JP3368400B2 - Rice transplanter - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example,
The present invention relates to a rice transplanter that continuously performs seedling planting operations. [0002] 2. Description of the Related Art Conventionally, Japanese Unexamined Patent Publication No. Hei.
The mid-mount type fertilizer can be moved up and down on the vehicle
There was a technology to attach to. [0003] SUMMARY OF THE INVENTION The above prior art is based on seedling mounting.
Turn on / off the vertical seedling feeder and planting claw for each unit
Providing unit clutch levers for multiple seedlings
Stop the vertical feed member and part of the planting claws, and reduce the number of
I was doing seedling planting work near the ridge, but at this time
Of multiple fertilizer feeding cases for multiple fertilizer application
Forget the operation to stop some parts and reduce the number of fertilizer strips
And fertilizer is wasted and released by double fertilization
There was a problem such as excessive. [0004] SUMMARY OF THE INVENTION Accordingly, the present invention provides
Multi-row type seedling mounting with a seedling vertical feeding member to move seedlings to the delivery side
A table, a plurality of planting claws for removing planted seedlings from the seedling mounting table,
There are multiple fertilizer feeding cases to feed the fertilizer from the fertilizer hopper.
In the rice transplanter, the seedling vertical feeding member, the planting claw, and the fertilizer are used.
Charge delivery caseEach driving force transmitted toOn / off for each unit
Operate the unit clutch lever at the top of the back of the seedling table.
ArrangeAnd the vertical feeding
A planting nail crack that turns on and off the
Attach the wire to the lower side of the unit clutch lever
Fertilizer application clutch that turns on and off the fertilizer feeding case
The wire is attached to the side of the unit clutch lever.
Therefore, for the unit clutch lever, the seedling vertical feeding member
Is almost downward, the planting claw is downward and backward, and the fertilizer feeding case is forward.
, Each of the clutch wires is twisted.
Or the bending can be easily reduced, and the lateral movement of the seedling
The deformation of each of the clutch wires can be easily reduced,
Simplification of the clutch wire mounting operation and the
Durability of wireCan be easily improved.
You. [0005] [0006] [0007] DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below in detail with reference to the drawings.
I do. FIG. 1 is an explanatory rear view of a unit clutch lever portion,
FIG. 2 is a side view of the riding rice transplanter, and FIG. 3 is a plan view of the same.
The middle (1) is the traveling vehicle on which the worker is boarding, and the engine
(2) is mounted on the upper part of the front of the body frame (3).
Transmission case (4) Front axle case (5) in front
To support the paddy field front wheels (6) through the
Rear axle case at rear of gear change case (4)
(7) is connected to the rear axle case (7)
The traveling rear wheel (8) is supported. And the engine
(2) Bonnet covering (9) etc.
0) and work through step (11)
Gear shift by the body cover (12) on which the rider rides.
Cover the case (4) and the like, and
Install the driver's seat (13), and in front of the driver's seat (13)
A steering handle (14) is provided at the rear of the hood (9).
I can. [0008] In the figure, (15) is a seedling mounting table for 6-row planting.
(16) and a plant having a plurality of planting claws (17) and the like.
It is an attached part, and the front tilt type seedling mounting table (1
6) Replace the lower rail (18) and guide rail (19)
Slidably supported on the planting case (20)
Rotary case that rotates at a constant speed in one direction
(21) is supported by the planting case (20).
(21) a pair of claw cables at symmetrical positions about the rotation axis.
(22) and (22), and the claw case (22)
(22) Attach the planting claws (17) and (17) to the tip. Ma
A rolling fulcrum shaft is provided on the front side of the planting case (20).
A support frame (24) is provided via (23), and
Link including link (25) and lower link (26)
A support frame is provided on the rear side of the traveling vehicle (1) via the mechanism (27).
(24) are connected to each other via the link mechanism (27).
Lower the lifting cylinder (28) for raising and lowering the planting section (15).
