information by the inertial measuring device 48, and the traveling machine body 50 is ridged. The vehicle starts at the predetermined position K12 and travels along the route LC4.

In this case, since the ground leveling device 71 is maintained at the ground leveling position and the ground leveling clutch is maintained in the transmission state, when the traveling machine body 50 starts at the predetermined position K12 at the ridge, the ground leveling device 71 (ground leveling body 73) is driven. To.

As a result, in the route LC4 (corresponding to the state of traveling from the predetermined position at the ridge to the position where the work is resumed after the supply of materials is completed), the float 9 and the ground leveling device 71 (ground leveling body 73) are used to move the field surface of the route LC4. Is leveled.
As shown in FIG. 13, the routes LC3 and LC4 are set along the ridges B1 and B4 so as to avoid the positions of the work travel lines L01 to L07, and the surface of the work travel lines L01 to L07 is as rough as possible. I try not to.

As shown in FIG. 13, the traveling machine body 50 stops at the next work start position C4 (position K13). Next, when the driver operates the operation unit 18, the automatic traveling control unit 62 and the automatic turning control unit 64 are put into an operating state, and traveling along the work traveling line L04 is started.

(First alternative form of carrying out the invention)
As shown in FIG. 14, for example, in a state where the traveling machine body 50 is located in the middle of the working traveling line L03 (position K11), when traveling is continued as it is and the next working traveling line L04 is entered, the working traveling line is entered. If all the seedlings of the spare seedling stand 15 are consumed in the middle of L04, it is assumed that the seedling remaining amount calculation unit 66 calculates.
Or, for example, it is assumed that all the seedlings of the spare seedling stand 15 have been consumed in a state where the traveling machine body 50 is located in the middle of the work traveling line L03 (position K11).

In the above-mentioned state, as shown in FIG. 14, the planting of seedlings is interrupted at the position K11 instead of the paths LC3 and LC4 along the ridges B1 and B4, and the control unit 60 and the non-working travel control unit 67 travel. The aircraft 50 may travel along the route LC5 to reach a predetermined position K12 at the ridge. In this case, the field surface of the route LC5 (corresponding to a state in which the work is interrupted to replenish the material and the vehicle travels to a predetermined position on the ridge) is leveled by the float 9 and the ground leveling device 71 (ground leveling body 73).

As shown in FIG. 14, when the replenishment at the predetermined position K12 at the ridge is completed, the traveling machine body 50 travels along the route LC6 by the control unit 60 and the non-working traveling control unit 67, and the route LC6 (material The field surface (corresponding to the state of traveling from a predetermined position on the ridge to the position where work is resumed) is leveled by the float 9 and the ground leveling device 71 (ground leveling body 73), and the traveling machine body 50 stops at position K11. You may try to do it.

(Second alternative form of carrying out the invention)
The discriminant unit 54 does not discriminate non-working running by the position of the traveling machine body 50 or the calculation by the seedling remaining amount calculation unit 66, but the operation lever 12 is operated to the second ascending position UU2 and the seedling planting device 5 is the upper limit. The state in which the front wheel 1 is operated to rise to the position, the state in which the front wheel 1 is operated to the right (left) steering limit side beyond the right (left) set angle A2, and the right or left side clutch 40 is in the disengaged state. The discriminating unit 54 may discriminate non-working travel based on the operated state or the like.

(Third alternative form of carrying out the invention)
Instead of supporting the ground leveling device 71 on the seedling planting device 5, the vehicle travels on a ground leveling part link mechanism, an elevating motor 75, and an elevating cylinder (corresponding to the leveling part elevating device) (not shown), which is different from the link mechanism 3. In preparation for the rear part of the machine body 50, the ground leveling device 71 may be supported by the ground leveling link mechanism, and the ground leveling link mechanism may be driven up and down by the elevating motor 75 and the elevating cylinder.

According to the above-mentioned structure, the ground leveling device 71 can be independently lifted and driven regardless of the elevating and lowering drive of the seedling planting device 5, so that the seedling planting device 5 is lowered to the field surface to move the ground leveling device 71. The ground leveling device 71 is leveled in the first state in which the float 9 and the ground leveling device 71 (ground leveling body 73) perform a descending operation to the leveling position and the seedling planting device 5 is raised from the field surface. It is possible to set two states of the second state in which the ground leveling device 71 (ground leveling body 73) is used to level the ground surface by descending to the position.

As a result, in the paths LC1 and turning lines LL1 to LL6 shown in FIG. 8, the paths LC2 shown in FIG. 11 and the rotating work running LD1 to LD4, and the paths LC3 to LC6 shown in FIGS. 13 and 14, the state of the field surface and other states Therefore, the first state can be set and the second state can be set.

(Fourth alternative form of carrying out the invention)
The ground leveling device 71 may not be provided. According to this structure, the state in which the seedling planting device 5 is lowered to the surface of the rice field is the state in which the float 9 is lowered to the leveling position.

As a result, in the paths LC1 and swivel lines LL1 to LL6 shown in FIG. 8, the paths LC2 shown in FIG. 11, and the paths LC3 to LC6 shown in FIGS. 13 and 14, the seedling planting device 5 is lowered to the field surface (planting). By touching the clutch 26 (disengaged state of the attached clutch 26, operating state of the automatic elevating control of the seedling planting device 5) and the float 9 to the ground surface, the float 9 prepares the ground surface.

(Fifth alternative form of carrying out the invention)
In the routes LC3 to LC6 shown in FIGS. 13 and 14, the driver may manually operate the steering handle 20 and the speed change lever 45 to drive the traveling machine body 50. According to this structure, the driver can travel on an arbitrary route instead of the routes LC3 to LC6 shown in FIGS. 13 and 14.

