JP4617054B2 - Transplanter - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a float structure of a transplanter for planting seedlings with planting claws on the side of a float and performing fertilization.
[0002]
[Prior art]
Conventionally, seedlings are planted by the planting part on the side of the float grounding body, and streak grooves are recessed in the ground surface (hereinafter referred to as fertilizer grooves) with a groove tool, and fertilizer is supplied into the grooves. 2. Description of the Related Art A transplanter that provides fertilizer application guides for fertilization, performs fertilization, and plants seedlings on the side of the fertilization groove is already known (see, for example, Patent Document 1).
[0003]
[Patent Document 1]
JP-A-7-327427 (page 3, FIG. 2)
[0004]
[Problems to be solved by the invention]
In the transplanter configured as shown in the above publication, the fertilization position and the planting position of the seedling are close to each other, and the seedling was planted or pushed away in the mud that was pushed to the side by the work tool or the fertilizer. There is a drawback that the planting posture of seedlings is disturbed by mud.
[0005]
Moreover, in order to plant a seedling stably, it is necessary to provide a planting part apart behind the groove making tool and the fertilizer guide, and to plant the seedling after the mud push away by the groove making tool is settled. However, this type of device has the disadvantage that the length of the float increases accordingly and the planting device becomes larger, and a leveling device such as a scraping work machine between the traveling machine body and the planting device is installed. When installing, there exists a problem that the space | interval for that cannot be ensured enough.
[0006]
[Means for Solving the Problems]
To achieve the above object, transplantation machine of the present invention, a leveling portion 9 of the long narrow before and after leveling between the planting position p, planting for leveling the planting platform forward and continuously provided on a front-side portion provided with a biasing leveling unit 13, the planting and at the same time fertilizing guiding member 26 of Sakumizo fertilization member 12 on the front side of planting section 8 of the fertilizer apparatus for performing fertilization can be installed with the transplanter having a float 6, wherein the float 6 is the the base of the planting ground leveling unit 13, then the sides of the mounting portion 11 formed on the thin flat plate shape toward the front is provided from Sakumizo tool Sakumizo fertilization member 12 on the front side of the mounting portion 11 provided a mounting hole 15 for mounting the 25 Rutotomoni, engraved kerf 16 behind the mounting portion 11 of a predetermined depth of the mounting hole 15, the fertilization guide member 26, along said該切Rimizo 16 preparative reversed U-shaped fertilization guiding member formed by removing a rear side central portion of the mounting portion 11 It is characterized in that the attachable by entering the mounting groove 17 for only.
[0007]
Further , the groove forming tool 25 is joined to the lower surface of the mounting portion 11, the fertilization guide tool 26 is joined to the upper surface of the mounting portion 11, and the fertilizer guiding tool 26 and the mounting hole 15 of the mounting portion 11 are bolted. 27 is inserted and fastened together .
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0009]
Reference numeral 1 denotes a transplanter that performs fertilization simultaneously with seedling planting. This transplanter 1 has an engine 2a mounted on the front part of a traveling machine body 2 provided with a front wheel 1a and a rear wheel 1b, a control part 2b is disposed on the rear side, and a rear part of the machine body 2 via an elevating mechanism 2c. The planting apparatus 3 provided with the float structure concerning is attached.
[0010]
This planting device 3 has a planting transmission case 5 extending rearward on a lateral frame 4 connected to the lifting mechanism 2c with a predetermined planting interval. One float 6 is supported by a known float support mechanism 7 so as to be swingable and adjustable in planting depth.
[0011]
Moreover, the transplanter 1 shown in FIGS. 1 and 2 is configured to plant seedlings for five strips by the float arrangement shown in FIGS. 3 to 5 and the installation of the planting unit 8.
[0012]
The float 6 is composed of two side floats 6a each having a substantially T shape in plan view, and one center float 6b having a substantially inverted U shape disposed at the center thereof, and the narrow leveling portion 9 of the side float 6a. The planting parts 8 provided on both sides of the planting transmission case 5 are arranged on both sides of the rear part, and the seedlings are planted in the planting position p by the planting claws 10.
[0013]
In addition, at the planting position p between the two narrow leveling portions 9 of the center float 6b, seedlings are planted by the planting claws 10 of the planting portion 8 provided on one side of the center planting transmission case 5. It is supposed to be attached.
[0014]
The transplanting machine 1 can plant seedlings for five strips with the above-described configuration, and is provided with a groove fertilizer 12 on the mounting portion 11 formed on each float 6 by the following mounting means. The granular fertilizer paid out from the fertilizer tank of the non-fertilizing apparatus can be applied to the field.