And the front and rear wheels (6)
(8) Traveling and moving, and simultaneously reciprocating to the left and right
From the seedling platform (16) to be moved
7) Take out and continuously plant seedlings
Constitute. In the drawing, (29) is the main speed change lever, (3)
0) is a sub-shift lever for planting elevating and working travel shifting, and (3)
1) is a setting sensitivity adjusting lever, and (32) is a main clutch
Dal, (33) and (33) are left and right brake pedals, (3
4) is a two-section equalizing center float, and (35) is a two-section center float.
Side float for leveling, (36) is side fertilizer for 6 rows
Machine. Further, as shown in FIGS.
The front body of the body frame (3) (3)
The gin (2) is mounted, and through the front axle (37) (37)
Front axleke that supports the left and right front wheels (6) (6)
Body (5) to the body frame (3) behind the engine (2)
(3) Mounted on the bottom, after the front axle case (5)
Belt transmission between the left and right body frames (3) and (3)
A case (38) is provided, and a continuously variable transmission case (38)
Gear shift case between left and right body frames (3) (3)
(4) and through the rear axles (39) and (39)
Rear axle case that supports the left and right rear wheels (8) (8)
(7) to the left and right body frames (3) and (3)
And the output of the engine (2) is changed to each shift case (38).
Drive to each axle case (5) (7) via (4)
It will be transmitted as power to drive the front and rear wheels (6, 8).
It is configured as follows. The left and right body frames (3), (3) rear ends
The left and right columns (40) and (40) are erected on the upper surface of the
The upper ends of the columns (40) and (40) are set by the horizontal frame (41).
The support (40) and the horizontal frame (41).
It is fixed to the body and formed in a front view portal shape. And the body flex
(3) an intermediate brake pedal receiving shaft (42);
Between the middle of the horizontal frame (41),
And subframes (43) and (43)
Lift cylinder (2) between subframes (43) and (43)
8) Attach, top link (25) and lower
Link mechanism (27) formed by the link (26)
(3) and (41) via support shafts (44) and (45)
Link mechanism (27) by the lifting cylinder (28)
Is configured to swing up and down the planting portion (15).
ing. Further, as shown in FIG. 6, FIG. 7 and FIG.
Fertilizer hopper (46) to put the fertilizer and quantitative supply of fertilizer
Fertilizer feeding case (47) and floats (34) (35)
Transfer hoist on the side-line fertilization chute (48)
Blower turbo fan that discharges fertilizer through
(50) and a cylindrical air tank (51).
In addition to the fertilizer (36), the right side of the air tank (51)
Attach a turbo fan (50) at the end, 6 sets of 6 fertilizers
Discharge case (47) is arranged above the air tank (51).
Have been established. Further, as shown in FIGS.
The horizontal frame (4) at the rear end of the body frame (3).
1) Attach left and right base frames (52) (52) on both sides
The base frame which is laid substantially horizontally in the front-rear direction.
A fertilizer (36) is provided via (52),
Bracket (54) on base frame (52) (52)
Air tank (51) bolted and fixed via (54)
The rear end of the base frame (52) and the vehicle body
The side stay (55) is connected between the frames (3),
Base frame (52) to be laid horizontally horizontally
The elevating rail (56) is erected, and one pair of front and rear
Four lifting rails (56) (56) (56) (56)
The fertilizer applicator (36) is mounted to be able to move up and down freely through
A pair of left and right gas springs (57) (57)
Attach the fertilizer applicator (36) so that it can move up and down
(3) To the rear axle case (7) located at the rear end
The fertilizer applicator (36) supports the weight and is also shown in FIG.
So as to face the front and rear elevating rails (56) and (56)
A bearing plate (58) is provided and freely rolls on the rail (56).
The bearing roller (59) to be fitted in the bearing plate (58)
And the two rails (56) (5)
6) are provided symmetrically and two sets are provided for one rail (56).
And attach the upper and lower two rollers (59) (59)
A pair of bearing plates (58) and (58) are connected to four rails (56).
And eight rollers (59).
In 2), it is supported to be able to move up and down. Further, the lower end of the gas spring (57)
Is connected to the body frame (3), and the bearing plate (5
8) Connect the upper end of the gas spring (57) to
(56) and gas spring (57) stand almost parallel
And the center of gravity of the fertilizer applicator (36) in the front-rear width direction
A gas spring (57) is connected to the fertilizer
An extension force approximately equal to or slightly less than the weight of (36)
The gas spring (57) is configured to have it. Further, FIG. 9, FIG. 10, FIG. 11, and FIG.
