JPH0759415A - Mechanism for eliminating defect seedling in transplanter - Google Patents

Abstract

PURPOSE:To provide the subject mechanism without impairing transplanting seedling and mulching film by defect seedling to be eliminated having soil and capable of serving a furrow groove as a pressor of a mulching film. CONSTITUTION:In this transplanter, a number of seedling-receiving trays 71 are arranged in endless state and intermittently moved every one pitch and seedling B having soil is placed on this each seedling tray 71 and whether the seedling B having soil on the seedling receiving tray 71 is good or not is detected using a defect seedling detection mechanism 102 and normal seedling B having soil is delivered from the seedling receiving tray 71 to a planting apparatus 21 at a prescribed position and the defect seedling B having soil is dropped after passing through the planting apparatus 21. In the transplanter, a guide member 117 for receiving the defect seedling B having soil and dropping on the lower side of the planting apparatus 21 or receiving the defect seedling B having soil and released on the side opposite to the planting apparatus 21 through kick-out means at a position opposite to the planting apparatus 21 and then guiding the seedling B to furrow groove is arranged.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mechanism for eliminating defective seedlings in a transplanter, which sequentially transplants soil-bearing seedlings into ridges while running.

[0002]

2. Description of the Related Art A transplanter for upland fields for transplanting soil-bearing seedlings (pot seedlings) such as vegetables has a large number of seedling receiving trays arranged endlessly as disclosed in Japanese Patent Application Laid-Open No. 4-293407. Then, the seedlings are intermittently transferred one pitch at a time, the seedlings with soil are placed on each seedling receiving tray, and the seedlings with soil are transferred from the seedling receiving tray to the planting device at a required position to plant one seedling at a time. Is configured.

[0003] Not all soil-grown seedlings grown in seedling boxes are growing smoothly. Therefore, before handing over to the planting device, the seedlings are checked for quality and rejected if defective. Therefore, an optical sensor is placed one pitch before reaching the planting device to detect defective soil-bearing seedlings.
The normal soil-grown seedlings are transferred from the seedling receiving tray to the planting device at the required position, and the defective soil-grown seedlings are dropped after passing through the planting device.

[0004]

In the above prior art, the defective soil-bearing seedlings are dropped onto the ridges, which may drop onto the transplanted seedlings or damage the mulch film. According to the present invention, the guide member is arranged on the lower side of the planting device, and by receiving the falling defective soil-bearing seedlings and guiding the seedlings to the groove side of the ridge, the problems of the above-mentioned conventional techniques can be solved. The purpose of the present invention is to provide a mechanism for eliminating defective seedlings of the transplanter.

[0005]

As a concrete means for solving the problems in the present invention, a large number of seedling receiving trays 71 are arranged endlessly and are intermittently moved one pitch at a time. The soiled seedling B is placed on the seedling receiving tray 71, and the quality of the soiled seedling B on the seedling receiving tray 71 is detected by the defective seedling detecting mechanism 102, and the normal soil seedling B is transferred from the seedling receiving tray 71 to the planting device 21 at a required position. Handed over to seedling B with defective soil and planting device 21
In a transplanter that was designed to drop after passing through
The kicking means 1 receives the defective soil-bearing seedlings B falling on the lower side of the planting device 21 or at a position facing the planting device 21.
A guide member 1 for receiving the defective soil-bearing seedling B discharged to the side opposite to the planting device 21 via 28 and guiding it to the groove C between the ridges A.
17 is arranged.

[0006]

The seedling box 51 in which the soil-bearing seedlings B have been raised is loaded from the insertion port 49 of the seedling box guiding means 45, and is intermittently fed from the upper side to the lower side by one pitch via the seedling box vertical feeding mechanism 39, and During intermittent feeding, a horizontal row of soil-embedded seedlings B is extruded by the seedling-extruding mechanism 40 onto the seedling receiving tray 71 of the seedling-lateral feeding mechanism 41, and the soil-embraced seedlings B are laterally moved by one pitch by the seedling-lateral feeding mechanism 41. The ridges 3 are fed and planted in the ridges 3 by the planting device 21 provided at the delivery end.

