JPH088806B2 - Rice transplanter - Google Patents

Description

TECHNICAL FIELD The present invention relates to a rice transplanter equipped with a fertilizer application device for feeding fertilizer into the vicinity of planted seedlings.

[Prior Art] In the rice transplanter, a float is provided for the seedling planting device or a device for maintaining the posture of the airframe and ground leveling, and a grooving device is provided in this float to make a groove along with the progress of the airframe. The fertilizer is configured to be fed into the groove created near the planted seedlings by the plant, and the distance between the planted seedlings and the trench is changed by changing the mounting position of the grooving device to the float. In other words, it controls the positional relationship between planted seedlings and fertilizer.

[Problems to be Solved by the Invention]

The grooving device is attached to the float so as to project downward, and the float is also provided in the lower part of the seedling planting device. Therefore, when changing the mounting position of the grooving device as described above, There was room for improvement in terms of workability, because the operator had to lift the planting device and sneak in underneath, or the operator had to insert his / her hand into the plant from behind the planting device.

In view of the above-mentioned problem, the present invention has an object to configure so that the positional relationship between the planted seedling and the grooving device can be changed relatively easily.

[Means for solving the problem]

A feature of the present invention is that in a seedling planting device, a support shaft, which is installed in the lateral direction of the machine body with respect to a stationary-side planting frame equipped with a freely rotatable planting claw, is provided with the support shaft in the axial direction. Attached to the attached frame so as to be relatively slidable and fixable, the groove making device is attached to the float integrally slidably attached to the support shaft, and the sliding operation of the support shaft causes
The point is that the lateral spacing of the grooving device with respect to the planting claw in all planting strips can be changed.

[Action]

With the configuration described above, the operator can slide the support shaft in the axial direction from the side of the seedling planting device, etc., even if the operator does not lift the seedling planting device and sneak down. With this, it is possible to move the grooving device together with the float to or away from the path of passage of the planting claws, and it is possible to change the position of the grooving device with respect to the planted seedlings in all planting lines at once.

For example, as shown in FIG. 1, by sliding the support shaft (17) in the direction of the arrow (shown by the solid line) in the direction of the axis (leftward in the drawing) along the axial direction, Grooving device (10) for each seedling planting site with nails (2)
Can be spaced to the left. When the support shaft (17) is fixed in this state and seedling planting work is performed, the planted seedlings (W) in each planting row are indicated by arrows (broken lines indicated by broken lines) relative to each grooving device (10). ) A) direction (rightward in the drawing), it will be planted at a position separated.
In addition, by sliding the support shaft (17) in the opposite direction of arrow (shown by the solid line) to the right (the right in the drawing), each planting claw (2) is used to plant each seedling at each planting site. The groove device (10) can be moved to the right. When the support shaft (17) is fixed in this state and seedling planting work is performed, the planted seedlings (W) in each planting strip are placed in each groover (1).
It will be planted at a position relatively close to the arrow 0 (shown by the broken line) in the direction of arrow B (left in the drawing).

〔The invention's effect〕

As described above, the workability of the rice transplanter is improved because the right and left intervals of the grooving device with respect to the planting claws in all planting rows can be relatively easily changed all at once.

〔Example〕

A riding type rice transplanter, which is one of the embodiments of the present invention, will be described below with reference to the drawings.

As shown in FIG. 2, a planting claw (2) mounted on the rear part of the planting frame (1) composed of a planting mission so as to be rotatable and driven, and a guide rail (3) of the planting mission (1). A seedling planting device (4), etc., which is slidably driven above constitutes a seedling planting device, and this seedling planting device is movably connected to a machine body (not shown) via a four-link mechanism (5). There is.

The seedling planting device is equipped with a fertilizer application device. As shown in the figure, the fertilizer application device is a tank (7) for storing fertilizer, and a delivery roll (11) for intermittently delivering the fertilizer in the tank (7).
And a feeding section (8) in which is installed. The feeding roll (11) is interlocked with the drive mechanism (25) of the planting claw (2) via a rod (12), and the feeding roll (11) is set by the reciprocating motion of the planting claw (2). It is driven to reciprocate within an angular range, whereby fertilizer is intermittently fed out, passes through the hose (9), and the grooving device (1
It is sent to the fertilizer ditch formed in the field by 0).