As shown, 6 sets of 12 bearing plates (58) for 6
It is fixed integrally by the front frame (60)
A pair of left and right gripped by the worker when lifting the fertilizer (36)
Weld the handles (61) and (61) to the front frame (60)
The handle (61) is fixed through a support shaft (62).
The lock lever (63) is rotatably supported and
A vertical engaging hole is formed in the reinforcing rib (64) of the lifting rail (56).
(65) and (66) are formed, and each engaging hole (65) (6) is formed.
6) The lock lever (63) is engaged with the fertilizer applicator (3).
6) fixedly supported at the raised position or the lowered position
Then, the lock lever (63) is located below the handle (61).
Handle (61) that extends and protrudes toward the driver's seat (13)
The operator operates the lock lever (63) while holding the
Release lever (63) from the engagement holes (65) and (66).
It is constituted so that it can be made. Also, the front frame (60) has
Fix the bracket (67) by welding,
Bolt (67) on the front side of the feeding case (47)
And fixed as two units for one unit
Of the extension case (47) (47)
6) It is arranged between (56) and lift rails (56) (5).
6) On the outboard side of the machine, put out two cases of feeding cases (47) and (47).
Each case can be arranged, and a unit of 3 units can be extended as a set of 2 articles.
(47) are arranged side by side on the left and right. Further, FIG. 12, FIG. 13, FIG. 14, FIG.
5. As shown in FIG. 16, the upper surface of the feeding case (47)
The lower inlet of the hopper (46) is connected to the front inlet (68).
(69) and the extension case (47).
An outlet (70) is formed at the lower front side, and
The outlet (70) is closed by a pump (71). Previous
Remove the cap (71) and open the outlet (70)
And let the fertilizer inside the tank (46) flow down the front side.
At this time, the fertilizer applicator (36) is moved up and down the rail (5
6), the outlet (70) and the base
Increase the distance between the frames (52) and add a container for fertilizer
It can be easily inserted under the outlet (70).
To remove residual fertilizer easily.
You. The lower surface of the feeding case (47) is closed.
Removable fixing of bottom cover (73) via lever (72)
And a bottom surface of the bottom cover (73) made of a hard synthetic resin.
An outlet (74) is formed in the air tank (51).
Pipe made of soft synthetic resin (7
5), and a pipe made of hard synthetic resin is provided at the rear end of the pipe (75).
When the front end of the joint (76) is detachably fitted,
At the rear end of the joint (76), the transfer hose (4
9) is fitted, and the ventilation of the turbo fan (50) is
From the tank (51) to each pipe (75) ... and hose
(49) from the outlet (74) of the bottom lid (73)
Transfer fertilizer that falls in the middle of the joint (76)
(49) to form a T-shaped flange
The inlet (77) is upward in the middle of the joint (76)
It is formed to be open, and the fitting guide is fitted to the outlet (74) of the bottom cover (73).
And fix the guide (78) to the entrance
(77) is detachably fitted to (77) and the outlet (74) is the inlet
(77) and connected to the air tank (51).
The mounting plate (79) is integrally fixed to the
The joint (76) is bolted and fixed. Further, an inlet (80) and an outlet (81).
An entrance plate (82) having a
A dispensing plate (84) having a number of dispensing outlets (83) ... and discharge
A substantially circular flat plate with an outlet plate (86) having a mouth (85)
Case for feeding each of the plates (82), (84), (86)
(47) and the bottom cover (73)
Then, the feed shaft (87) is turned approximately vertically to the feed case (47).
Rollable and supported in each plate (82) (84) (86)
Pass the lower end of the feed shaft (87) through the center, and
7) A rubber ring (88) is detachably engaged with the lower end, and each plate is
(82) (84) (86) Pull-out shaft that can be pulled out freely
(87) and by the closing lever (72)
Each of the plates (82), (84), (86) is connected to a feeding case (47).
It is made to repress between the bottom lid (73),
The outlet plate (86) is locked to the feeding case (47), and each plate is
(82) The feed shaft (87) idles with respect to (86).