When the seedling receiving tray 71 on which the soil-bearing seedlings B are placed reaches one pitch on the upper side of the planting device 21, the seedling detecting sensor 104 moves downward from above to attach the soil-bearing seedlings on the seedling receiving tray 71. The presence of the foliage a of the seedling B is detected, and if it is a normal soil-bearing seedling B, the seedling receiving tray 71 is tilted and supplied to the planting cylinder 33 when the planting device 21 is reached. If not, the defective seedling removing mechanism 103 is operated to prevent the seedling receiving tray 71 from tilting, and the defective seedling (separated seedling B with soil) is dropped after passing through the planting tube 33.

The defective seedlings that fall are received by the guide member 117 disposed therebelow and guided to the groove C between the ridges A,
It is discharged onto the multi-film D in the groove C and serves as a retainer for the multi-film D.

[0009]

Embodiments of the present invention will be described below with reference to the drawings. 4 to 9, the transplanter 1 is a walking type having a steering handle 2 on the rear part of the traveling vehicle body 3 and is adapted to travel in the longitudinal direction across the ridge A covered with the multi-film D. . The traveling vehicle body 3 has an engine 5 mounted on a pedestal 4 at the front thereof, and is covered with a bonnet 7 having a spare seedling box support 6 on the left and right, and a mission case 8 is fixed to the rear of the pedestal 4 and its input The section and the output section of the engine 5 are linked by a winding transmission body 9.

The power from the inside of the mission case 8 is the wheel transmission shaft 10 and the PTO shaft 12 for driving the working unit 11.
The left and right drive wheels 14 are supported at the left and right ends of the wheel transmission shaft 10 via the transmission case 13 that swings up and down about the shaft center, and the winding transmission in the transmission case 13 is carried out. The drive wheels 14 can be driven by the body. The drive wheel 14 rolls in the groove C between the ridges A.

The left and right transmission cases 13 can be vertically swung around the axis of the transmission shaft 10 to adjust the relative vertical positions of the drive wheels 14 and the traveling vehicle body 3. Therefore, in front of the gantry 4. Includes a grounding sensor 15 via a stay, and a cylinder 16 that operates by a detection signal of the grounding sensor 15, and the left and right transmission cases 13 are activated by the operation of the cylinder 16.
Is moved up and down to adjust the height and the horizontal control of the traveling vehicle body 3.

The main frame 17 of the traveling vehicle body 3 is formed by a square pipe or the like into a substantially L-shape in plan view and side view, and a front portion thereof is bent downward and is attached to one side portion of the mount 4 to which the engine 5 is attached. It is fixed and the midway part is the vehicle body 3
The left and right sides of the steering wheel 2 are arranged substantially horizontally in the front-rear direction, and the rear portion is bent to the other left and right side, and the mounting portion 18 of the steering handle 2 is provided.
It is said that. The midway portion of the main frame 17 is only on one of the left and right sides of the traveling vehicle body 3, whereby a space space 19 is formed between the engine 5 and the mounting portion 18.

The transplanting work section 11 has a seedling box device 20, a planting device 21, a multi-piercing device 22 and the like, and is vertically moved around the axis of a power receiving shaft 23 supported on the fixed side of the mission case 8 and the like. It is provided on a movable frame 24 that swings in the direction. The rear portion of the movable frame 24 is elastically and suspendedly connected to the main frame 17 by elastic supporting means 25. The elastic supporting means 25 is provided on a bracket fixed to the mounting portion 18 of the main frame 17, and a top 26 pivotally supported by this bracket and a lower end pivotally connected to the movable frame 24 by being loosely inserted in the top 26. The support rod 94 has an adjustable length, and the coil spring 28 is fitted on the support rod 94. The length of the support rod 94 is adjusted by screwing the screw portion by rotating the handle 27.

A crushing roller (or a soil covering roller) 38 provided at the rear portion of the movable frame 24 can adjust the distance between the movable frame 24 and the movable frame 24 via an adjusting rod 98, and the ridge A
The height of the movable frame 24 can be adjusted.
The movable frame 24 is provided with a transmission case 30 having a winding transmission body 29 for transmitting power to the seedling box device 20, the planting device 21, etc., and the winding transmission body 29 is interlocked with the PTO shaft 12.

