JPH0520107Y2 - - Google Patents

Description

[Detailed description of the invention] (a) Industrial application field The present invention relates to a drive structure for a side row fertilizer applicator when a rotary planting device is attached as a planting device to a rice transplanter.

(b) Prior Art Many applications related to side row fertilizer applicators have been filed in the past. For example, Japanese Patent Application Laid-Open No. 16519/1982 and Japanese Utility Model Application No. 133727/1982.

(c) Problems to be solved by the invention Conventional side row fertilizers were attached to rice transplanters with reciprocating planting claws. Therefore, the reciprocating motion of the planting claws could be directly extracted by the link, and the feeding device of the side row fertilizer applicator was driven intermittently.

On the other hand, in a rotary-type planting device, the planting claw case rotates, and the planting claws attached to both ends of the planting claw case rotate while rotating, and follow a long elliptical trajectory. There are no parts that move back and forth. For this reason, in the conventional technology, the PTO shaft was taken out from the planting transmission case part, a crank arm was attached to the part, and the feeding shaft was driven by the crank arm.

However, the planting transmission case is located away from the planting claws, making the transmission structure using links and arms longer, and because the planting part is line-stopped, the structure of the side-row fertilizer applicator is also difficult to connect to the row-stopping. This has some drawbacks such as complexity.

In the present invention, the feeding shaft of the side row fertilizer applicator is directly and intermittently rotated by the rotation of the planting claw case.

(d) Means for solving the problem The purpose of the present invention is as described above. Next, the configuration for achieving the purpose will be explained.

A rotary-type planting device in which a planting claw case 3 is rotatably arranged from a planting transmission case 2, and planting claws 4, 4 arranged at both ends of the planting claw case 3 are rotated drawing an elongated locus. In the configuration in which the side row fertilizer applicator is attached, by protruding the intermittent rotational force extraction arm 18 onto the rotation locus of the planting claw case 3 and engaging the planting claw case 3 with the intermittent rotational force extraction arm 18. By rotating the intermittent rotational force extraction arm 18 by a certain angle and further rotating the planting claw case 3, the engagement state is released and the intermittent rotational force extraction arm 18 is returned to its original position, and the feeding device 26
This provides intermittent rotational force.

(e) Structure of the embodiment The purpose and structure of the present invention are as described above. Next, the structure and operation of the embodiment shown in the attached drawings will be explained.

Figure 1 is an overall side view of a riding-type rice transplanter equipped with the side-row fertilizer applicator of the present invention, Figure 2 is a side view of the side-line fertilizer applicator, Figure 3 is a plan view of the same, and Figure 4 is the feeding device. A side view showing the structure of the intermittent rotational force extraction arm 18, FIG. 5 is a plan sectional view as well, and FIG.
FIG. 7 is a side view of the rotation angle stopper 9.

In FIG. 1, the overall structure of the riding rice transplanter will be explained. An elevating link device protrudes from the rear of a traveling device T, and the planting device is supported by the elevating link device.

In this configuration, a direct sowing machine is also arranged between the traveling device T and the planting device. The direct sowing machine has a seed hopper 31, a feeding device, and a seed guide pipe 32.
and a groove making disk 7. The groove cutting disc 7 slides on a slide support rod 8 to adjust the row spacing, so that the row spacing can be changed when sowing paddy or when sowing legumes such as soybeans. .

In Figures 2 and 3, the PTO of the traveling device T
Power is transmitted from the shaft to the planting transmission case 2 via a universal joint shaft in the lifting link device.

As shown in FIG. 3, two sets of planting transmission cases 2 are arranged with a large width left and right, and between the left and right planting transmission cases 2, two planting devices are installed. is configured.

That is, the planting transmission case 2 drives the planting claw case 3.
The planting claws 4, 4 are driven and supported by the connecting drive shafts 29, 29 located above and below between the left and right planting claw cases 3, 3.

As the planting claw case 3 rotates, the connecting drive shaft 2
The planting claws 4, 4, which are driven and supported on the 9, rotate on their own axis while revolving around each other, and as shown in the side view of FIG. 2, they rotate while drawing an oblong locus.

When the long elliptical locus passes through the seedling take-out plate 24 at the lower end of the seedling platform 25, the seedlings on the seedling platform 25 are cut off, transported to the soil surface, and planted.

In the side row fertilizer applicator according to the present invention, a groove-forming body bracket 13 is arranged between the planting transmission cases 2 and 2 behind the float 20, and the groove-forming body 1 is supported by the groove-forming body bracket 13. . Also, fertilization tank 10
A bracket is extended from the rear end of the planting transmission case 2 to support it.