At the same time, the feeding plate (84) is supported by the engaging shaft (87).
And forcing the feeding plate (84) by the feeding shaft (87).
Rotated and entered the outlet (83) from the inlet (80)
Move the fertilizer to the outlet (85) and in the direction of the outlet (74)
It is configured to drop. Also, a feed-out at the end of the inlet (80)
(83) Brush (89) for removing excess fertilizer on the top
The height of the brush (8)
9) is attached to the extension case (47) so that the height can be adjusted.
Height adjustment of the lower end of the brush (89) with respect to the upper surface of the delivery plate (84)
Knots are made from outside the feeding case (47), and the outlet (83)
Is configured to regulate the amount of fertilizer delivered. The outlet (8) of the inlet plate (82)
The compressed air intake (91) facing 1) is extended to the feed case (4).
7), the hollow portion of the air tank (51) and the
Compression air inlet (91) communicates with branch pipe (92)
Through the pipe (92) and the inlet (91)
Ventilation from the turbo fan (50) is supplied to the outlet (81).
Feed and outlet (83) moved to the outlet (85) position
Air is blown from the outlet (81), and the blower (8)
Forcibly drop the fertilizer of 3) downward, and add granular fertilizer or
Is configured to prevent this powder from remaining in the outlet (83)
are doing. Further, FIGS. 4, 8, 9, 10, and 1
As shown in FIG. 1, the output of the engine (2) is
5) Gear transmission case for PTO shaft (93) to be transmitted to
(4) and extend from the left support (4
0), the bushing (94) is fixed by welding.
The fertilizer input shaft (95) to the middle of the PTO shaft (93).
It is interlocked and connected via the chain (96). The fertilizer input shaft
(95) Fix the crank plate (97) to the rear end. Ma
In addition, the bearing plate (58) and the case rear bracket (9)
8) A square pipe-shaped rear frame (9)
9), an air tank (51) and a front frame (6).
0), lay the rear frame (99) horizontally in parallel with
Rear side of the feeding case (47) to the rear bracket (98).
Bolt. The left bearing plate (58) has a bracket.
Lever (100) and shaft (101)
-(102) and the left bearing plate (58)
Adjustment link (104) and support via support shaft (103)
A point link (105) is provided to connect the lever (102).
The adjustment link (104) is connected to the
Attach the adjustment fulcrum (107) to the point link (105),
The drive arm (108) is supported on the fulcrum (107).
And the lever protruding toward the driver's seat (13).
The screw part (106) is rotated by the rotation operation of (102).
The link (104) (105)
Rotates integrally and changes the position of the adjustment fulcrum (107)
The operator is in the driver's seat (13).
The bar (102) is configured so that the feed amount adjustment operation can be performed.
ing. A bearing plate is provided on the rear frame (99).
The feed drive shaft (110) is rotatable via (109).
And a swing arm (111) attached to the drive shaft (110).
And the length can be freely adjusted to the drive arm (108).
One end of the flexible telescopic rod (112) and
Through a plurality of shaft holes (113) in the moving arm (111).
The other end of the telescopic rod (112) so that the distance between fulcrums can be adjusted.
The plurality of shaft holes (113) ...
Swing arm that connects the telescopic rod (112) by the selection of
Of the arm (111) by changing the length of the arm (111).
Multi-stage adjustment of fertilizer delivery amount by changing swing stroke
The fulcrum is adjusted by operating the lever (102).
Change the position of (107) and move the telescopic rod (112)
Stepless change of return stroke to stepless adjustment of fertilizer delivery
It is configured to perform clauses. Further, as shown in FIG.
One-way clutch (114) that prevents rotation with arm (99)
And a clutch shaft (116) is supported via the clutch.
Input to shaft (116) via one-way clutch (117)
A link (118) is provided, and the feeding drive shaft (1
09) and the swinging link (119) is fixed to the link.
(119) is linked to the input link (118) by the bar (1).
20) and swing the input link (118)
The clutch shaft (116) is intermittently rotated in one direction.