As shown in FIG. 8, the planting device 21 is swingably supported in the vertical direction by a parallel link 32 via a suspension link 31 on a movable frame 24.
A beak tube-shaped openable and closable tube 33 is provided at the front end of 2, and can be moved up and down by a crank motion of a crank body 34 interlocking with a winding transmission body 29. The multi-punching device 22 is provided in front of the planting cylinder 33. The punching device 22 has a gas burner that uses the gas of the propane gas cylinder 35 shown in FIGS. 6 and 7 as a fuel, and burns the mulch film covered with the ridge A with the gas burner at regular intervals in the ridge longitudinal direction to form holes. The planting cylinder 33 projects into this hole and the soil-bearing seedling B is transplanted to the ridge A.

In addition, in FIG. 6, reference numeral 36 denotes the traveling vehicle body 3.
A pair of left and right front wheels on the front part of 37 and 37 are ridge-and-shoulder copying rollers, respectively. Seedling box device 20 in transplantation work section 11
Has a seedling box vertical feeding mechanism 39, a seedling pushing mechanism 40, a seedling lateral feeding mechanism 41, a defective seedling detecting mechanism 102, and a defective seedling eliminating mechanism 103, and these are a pair of front and rear on the movable frame 24. It is mounted via the stay 42 or the like.

The seedling box vertical feeding mechanism 39 includes a pair of front and rear central guide rails 43 curved in an arcuate shape, and a central guide rail 4.
3 is provided with seedling box guiding means 45 having a pair of front and rear side guide rails 44 arranged on the front side and along the lower half. The middle portion of the central guide rail 43 in the longitudinal direction is a vertical guide portion 46, and upper and lower guide portions 47 and 48 that are curved on the same side are formed above and below the vertical guide portion 46.

The side guide rail 44 has a trumpet-shaped insertion port 49 formed in the upper portion, and an outlet 50 is formed in the lower portion together with the lower guide portion 48. The outlet 50 is formed on the main frame 17 and the drive wheels 14. It is located between and. The seedling box 51 is made of resin, has flexibility, and has a large number of pots 5 arranged vertically and horizontally.
2 is provided on the back surface so that potted seedlings B are raised in the pot portion 52, and there are vertical and horizontal gaps 54 between the pot portions 52. The seedling box 51, which is inserted from the insertion port 49 as shown by the arrow in FIG. 4, is bent toward the upper guide portion 47 and is discharged from the outlet 50 through the transplanting working portion 11 while being bent and guided. 3 is discharged outward on one side in the traveling direction, between the ridges A, particularly on the side of the drive wheel 14.

The pot portion 52 of the seedling box 51 has a tapered cylindrical shape to facilitate extrusion of the soil-bearing seedling B, and the bottom portion of the pot portion 52 is formed with an extrusion port by the seedling extrusion mechanism 40. The seedling box vertical feed mechanism 39 includes a pair of left and right feeding pawls 55 for intermittently feeding the seedling box 51 by one pitch in the vertical direction, and the feeding pawls 55 are vertically adjacent to each other in the vertical guide portion 46. It enters into the gap 54 between the pot portions 52, moves downward, and then exits.

The left and right feed claws 55 are U-shaped so as to hold the pot portion 52 from behind, and are provided at the tip of the support rod 56, and the base end of the support rod 56 is oscillated via a vertical shaft support portion 57. The pair of front and rear swing brackets 58 are attached to the moving bracket 58, and are supported by a support frame 59 so as to be vertically swingable about a support shaft 60 having a longitudinal axis. The pair of left and right support rods 56 has a base portion that is swingable in the front-rear direction around the shaft support portion 57 as shown in FIG. 9, and the swinging movement causes the feed claws 55 to move in and out of the gap 54. There is.

On the rear wall of the support frame 59, a relay transmission case 62 containing a relay transmission mechanism 61 such as a cam and a gear is fixed as shown in FIG.
The input portion 63 of the internal transmission mechanism and the above-described winding transmission body 29 are interlocked with each other by a vertical winding transmission body 64. As shown in FIG. 4, the output portion of the relay transmission mechanism 61 is distributed to the seedling box vertical feed drive rod 65, the seedling push-out drive rod 66, the seedling horizontal feed shaft 67, and the like.