[0015]
The float 6 will be described with reference to the side float 6a shown in FIGS.
[0016]
The side float 6a is long and narrow in the front-rear direction, and has a narrow leveling portion 9 that is grounded between the planting positions p on both sides, and projects sideways toward the front side of the planting position p on both sides of the narrow leveling portion 9 The planting leveling unit 13, the planting leveling unit 13 and the narrow leveling unit 9 are formed in a T shape.
[0017]
And the attachment part 11 forms in a thin flat plate shape as shown in FIG.7 (B) toward the front side from the rear piece in the base part of the planting leveling part 13, and the grooving fertilizer 12 (FIG. 5) A mounting hole 15 (FIG. 6) for mounting is provided, and an inverted U-shaped kerf 16 is carved at a predetermined depth from the lower surface side of the mounting portion 11 on the rear side of the mounting hole 15.
[0018]
With this configuration, when the central portion of the attachment portion 11 is strongly pushed out or cut upward or downward through the cut groove 16, the central portion of the attachment portion 11 can be easily removed. Thereby, the reverse U-shaped attachment groove 17 can be formed in the attachment part 11 in the width | variety and length which fit and attach the groove fertilizer 12.
[0019]
In addition, the center float 6b has a mounting portion 11 having the same structure as the mounting portion 11 of the above-mentioned side float 6a, a little on the left side from the planting position p on the rear side of the planting leveling 14 connecting the left and right narrow leveling portions 9. It is formed at a shifted position.
[0020]
The side float 6a and the center float 6b are provided with attachment holes 20 for the float support mechanism 7 and attachment holes 22 for attaching the earthenware 21 at predetermined positions.
[0021]
With this configuration, the transplanter 1 is configured so that only the planting operation is performed by providing the side float 6a and the center float 6b with the mounting portion 11 formed without cutting the mounting portion 11 at the float manufacturing stage. be able to.
[0022]
In this case, since the mounting portion 11 can level the soil on the flat surface on the front side of the planting position p, the seedling can be planted on the ground surface that is cleanly leveled.
[0023]
If the front part of the float is greatly cut out to the front and there is a notch to the front end of the sledge, and the fertilizer guide 26 is not provided, the muddy water will flow out from the notch to the upper surface of the float. However, in the embodiment of the present invention, since the cutout is made only when the fertilizer guide 26 is attached, the problem does not occur.
[0024]
When the fertilizer is provided in such a transplanter 1 and the groove fertilizer 12 is attached to the float 6, the attachment groove 17 in which the attachment portion 11 of each float 6 is notched through the cut groove 16 as described above. On the other hand, when the grooving tool 25 (FIG. 5) and the fertilizer guiding tool 26 of the grooving fertilizer 12 are attached, fertilization can be performed at a position displaced to one side on the front side of the planting position p.
[0025]
At this time, the grooving tool 25 is joined to the lower surface of the mounting portion 11, the fertilizer guide 26 is joined to the upper surface of the mounting portion 11, and the fertilizer guiding tool 26 and the mounting hole 15 (FIG. 6) of the mounting portion 11 are bolted. 27 is inserted and fixed together (FIGS. 4 and 5).
[0026]
With this configuration, the groove producing tool 25 forms a concave groove on the ground surface at a portion protruding from the lower surface of the float 6 so as to have a predetermined fertilization depth.
[0027]
Further, the fertilizer application tool 26 includes a fertilizer pipe 28 that communicates with the fertilizer tank, and feeds and fertilizes the fertilizer that is fed out into the concave groove formed by the grooving tool 25.
[0028]
And this fertilizer application can leave | separate, ensuring the appropriate distance in the front side of the planting position p by providing the fertilization guide 26 in the planting leveling part 13 via the attachment part 11. FIG. Therefore, the planting of the seedling by the planting claw 10 performed after the grooving by the fertilizer guide 26 is not hindered.
[0029]
Further, at this time, the planting leveling portion 13 located on the side of the mounting portion 11 leveles the side of the concave groove at the time of grooving, leveling so as to back up the concave groove after fertilization, Seedlings can be planted smoothly.
[0030]
Further, since the float length is not increased at the rear part of the planting leveling part 14 unlike the conventional apparatus in which the groove producing tool 25 is projected, the planting apparatus 3 can be downsized.
[0031]
In addition, when using the float 6 having the above-described configuration and applying it to the transplanter 1 for planting seedlings for six strips, the center float 6b is attached to the same side float 6a as shown in FIG. By providing the planting portions 8 on both sides of the center planting transmission case 5, the 6-planting type planting device 3 can be formed as in the conventional device.