It is configured so that [0026] In addition, the feed case (47) is
While fixing the latch case (121),
Bevel gears (122) and (123) on the upper end of the shaft (87)
The input shaft (124) is always connected via the
The shaft (124) can be freely connected to the clutch shaft (116).
The engaging clutch (not shown) is connected to the clutch.
The case (121) is installed inside the case (121).
21) Clutch lever for disconnecting and operating the stop clutch
(126) and the clutch arm (127)
Distribute and arrange before and after the case (121).
(15) Seedling stand (16) Planting strip provided on the upper back
The rear unit flexure is applied to the locking unit clutch lever (128).
To be extended by the outer receptacle (129) of the arm (98)
The clutch arm is connected via a stop wire (130).
(127) are linked. And the planting stopper
Six-row planting by operating the knit clutch lever (128)
When one of the planting claws (17) ... for one is stopped,
The case (12) corresponding to the stopped planting claw (17)
1) Disconnect the stop clutch and stop the fertilization operation.
And only apply to the streak where the seedlings are planted with the planting claws (17).
Fertilizing, for example, planting four seedlings on the left and center
When doing, the left and middle four-article extension case (47) ...
Fertilizer application, and the operator controls the clutch lever.
Operate (126) to lock the case (121).
By releasing the latch, the six feeding cases (4
7) Arbitrarily select any or all of ... to plant seedlings
Fertilization can be stopped regardless of injury
Make up. Further, as shown in FIGS.
Via the bar (131) and the engagement plates (132) (133)
Input and output rods (13
4) The apparatus includes (135) and is driven by the crank plate (97).
Arm (108) to the rod (134) (135)
Therefore, the PTO shaft (93) is planted.
When the driving force is branched to drive the fertilizer applicator (36),
Then, each engagement plate (132) is connected by a coupling lever (131).
(133) is separated and each rod (134) (135)
And lift the raising part of the fertilizer applicator (36).
It is configured as follows. As described above, the front frame (60) and the rear frame (60)
Fertilizer hopper (46) and fertilizer through face frame (99)
The feed case (47) is attached to the bearing plate (58),
Fertilizer applicator (3) such as hopper (46) and case (47)
6) Support the weight of the rising part by the gas spring (57).
The lifting portion can be raised and lowered via a lifting rail (56).
It is supported at the lower position of the lift rail (56).
The body cover is supported by supporting the rising part of the fertilizer (36).
ー (12) Support the ascending part of fertilizer applicator (36) at a lower position on the upper surface.
While fertilizer application can be performed while
The fertilizer applicator (36) at the ascending position of the lifting rail (56).
By supporting the rising part, the fertilizer hopper (46)
Remove the container for receiving the remaining fertilizer (70)
It can be easily inserted downward and has a closed lever.
-The bottom cover (73) is lowered by the unlocking operation of (72).
To remove the rubber ring (88) and the inlet plate (82)
The feeding plate (84) and the outlet plate (86) to the feeding case (4).
7) Take out from below, each plate (82) (84) (86)
Can be cleaned. Further, FIG. 1, FIG. 2, FIG. 3, FIG.
As shown in the figure, three units of levers are used as two units and one unit.
-Box (136) ... on the back of the seedling table (16)
Fix three left, middle and right units for three units.
Trevor (128) ... to each lever box (136) ...
At the same time, 6 endless flat belt type seedling vertical feeding section
Material (137) is provided at the lower end of the seedling table (16).
Two seedling vertical feed members forming one unit (137)
One longitudinal feed clutch wire for turning on and off (137)
(138) and planting four lines for two lines to form one unit
One planted claw clutch for turning on and off the claw (17)
Ear (139) with one unit clutch lever (1
28). The fertilizer feeding case (47)
Wire (13) for turning on and off the feeding plate (84)
0) to the branch plate (140) as two sets of one unit
Fertilizer for two side fertilizers to be connected to form one unit
The two fixing wires (1) of the feeding case (47) (47)
30) (130) through a branch plate (140) to form one application.
One end of the fertilizer clutch wire (141) is connected and the fertilizer is applied.
Connect the other end of the clutch wire (141) to the unit clutch.
To the chiller (128) and a lift link.