The drive rods 65 and 66 are arranged side by side and are reciprocally moved in the vertical direction. The shaft 67 is extended in the horizontal direction and has a drive sprocket 68. As shown in FIG. 9, the drive sprocket 68 is provided. The endless chain 70 is wound around the driven sprockets 69 which are arranged in front and back so as to form the seedling lateral feeding mechanism 41 which intermittently feeds one pitch at a time.

A large number of seedling receiving trays 71 are arranged in a row in the chain 70 at intervals in the longitudinal direction, and the seedling receiving trays 71 swing from a horizontal posture to a tilted posture around a longitudinal axis 72 shown in FIG. It is free and is biased by a spiral spring 73 or the like so as to be inclined from a horizontal posture. A guide rail 95 that holds the seedling receiving tray 71 in a horizontal posture is provided on the fixed side, and a lowering portion 95A that is lowered by one step is formed at the sending end of the guide rail 95, and the seedling receiving tray 71 is located at this lowering portion 95A. When the rice seedling arrives, it is forcibly changed to the inclined posture by the spiral spring 73, and the soil-bearing seedlings B on the seedling receiving tray 71 can be intermittently supplied to the planting cylinder 33 one by one.

The drive rod 65, the first relay link 76, the second relay link 80 and the like constitute the feed pawl drive means 74. A first relay link 76 is pivotally supported on the upper portion of the rear wall of the support frame 59 via a support shaft 75 so as to be swingable in the left-right direction, and the end of the drive rod 65 is attached to a short arm 76A of the first relay link 76. It has a pin and is pivoted with play. First
The relay link 76 integrally includes a short arm 76A and a long arm 76B, and is provided with a manual operation lever 77 in parallel with the first relay link 76 on the support shaft 75. The arm 77A of the manual operation lever 77 and the long arm are provided. 76B are arranged side by side,
Both of them are linked by a skewed rod 78 and a buffer coil spring 79 shown in FIG.

The support frame 59 is provided with a crank-shaped second relay link 80 that swings about the vertical axis, and the second relay link 80 and the manual operation lever 77 are pivotally connected by a connecting rod 81. One arm 80A of the second relay link 80 is engaged with a cutout recess 58A formed in the upper portion of the swing bracket 58 with play in the left-right direction.

The other arm 80B of the second relay link 80
Is one end of the interlocking link 82 swinging around the vertical axis and the first
The other end of the interlocking link 82 and the support rod 56 on the front side having the feed claw 55 are connected by a second link 84, and are further arranged below the first link 83 so as to overlap with each other. The third link 85 connects one end of the interlocking link 82 and the rear support rod 56 having the feed pawl 55, and the interlocking link 82, the first to third links 83, 84, 85, etc., form a pair of feed pawls 55. Of the feed claws 55, that is, an opening / closing link mechanism for moving the feeding claws 55 in and out of the gap 54 between the pot portions 52 adjacent in the vertical direction.

Therefore, the first pulling operation of the drive rod 65
The manual operation lever 77 is connected to the support shaft 75 via the relay link 76.
Is converted into a left-right swing motion around the axis of the second relay link 80 through the push-pull motion of the connecting rod 81 within the play of the notch recess 58A of the swing bracket 58. By being converted into a dynamic motion, the pair of support rods 56 is pivotally supported by the shaft support 57 via the opening / closing link mechanisms 82 to 85.
By swinging about the fulcrum, the feed claws 55 move in and out of the gaps 54 adjacent in the vertical direction.

On the other hand, the notch recess 58 of the swing bracket 58.
When the second relay link 80 is oscillated back and forth beyond the range of play with respect to A, the oscillating bracket 58 is oscillated up and down with the fulcrum shaft 60 as a fulcrum, and the feed claw 55 enters the gap 54. At this time, by swinging the swing bracket 58 downward, the seedling box 51 is fed one pitch in the vertical direction, and then the feed claw 55 is retracted from the gap 54 to swing the swing bracket 58 upward. As a result, the posture of preparation for the next vertical feed is set, and thus the seedling boxes 51 are intermittently fed by one pitch in the vertical direction.