(Sixth Alternative Form of Implementation of the Invention)
The work traveling line setting unit 61 and the turning line setting unit 63 may not be provided in the control device 23.
In this case, the work traveling line setting unit 61 and the turning line setting unit 63 are provided as software in a computer or the like (for example, the computer 49 or the like shown in FIG. 4) installed separately from the traveling machine body 50.

As a result, the work running lines L01 to L07 and the turning lines LL1 to LL6 set by the work running line setting unit 61 and the turning line setting unit 63 are transmitted or stored in the smartphone 46 or the control device 23 from the above-mentioned computer. It is acquired and stored in the work traveling line acquisition unit 55 and the turning line acquisition unit 56 via the medium.

(7th alternative form of carrying out the invention)
Instead of operating the speed change lever 45 (speed change motor 53) and the steering handle 20 (steering motor 51) by the automatic travel control unit 62, the driver manually operates the speed change lever 45 to drive the traveling machine body 50. The speed may be arbitrarily set so that the steering handle 20 (steering motor 51) is operated by the automatic traveling control unit 62.

The automatic turning control unit 64 does not operate the speed change lever 45 (speed change motor 53) and the steering handle 20 (steering motor 51), but the driver manually operates the speed change lever 45 to drive the traveling machine body 50. The speed may be arbitrarily set so that the steering handle 20 (steering motor 51) is operated by the automatic turning control unit 64.

(Eighth alternative form of carrying out the invention)
It is not necessary to include the automatic traveling control unit 62. In this case, by displaying the position of the traveling machine body 50 and the working traveling lines L01 to L07 (rotating work traveling LD1 to LD4) on the display device 27, the driver can visually check the display device 27 and shift the steering wheel 20 and the speed change. By manually operating the lever 45, traveling along the work traveling lines L01 to L07 of the traveling machine body 50 and rotating work traveling LD1 to LD4 are performed.

It is not necessary to include the automatic turning control unit 64. In this case, by displaying the position of the traveling machine body 50 and the turning lines LL1 to LL6 on the display device 27, the driver manually operates the steering wheel 20 and the speed change lever 45 while visually observing the display device 27. The vehicle travels (turns) along the turning lines LL1 to LL6.

The present invention is not limited to a riding-type rice transplanter equipped with a seedling planting device 5 at the rear of the traveling machine body 50 so as to be able to move up and down, but also a fertilizer application device (corresponding to a working device) in addition to the seedling planting device 5 (not shown). And a riding type rice transplanter equipped with a chemical spraying device (corresponding to a working device) (not shown), and a riding machine equipped with a sowing device (corresponding to a working device) (not shown) at the rear of the traveling machine body 50 so as to be able to move up and down. It can also be applied to a riding type direct seeding machine equipped with a fertilizer application device and a chemical spraying device in addition to a type direct seeding machine and a seeding device.
In this case, the present invention can be applied not only to seedlings but also to cases where it becomes necessary to replenish materials such as seeds, fertilizers, chemicals and fuels.

5 Work equipment 9 Ground leveling unit, float 30 Positioning unit 50 Traveling machine 54 Discriminating unit 55 Work traveling line acquisition unit 60 Control unit 62 Automatic traveling control unit 71 Ground leveling unit, ground leveling device 73 Ground leveling body 75 Ground leveling unit lifting device B1 to B4 ridges
B22 entrance
K2 Work start position K12 Predetermined position on the ridge
LC1 Route L01 to L07 Work Travel Line LD1 to LD4 Circular Work Travel P4 Horizontal Jikushin

Claims (6)

A work device that is supported by the traveling machine so that it can be raised and lowered to supply materials to the surface of the field.
A ground leveling part that can be raised and lowered is provided at a leveling position where the ground is leveled by touching the ground surface and a non-leveling position that rises upward from the field surface.
A positioning unit for detecting the position of the traveling machine and a working running line acquisition unit for acquiring the working running line on which the traveling machine travels are provided.
A discriminating unit for determining non-working travel in which the traveling machine is traveled on a route from an entrance in a paddy field to a work start position where work is first started with the work apparatus stopped.
A paddy field work machine provided with a control unit that automatically lowers the leveling section to the leveling position when the traveling machine travels on a route from an entrance in a paddy field to a work start position where work is first started. .. The discriminating unit
The paddy field working machine according to claim 1, wherein the non-working running is determined based on the position of the running machine and the working running line. The ground leveling portion is a float provided in the lower part of the working device.
The control unit
The paddy field working machine according to claim 1 or 2 , wherein in the non-working state, the work device is lowered to the paddy field while the work device is stopped, so that the ground leveling portion is lowered to the ground leveling position. The ground leveling portion is a ground leveling device that rotationally drives the ground leveling body around the horizontal axis in the left-right direction.
A ground leveling device for raising and lowering the ground leveling portion to the ground leveling position and the non-leveling position is provided.
The discriminating unit
The non-working run and the turning work running in which the traveling machine body runs along the ridge with the working device in the operating state are determined.
The control unit
The paddy field working machine according to claim 1 or 2 , wherein the ground leveling portion is lowered to the ground leveling position by the ground leveling portion elevating device in the non-working travel and the rotating work traveling. Of claims 1 to 4 , the automatic traveling control unit for automatically maneuvering the traveling aircraft is provided so that the traveling aircraft travels along the work traveling line based on the position of the traveling aircraft. The paddy field working machine described in any one item. For the non-working run
A claim including a state in which work is interrupted to replenish materials and travels to a predetermined position on the ridge, and a state in which replenishment of materials is completed and the work is resumed from the predetermined position on the ridge. The paddy field working machine according to any one of Items 1 to 5.

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