To the top link (25) through the clip (142)
The middle of the fertilizing clutch wire (141) is locked,
Fertilizer clutch wire (1) along the top link (25)
The middle of 41) is extended. The lever box (136) is supported.
The unit clutch lever (12) is connected via the shaft (143).
8) is swingably mounted in the left and right direction.
8) protrude from the upper surface of the box (136), and
6) When the lever (128) is protruded from the upper end,
By operating the lever (128), FIG.
Each clutch wire (138) (139) in the solid line state
(141) almost simultaneously moves over the fulcrum, and the virtual line position shown in FIG.
Tensioned, corresponding to the lever (128)
Planting claw (17) and seedling vertical feeding member (137) and fertilizer
Holds the feeding case (47) off, and
Operate the clutch lever (128) to plant two rows on the left.
Nail (17), seedling vertical feeding member (137) and fertilizer feeding ke
Turn on and off the feeding plate (84) of the base (47),
Central two lines by operation of unit clutch lever (128)
Mining planting claw (17) and seedling vertical feeding member (137) and fertilizer
Turn on and off the feeding plate (84) of the feeding case (47),
Operate the right unit clutch lever (128) to the right
Two rows of planting claws (17) and seedling vertical feed members (137) and
Turn the feeding plate (84) of the fertilizer feeding case (47) on and off.
Seeding, seedling planting operation and lateral fertilizing operation are two units per unit.
And three unit clutch levers (128)
To stop selectively, and check the number of unplanted
To prevent unnecessary consumption of seedlings and fertilizers.
I have. As is clear from the above, the seedlings
For transporting six seedlings vertically (137) ...
A multi-row seedling mounting table (16) and a seedling planted from the seedling mounting table (16)
And 6 fertilizer hoppers (4)
6) fertilizer feeding case for 6 rows to feed fertilizer (4)
7) In the rice transplanter provided with ...
7) and planting claw (17) and fertilizer feeding case (47)
2. Turn on / off each unit as a unit
Three unit clutch levers (128) ...
(16) Arranged above the back of the plant, the vertical seedling feeding section for multiple planting
Stopping part of lumber (137) and planting nail (17) and seedling
Unit clutch lever (12
8) By operation, fertilizer feeding case for multi-row fertilization (47)
Is stopped at the same time, and the seedling vertical transport member (13
7) longitudinal feed clutch wire (138) for turning on / off,
And planting claw clutch for turning on and off the planting claw (17)
Wire (139) to unit clutch lever (128)
And the fertilizer feeding case (47)
Turn on / off the fertilizing clutch wire (141).
Attach it laterally to the clutch lever (128).
Seedling vertical feed member for knit clutch lever (128)
(137) is substantially downward, the planting nail (17) is downward and rearward,
The fertilizer feeding case (47) is located in front of each other.
The clutch wires (138), (139), (14)
1) Twisting or bending at the time of extension and seedling mounting table (16)
Each of the clutch wires (138) (13)
9) While preventing deformation of (141), unit clutch
One fertilizing clutch wire connected to lever (128)
Branch (141) into two stop wires (130) ...
And turn on the fertilizer feeding case (47) for 2 rows at the same time.
One unit clutch lever (12
8) Additional fertilization clutch wire (141) to be connected to
Of fertilizer feeding case (47) for 2 articles without performing
Can perform Further, as shown in FIG.
The operation of inserting the planting clutch of the bar (30) causes the planting part (1
5) Activate the seedling planting operation to start seedling planting.
Micro switch type work that detects that you are working
Industry sensor (144) is turned on, and the
Electric fan motor (145) for driving the fan (50)
The fan (5) except when seedlings are planted.
0) is stopped and the above-mentioned file is
Automatically activates the button (50) to prevent unnecessary power consumption
It is configured as follows. Further, as shown in FIG.
A blower turbo fan (50) is provided on the front side of (46).
The direction of air flow from the fan (50) and the air tank (5
The fan (5) so that the wind flow of 1) intersects at a substantially right angle.
0) to be installed, and the planting part (15) left and right side outside
The fan (50) is located on the inboard side of the bumper (146).
The fan (50) is provided with a side bumper.