By manipulating the manual operation lever 77 artificially, the seedling boxes 51 are manually fed vertically by one pitch, which is a preparatory work for loading the seedling boxes 51 into the insertion port 49 and starting the operation. It is useful when Seedling extrusion mechanism 4
0 is arranged in the arcuate space of the central guide rail 43 together with the feed claws 55 and the like. Behind the vertical guide portion 46 in the central guide rail 43, a horizontal row of soil-grown seedlings B is received by the lateral feed means 41. Pusher 8 protruding to the tray 71
6 is provided.

As shown in FIGS. 8 and 9, the pushers 86 are arranged in a comb-like manner on the slider 87, and the slider 87 is slidable on the slide guide 88 projecting inward from the side wall of the support frame 59. Supported by. A bracket 89 having elongated holes 89A is provided at both ends (front and rear) of the slider 87.
Is fixed, and the engaging piece 90 fits in the long hole 89A.
A pair of second swing links 90 having A
Each of the front and rear walls of 9 is pivotally supported by a horizontal axis 90B.

On the other hand, the end portion of the pushing drive rod 66 is
It is pivotally connected to one arm of a first swing link 91 that is pivotally supported via a horizontal shaft 91A, and the other arm of the first swing link 91 and the lower end of the first swing link 90 are connected to each other by a connecting link 9
Connected with 2. Therefore, the push-pull movement of the drive rod 66 is changed to the second movement via the first swing link 91 and the connecting link 92.
It is transmitted to the swing link 90, and is transmitted to the slider 87 by the horizontal swing of the second swing link 90, and the slider 87 reciprocates linearly on the slide guide 88 to move from behind the pot portion 52 via the pusher 86. Horizontal row of soil seedlings B
Is extruded onto the seedling receiving tray 71 of the seedling lateral feeding mechanism 41, and then moved backward.

The seedling pushing mechanism 40 operates the pusher 86 in the pushing direction when the seedling lateral feeding mechanism 41 is waiting for stop and the seedling box vertical feeding means 39 is waiting for stopping, and then the seedling pushing mechanism 86 exits. To do. When the seedling lateral feeding mechanism 41 is laterally feeding the seedlings, the seedling box vertical feeding mechanism 39 vertically feeds the seedling boxes by one pitch. Further, the seedling lateral feeding mechanism 41 intermittently laterally feeds one pitch by one pitch from the state where one row of the soil-bearing seedlings B is supported by the seedling receiving tray 71, and one at a time at the sending end, one at a time to the planting tube 33. Supply falling. In order to ensure this drop supply, a seedling-discharging means 93 that reciprocally swings is provided above the delivery end of the seedling lateral feeding mechanism 41.

1 to 5, the seedling lateral feeding means 4 is used.
1. The defective seedling detection mechanism 102 and the defective seedling elimination mechanism 103 will be described in detail. The seedling lateral feeding means 41 fixes a large number of brackets 110 to the endless chain 70, supports the seedling receiving tray 71 via the shafts 72, and is provided with a spiral spring 73. The seedling receiving tray 71 has a substantially L shape in a side view, on which the soil-bearing seedlings B can be placed,
A position setting part 111 for setting the position of the block soil b of the soil-bearing seedling B is formed in the middle of the upper surface of the rod material or the like.

The seedling receiving tray 71 is an endless chain 7
While being held in a horizontal position by the guide rail 95 by intermittent movement of 0, the planting cylinder 33 is guided to the planting cylinder 33.
At this position, the lowering portion 95A of the guide rail 95 inclines downward toward the planting cylinder 33 side, and the soil-embedded seedling B that has been placed is dropped from the block soil b side. Guide rail 9
5 is made of a plate material or a bar material, and is an endless chain 70.
Are arranged along the entire circumference of the tray and guide the fully closed seedling receiving tray 71 in a horizontal posture or an inclined posture.