Further, as shown in the figure, a belt (13) is wound around the hose (9), and a one-way clutch mechanism (not shown) is internally provided from the drive wheel (14) of the belt (13). The drive arm (15) is extended and the rod (1
It is linked to 2). With the above structure, the belt (13) is driven to the downward feed side in association with the reciprocating motion of the planting claw (2), and the fertilizer entering the hose (9) is reliably fed downward. I am doing it.

Next, the float (6) provided with the grooving device (10) will be described in detail. As shown in FIGS. 1 and 2, in the seedling planting device, the support shaft (17) is installed in the lateral direction of the machine body. Has been done. The support shaft (17) is a part of the planting frame (1) and is slidable in the axial direction in a bracket (16) provided on the lower surface of the planting frame (1) and rotatable about its own axial center. It is supported. A first support arm (18) extends rearward from a plurality of points of the support shaft (17) and is floatable around a horizontal axis (P ₁ ) at an end of the first support arm (18). (6) is attached. Further, the second support arm (19) extends forward from the support shaft (17), and the second support arm (19) is provided in the elongated hole of the guide member (20) provided at the front part of the float (6). The end is locked. Then, the groove making device (10) is fixed to the float (6) together with the plate-like groove cutting plate (21).

An operation lever (22) extends from the support shaft (17), and the operation lever (22) rotates the support shaft (17) to move the float (6) in the vertical direction with respect to the seedling planting device. The position can be changed.

On the other hand, positioning grooves (17a) are provided at a plurality of positions on the end of the support shaft (17), and a cylindrical portion (26) fixed to the planting frame (1) side is externally fitted. With this structure, the grip (23) at the end of the support shaft (17) is held by hand, and the float (6) is slid along with the support shaft (17) in the axial direction to set the cylindrical portion (26). By engaging the tip of the bolt (24) with the groove (17a) of the support shaft (17), the float (6) and the grooving device (10) are positioned with respect to the planted seedling (W). For example, as shown in FIG.
By sliding the support shaft (17) in the direction of the arrow (the one shown by the solid line) in the direction of the axis (left in the drawing) along the axial direction, the seedlings are to be planted by the planting claws (2). Each groove making device (10) can be separated leftward. When the support shaft (17) is fixed in this state and seedling planting work is performed, the planted seedlings (W) in each planting row are indicated by arrows (broken lines indicated by broken lines) relative to each grooving device (10). )
It will be planted at a position separated in the direction a (rightward in the drawing). In addition, by sliding the support shaft (17) in the opposite direction of arrow (shown by the solid line) to the right (the right in the drawing), each planting claw (2) is used to plant each seedling at each planting site. The groove device (10) can be brought into a state of approaching to the right. When the support shaft (17) is fixed in this state and seedling planting work is performed, the planted seedlings (W) in each planting row are indicated by arrows (broken lines indicated by broken lines) relative to each grooving device (10). ) B direction (left in the drawing) will be planted at a position approached.

It should be noted that reference numerals are added to the claims for convenience of comparison with the drawings, but the present invention is not limited to the structures of the accompanying drawings by the entry.

[Brief description of drawings]

The drawings show an embodiment of a rice transplanter according to the present invention. Fig. 1 is a plan view around a float, and Fig. 2 is a side view of a seedling planting device. (1) ... planted frame, (2) ... planted nail, (6) ...
… Float, (10) …… groover, (17) …… support shaft.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Bibliography Sho 55-29184 (JP, U) Rikai 60-121709 (JP, U) Rikai 55-133722 (JP, U)

Claims (1)

[Claims] 1. In a seedling planting device, a support shaft (17) is installed in the lateral direction of the machine, with respect to a stationary-side planting frame (1) equipped with a rotation-driving planting claw (2). A float (6) which is slidably and fixedly attached to the planting frame (1) in the axial direction thereof, and the grooving device (10) is integrally slidably attached to the support shaft (17). ), And the lateral spacing of the grooving device (10) with respect to the planting claw (2) in all planting rows can be changed by sliding the support shaft (17). .