(146) Prevents the body from projecting outward, and
Make the length between the left and right side bumpers (146) (146)
It is configured so that the work can be performed as usual while maintaining it. [0034] As apparent from the above examples, the present invention
Is a seedling vertical feeding member (137) for moving the seedling to the seedling removal side.
A multi-row seedling platform (16) having
Planting claws (17) for removing planting seedlings from the plant and fertilizer hopper
A plurality of fertilizer feeding cases (4) for sending the fertilizer of (46)
7) In the rice transplanter provided with 7),
7) and planting claw (17) and fertilizer feeding case (47)To
Each driving force to conveyUnit that turns on and off the
Put the clutch lever (128) on the back of the seedling table (16).
To be arrangedAlso, turn on and off the seedling vertical feeding member (137).
Longitudinal feeding clutch wire (138) and planting claw (1
7) Planting claw clutch wire (139) for turning on and off
Is attached below the unit clutch lever (128).
To turn on and off the fertilizer feeding case (47).
Fertilizer clutch wire (141) unit clutch lever
(128) attached in the horizontal direction.
Seedling vertical feed member (137) against latch lever (128)
Is almost downward, and the planting claw (17) is downward and rearward.
The bases (47) are located in front of each other,
Twist of (138) (139) (141)
Can easily reduce bending and can be used for lateral movement of the seedling table (16).
(138) (139) (14)
The deformation of 1) can be easily reduced, and each of the clutch wires can be reduced.
(138) (139) (141) Simplification of mounting operation
And each of the clutch wires (138) (139) (14)
1) DurabilityThat can be easily improved.
is there. [0035] [0036]

[Brief description of the drawings] FIG. 1 is an explanatory rear view of a unit clutch lever unit. FIG. 2 is an overall side view. FIG. 3 is a plan view of the same. FIG. 4 is a side view of the traveling vehicle. FIG. 5 is a plan view of the same. FIG. 6 is a side view of the fertilizer application unit. FIG. 7 is a plan view of the same. FIG. 8 is a rear view of the same. FIG. 9 is an enlarged view of a lifting rail unit. FIG. 10 is a side view of the bearing plate. FIG. 11 is a plan view of the same. FIG. 12 is a plan view of a feeding case portion. FIG. 13 is a side view of the same. FIG. 14 is a rear view of the same. FIG. 15 is a plan view of a feeding case portion. FIG. 16 is a view for explaining the elevation of the fertilizer application unit. FIG. 17 is a side view of a unit clutch lever unit. FIG. 18 is an explanatory plan view of a sub-transmission lever portion. FIG. 19 is an explanatory view of a blower turbo fan showing a modification. [Explanation of symbols] (16) Seedling platform (17) Planting nail (46) Fertilizer application hopper (47) Fertilizer feeding case (128) Unit clutch lever (137) Seedling vertical transportation member (138) Vertical feed clutch wire (139) Claw Clutch Wire with Planting (141) Fertilizer application clutch wire

Continuation of the front page (56) References JP-A-4-320611 (JP, A) JP-A-4-135410 (JP, A) JP-A-6-57110 (JP, U) JP-A-5-95235 (JP , U) Fully open sho 63-4615 (JP, U) Fully open sho 61-60615 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) A01C 11/02

Claims (1)

(57) [Claims] [Claim 1] A multi-row type seedling mounting table (16) having a seedling vertical transport member (137) for moving a seedling to a seedling removal side, and the seedling mounting table (16) A plurality of planting claws (17) for extracting planting seedlings;
In a rice transplanter having a plurality of fertilizer feeding cases (47) for sending fertilizer from a fertilizer application hopper (46), each drive transmitted to the seedling vertical feeding member (137), the planting claw (17), and the fertilizer feeding case (47). The unit clutch lever (128) for turning on / off the force for each unit
6) It is arranged above the back surface of the back , and the seedling vertical feeding member (137)
Feed clutch wire (138) to turn on and off
Claw Clutch Y for turning on / off the planting claw (17)
Gear (139) under the unit clutch lever (128).
And attach the fertilizer feeding case (47).
Turn off the fertilizing clutch wire (141).
A rice transplanter characterized by being attached to a side of a latch lever (128) .