The defective seedling detection mechanism 102 includes a seedling detection sensor 104 arranged above the planting cylinder 33 by one pitch.
It has an operating means 105 for moving it up and down, and a contact member 106 provided on the whole seedling receiving tray 71. Contact member 10
6 is a support part 112 which is erected from the vertical wall of the seedling receiving tray 71.
The contact portion 106A that is pivotally supported via the horizontal axis 113 and that contacts the foliage a of the soil-bearing seedling B, and the sensing portion 106B that projects in a direction intersecting with the contact portion 106A.
When the foliage a comes into contact with 06A, the sensing unit 106B is directed upward, and when the soiled seedling B has no foliage a, the sensing unit 106B is directed downward from the horizontal.

The seedling detecting sensor 104 is a long detecting piece 104A.
Formed by a limit switch having an operating means 10
Reference numeral 5 denotes a rotary solenoid or the like. A seedling detection sensor 104 is attached to a rotary shaft 105A of the rotary solenoid, and the tip of the detection piece 104A is rotated with respect to the contact member 106 so as to move vertically. Actuating means 10
5 operates in synchronization with the seedling lateral feeding means 41, descends the detection piece 104A of the seedling detection sensor 104, and abuts on the sensing portion 106B to detect it when the contact member 106 is in the foliage a detection state. . Detection piece 1 when foliage a does not exist
Even if 04A descends, it does not come into contact with the sensing unit 106B.
The seedling detection sensor 104 detects a defect in the soil-embedded seedling B and operates the defective seedling elimination mechanism 103.

The defective seedling removing mechanism 103 is arranged on the side of the planting cylinder 33 and has a rotary shaft 115 of a rotary solenoid 115.
An arc-shaped push-up member 116 is attached to A, and it operates after the seedling detection sensor 104 detects a defect of the soil-bearing seedling B on the seedling receiving tray 71, and the seedling receiving tray 71 that moves one pitch moves down. To prevent the seedling receiving tray 71 from being inclined. If the seedling receiving tray 71 does not have an inclined posture, the block soil b without seedlings on it (bad seedling)
Is not supplied to the planting tube 33, and the seedling receiving tray 7
When 1 passes through the planting cylinder 33, the pushing-up member 116
The block soil b falls and is eliminated when the block soil b deviates from the above and becomes an inclined posture.

The defective seedling removing mechanism 103 has a chute-shaped guide member 117 at a position where the seedlingless block soil b is dropped and eliminated, and the block soil b is guided to fall into the groove C between the ridges A. The block soil b is used to hold the mulch film D. The defective seedling removing mechanism 10
3 and the operating means 105 are fixed to the stay 42.

The planting device 21 includes a seedling detection sensor 104.
When the defective seedlings such as seedling-free block soil b and foliage ungrown seedlings are detected, the defective seedling elimination mechanism 103 is activated to cause the planting cylinder 3
The inclination of the seedling receiving tray 71 that has reached before 3 is prevented so that the defective seedlings fall onto the guide member 117 without entering the planting cylinder 33, and then the normal soil-bearing seedlings B move. Until then, the power transmission to the drive wheel 14, the multi-punching device 22 and the like is cut off so that the implantation interval is not changed.

10 and 11 show a modified example of the defective seedling detection mechanism 102 and the defective seedling elimination mechanism 103, in which the contact member 106 is not provided and the detection piece 104A of the seedling detection sensor 104 is directly stalk a. The contact angle with the seedling detection sensor 104 is to be detected, and the rotation angle of the seedling detection sensor 104, that is, the vertical movement range of the tip of the detection piece 104A needs to be larger than that in the above embodiment. Similarly, foliage a
Can be detected and the manufacturing cost can be reduced. The position setting unit 1
11 is formed by sticking a bar material on the upper surface of the seedling receiving tray 71.

The defective seedling elimination mechanism 103 is provided with a push-up member 11
Rotating shaft 115A of rotary solenoid 115 provided with 6
Is directed in the front-rear direction, the kicking-out means 128 is arranged above it (above the seedling receiving tray 71 at the soil seedling B supply position), and the guide member 117 is arranged at a position facing the planting tube 33. There is. The kicking-out means 128 is provided with a kicking member 130 formed of a rod material or a brush on the rotary shaft of an actuator (rotary solenoid or the like) 129, and the soiled seedling B on the seedling receiving tray 71 is planted in the planting tube 33. And you can kick to the other side.