From the fertilization tank 10, the feeding device 26
The fertilizer is dropped into the mold guide 28 in fixed amounts via the flexible fertilization guide tube 5 and the fertilization guide pipe 6.

A groove-making body 1 is arranged at the front of the mold guide 28, and a mulch plate 17 is arranged at the rear to prevent the fertilizer from flowing out after application.

The main part of the present invention has the above configuration.
This relates to a method of driving the feeding shaft 11 of the feeding device 26.

The feeding shaft 11 of the feeding device 26 cannot rotate at the high speed that rotates other parts of the planting device, and must be extremely decelerated. In order to perform this super deceleration, the planting claws 4, 4
An intermittent drive device is constructed that converts one rotation into a rotation of a fixed angle.

In the present invention, the driving force for the intermittent rotation is obtained by bringing the upper part of the planting claw case 3 into contact with the intermittent rotational force extraction arm 18 that projects on the rotation trajectory of the planting claw case 3. .

The intermittent rotational force extraction arm 18 is supported by a bearing body 15 supported on the planting transmission case 2,
The bearing device 12 of the pivot shaft 14 of the intermittent rotational force extraction arm 18 is configured to be movable up and down. By moving the bearing device 12 up and down, the position of the upper end of the angle that moves with one rotation of the intermittent rotational force extraction arm 18 can be changed.

Furthermore, since the position of the rotation angle stopper 9, which is the position at which the intermittent rotational force extraction arm 18 waits for the rotation of the planting nail case 3, can be adjusted up and down, the intermittent rotational force extraction arm 18 can be adjusted vertically. The position of the lower end of rotation of 18 can be adjusted and set. By adjusting the settings of the upper and lower ends, the width of one rotation of the intermittent rotational force extraction arm 18 is changed.
The rotation angle of the feed roll of the feed device 26 is determined, and the amount of fertilizer applied can be changed. Rotation of the pivot shaft 14 is transmitted to the arm 19 of the feeding shaft 11 by the arm 22 and link 16. A one-way clutch 21 is attached to the arm 19, which changes the rotation of the arm 19 to intermittent rotation.

(f) Effects of the invention Since the present invention is constructed as described above, it has the following effects.

First, in the case of a rice transplanter equipped with a rotary-type planting device, the planting device is not driven by reciprocation but by the rotation of the planting claw case 3, the connecting drive shaft 29, etc., so the rotation A larger space is required depending on the part, and it becomes difficult to arrange an arm or a shaft for taking out the intermittent rotation for driving the feeding device 26 near the planting claws 4, 4.

In this invention, this problem can be solved by planting nail case 3.
By utilizing the rotational force as it is, intermittent rotation can be obtained at a position close to the feeding device 26 without providing a separate crankshaft or crank arm.

Second, in the past, it was difficult to adjust the rotation angle of the crankshaft and crank arm, and to arrange the row stopper of the side row fertilizer spreader due to the row stopper of the planting device. By configuring as in the invention, the above object can be easily achieved by adjusting or removing the position of the intermittent rotational force take-off arm 18 that protrudes into the rotation locus of the planting claw case 3. It is possible.

[Brief explanation of the drawing]

Figure 1 is an overall side view of a riding-type rice transplanter equipped with the side-row fertilizer applicator of the present invention, Figure 2 is a side view of the side-line fertilizer applicator, Figure 3 is a plan view of the same, and Figure 4 is the feeding device. A side view showing the structure of the intermittent rotational force extraction arm 18, FIG. 5 is a plan sectional view, and FIG.
FIG. 7 is a side view of the rotation angle stopper 9. 1... Grooving body, 2... Planted transmission case, 3...
Planting claw case, 4... Planting claw, 5... Fertilization guide flexible tube, 6... Fertilization guide pipe, 9... Rotation angle stopper, 11... Feeding shaft, 18... Intermittent rotational force extraction arm , 26... feeding device.

Claims (1)

[Scope of utility model registration request] A rotary-type planting device in which a planting claw case 3 is rotatably arranged from a planting transmission case 2, and planting claws 4, 4 arranged at both ends of the planting claw case 3 are rotated drawing an elongated locus. In the configuration in which a side row fertilizer applicator is attached, by protruding the intermittent rotational force extraction arm 18 onto the rotation locus of the planting claw case 3 and engaging the planting claw case 3 with the intermittent rotational force extraction arm 18. By rotating the intermittent rotational force extraction arm 18 by a certain angle and further rotating the planting claw case 3, the engagement state is released and the intermittent rotational force extraction arm 18 is returned to its original position, and the feeding device 26
A side row fertilizer of a rotary planting device that is characterized by obtaining intermittent rotational force.