[0032]
【The invention's effect】
As apparent from the above description, transplantation machine according to the present invention, a leveling portion 9 of the long narrow before and after leveling between the planting positions p, a planting platform forward and continuously provided on a front-side portion A transplanting machine provided with a float 6 that can be provided with a planting leveling unit 13 for leveling, and can be provided with a fertilizer application tool 26 of the groove fertilizer 12 on the front side of the planting unit 8 of the fertilizer applying fertilizer simultaneously with planting. The float 6 is provided with a mounting portion 11 formed in a thin flat plate shape from the rear side toward the front side of the planting leveling portion 13, and the grooved fertilizer 12 is provided on the front side of the mounting portion 11. An attachment hole 15 for attaching the groove producing tool 25 is provided, and a groove 16 having a predetermined depth is formed in the attachment portion 11 at the rear of the attachment hole 15 so that the fertilizer guide 26 is disposed along the groove 16. And an inverted U-shaped application formed by removing the central part on the rear side of the mounting part 11 It is characterized in that the attachable by entering the guiding member mounting groove 17 for mounting.
[0033]
Therefore, by attaching the grooving tool 25 to the mounting groove 17 formed by entering the planting leveling section 13 , an appropriate earth return distance can be secured on the front side of the planting claw 10, so that the float length is increased. Therefore, it is possible to reduce the size of the planting device 3 without doing so.
[0034]
Moreover, since the side of the groove | channel formed with the groove making tool 25 and the fertilization guide tool 26 can be leveled with the planting preparation leveling part 13, the planting of a seedling can be made smooth.
[0035]
Furthermore, the planting device 3 provided with the groove-growing fertilizer 12 while using one float that is provided with a thin mounting portion 11 that enables the mounting groove 17 to be formed in the planting leveling portion 13, and planting only. It can be used for the planting apparatus 3 which performs.
[0036]
Moreover, the attachment part 11 formed thinly can easily form the attachment groove 17.
[Brief description of the drawings]
FIG. 1 is a side view of a transplanter having a float structure.
2 is a plan view of FIG. 1. FIG.
FIG. 3 is a plan view showing a state in which a groove producing tool is attached to the three floats in FIG. 1;
4 is a side view showing a configuration in which a groove fertilizer is provided on the side float of FIG. 3. FIG.
5 is a side view showing a configuration in which a groove fertilizer is provided on the center float of FIG. 3. FIG.
FIG. 6 is a plan view showing a configuration of a side float according to the present invention.
7 is a cross-sectional view of the side float of FIG. 6, where (A) is an AA line, (B) is a BB line, (C) is a CC line, and (D) is a DD line. It is sectional drawing.
FIG. 8 is a plan view showing a six-row planting type float arrangement according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 transplanter 2 traveling machine body 3 planting apparatus 6 float 6a side float 6b center float 8 planting part 9 width narrowing part 10 planting claw 11 mounting part 12 groove preparation fertilizer 13 planting leveling part 14 leveling grounding part 15 Mounting hole 16 Groove 17 Mounting groove 25 Groove tool 26 Fertilizer guide

Claims (2)

Before and after the planting position p, there is provided a narrow and narrow leveling unit 9 before and after leveling, and a planting leveling unit 13 which is connected to the front side and levels the front of the planting unit. In the transplanting machine provided with the float 6 in which the fertilizing guide tool 26 of the grooving fertilizer 12 can be attached to the front side of the planting part 8 of the fertilizing apparatus to be performed, the float 6 from subsequent side toward the front side provided with a mounting portion 11 formed on a thin flat plate, provided with a mounting hole 15 for attaching the Sakumizo member 25 of Sakumizo fertilization member 12 on the front side of the mounting portion 11 Rutotomoni, mounting holes A cut groove 16 having a predetermined depth is formed in the attachment portion 11 on the rear side of 15, and the fertilizer guide 26 is formed by removing the central portion on the rear side of the attachment portion 11 along the cut groove 16. intruded into the mounting groove 17 for fertilization guiding member mounted in the inverted U-shape and can be attached Transplanter, characterized in that was. A groove forming tool 25 is joined to the lower surface of the mounting portion 11, a fertilizer guide 26 is joined to the upper surface of the mounting portion 11, and a bolt 27 is attached to the mounting hole 15 of the fertilizing guide 26 and the mounting portion 11. The transplanter according to claim 1, wherein the transplanter is inserted and fastened together .

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