That is, when the soil seedling B is a defective seedling, the push-up member 116 prevents the seedling receiving tray 71 from tilting,
The kicking member 130 of the kicking-out means 128 kicks out the defective seedlings placed on it to the side opposite to the planting tube 33, forcibly sending it to the guide member 117 and dropping it into the groove C. There is. In the case of this modification, it is easier to kick out the defective seedlings without providing the position setting section 111, but since the defective seedlings may be destroyed by the strong kicking of the kicking member 130, the position setting section 111 may be omitted. There is no problem even if it is provided.

The present invention is not limited to the above embodiment, but can be variously modified. For example, the guide member 117 is formed so as to widely cover the lower side of the terminal end side of the seedling lateral feeding means 41 excluding the planting tube 33, and the planting tube 33.
All the soil-embedded seedlings B that have not been normally supplied may be guided to the groove C.

[0044]

According to the present invention described in detail above, upon receiving the defective soil-bearing seedlings B falling on the lower side of the planting device 21, or through the kicking means 128 at a position facing the planting device 21. Since the guide member 117 which receives the defective soil-bearing seedling B discharged to the side opposite to the planting device 21 and guides the groove C between the ridges A is arranged, the defective soil-bearing seedling B to be removed is transplanted. It does not damage the seedling B or the mulch film D, and the furrow groove C
Thus, it can be used as a retainer for the multi-film D.

[Brief description of drawings]

FIG. 1 is a perspective view of a main part showing an embodiment of the present invention.

FIG. 2 is a cross-sectional rear view of the main part.

FIG. 3 is a side view of the main part.

FIG. 4 is a rear view when the seedling pushing mechanism is advanced.

FIG. 5 is a rear view when the seedling pushing mechanism is retracted.

FIG. 6 is a side view of the entire transplanter.

FIG. 7 is a plan view of the entire transplanter.

FIG. 8 is a side view of a transplantation work unit.

9 is a cross-sectional view taken along line XX of FIG.

FIG. 10 is a perspective view showing a modified example of a defective seedling detection mechanism and a defective seedling elimination mechanism.

FIG. 11 is a rear view of the same.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Transplanter 11 Transplanting part 17 Main frame 20 Seedling box device 21 Planting device 22 Multi-punching device 24 Movable frame 39 Seedling box vertical feed mechanism 40 Seedling extrusion mechanism 41 Seedling lateral feed mechanism 45 Seedling box guide means 102 Bad seedling detection mechanism 103 Bad Seedling Exclusion Mechanism 104 Seedling Detection Sensor 105 Actuating Means 106 Contact Member 128 Kicking Means A Ridge B Earth Seedling C Groove D Multifilm

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yuji Izumino 1-1-1 Amagasaki City, Hyogo Prefecture Electronic Technology Center, Kubota Corporation (72) Inventor Yuuji Watanabe 1-1-1 Amamazaki City, Hyogo Prefecture Kubota Technology Development Center Electronic Technology Center

Claims (1)

[Claims] 1. A large number of seedling receiving trays (71) are arranged endlessly and are intermittently moved one pitch at a time, and the seedlings with soil (B) are placed on each of these seedling receiving trays (71) to obtain seedlings. The defective seedling detection mechanism (102) detects the quality of the soil-bearing seedling B on the receiving tray (71), and transfers the normal soil-bearing seedling (B) from the seedling receiving tray (71) to the planting device (21) at a required position. delivery,
In a transplanter in which the defective soil-bearing seedling (B) is dropped after passing through the planting device (21), the defective soil-bearing seedling (B) falling on the lower side of the planting device (21)
Or the defective soil-bearing seedlings (B) discharged to the opposite side of the planting device (21) through the kicking-out means (128) at a position facing the planting device (21). A defective seedling eliminating mechanism for a transplanter, wherein a guide member (117) for guiding the groove (C) between (A) is arranged.