JPH06237614A - Ground working machine - Google Patents
Ground working machineInfo
- Publication number
- JPH06237614A JPH06237614A JP2779293A JP2779293A JPH06237614A JP H06237614 A JPH06237614 A JP H06237614A JP 2779293 A JP2779293 A JP 2779293A JP 2779293 A JP2779293 A JP 2779293A JP H06237614 A JPH06237614 A JP H06237614A
- Authority
- JP
- Japan
- Prior art keywords
- ground
- work
- clutch
- state
- switch
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Transplanting Machines (AREA)
- Lifting Devices For Agricultural Implements (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】本発明は、走行機体の後部に駆動
機構により駆動昇降自在に対地作業装置を連結するとと
もに、走行機体からの動力を作業クラッチを介して入り
切り操作自在に前記対地作業装置に伝えるよう構成し、
前記対地作業装置を所定位置まで強制上昇させる状態と
接地下降させる状態とに切り換え自在な昇降操作スイッ
チを備えてある対地作業機に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ground work device which is connected to a rear portion of a traveling machine body by a drive mechanism so as to be driven up and down so that power from the traveling machine body can be turned on and off through a work clutch. Configured to tell
The present invention relates to a ground work machine equipped with a lifting operation switch that can be switched between a state in which the ground work device is forcibly raised to a predetermined position and a state in which it is grounded and lowered.
【0002】[0002]
【従来の技術】上記対地作業機において、従来では、例
えば本出願人による特願平4−50157号において示
されるように、圃場での畦際旋回の際に前記昇降操作ス
イッチを操作すると、苗植付装置〔対地作業装置〕が最
大上昇位置まで強制上昇するとともに、再度、スイッチ
操作すると接地下降するよう構成されていた。2. Description of the Related Art Conventionally, in the above ground working machine, as shown in, for example, Japanese Patent Application No. 4-50157 filed by the applicant of the present invention, when the raising / lowering operation switch is operated at the time of a ridge turn in a field, seedling The planting device (ground work device) was forcibly lifted to the maximum lifted position, and it was configured to descend to the ground when the switch was operated again.
【0003】[0003]
【発明が解決しようとする課題】上記したような昇降操
作構造は、従来より行われていた昇降レバーの揺動操作
による昇降操作構造では、圃場における畦際旋回走行の
際に機体の走行速度の低速切り換え操作やハンドル回動
操作等とともに、昇降レバー操作も短時間内で行わねば
ならず、操縦者に対する作業負担が大である欠点がある
ので、畦際旋回時の作業装置の昇降操作を操作が行い易
いスイッチ操作で行えるようにしたものである。ところ
で、この種の作業機にあっては、作業装置が接地下降状
態で作業走行する状態又は作業装置を大きく上昇させて
畦際旋回走行する状態以外に、例えば、対地作業機の一
例として乗用型田植機においては、作業装置〔苗植付装
置〕を対地所定高さにまで上昇させて苗補給作業を行っ
たり、施肥量調節等の作業を行う場合があるが、上記従
来構造では、このような途中レベルまでの上昇操作は、
前記昇降操作スイッチを用いて行うことができず、他の
手動昇降用操作具を用いて目測でレベル調節しながら作
業装置の上昇操作を行う必要があり、操作の煩わしさが
あり、改善の余地があった。本発明の目的は、合理的改
良によって、対地作業中の作業装置の昇降作動だけでな
く、調節作業の際における作業装置の昇降作業を能率よ
く行えるようにする点にある。The above-described raising / lowering operation structure is a conventional raising / lowering operation structure in which the raising / lowering lever is oscillated. In addition to the low-speed switching operation and the handle rotation operation, the lifting lever operation must be performed within a short time, which has the drawback that the work load on the operator is heavy. The switch operation is easy to perform. By the way, in this type of working machine, in addition to a state in which the working device is working traveling in a grounding descending state or a state in which the working device is greatly raised and swiveling around the ridge, for example, a riding type as an example of a ground working machine. In the rice transplanter, the work device (seedling planting device) may be raised to a predetermined height above the ground to perform seedling replenishment work or work such as fertilizer application adjustment. Ascending operation to a midway level,
It cannot be performed by using the lifting operation switch, and it is necessary to perform the lifting operation of the working device while visually adjusting the level using another manual lifting operation tool, which is troublesome in operation, and there is room for improvement. was there. An object of the present invention is to make it possible to perform not only the lifting and lowering operation of the working device during ground work but also the lifting and lowering work of the working device during adjustment work efficiently by rational improvement.
【0004】[0004]
【課題を解決するための手段】本発明の特徴構成は、冒
頭に記載した対地作業機において、下記〔イ〕,〔ロ〕
の各操作モードに夫々切り換え設定自在な操作モード切
り換え手段を備えてある点にある。 〔イ〕前記昇降操作スイッチの操作に基づいて前記対地
作業装置を接地下降状態と退避用第1上昇レベルとの間
で昇降操作を行うとともに、接地下降状態にあるとき前
記作業クラッチの入り操作を許容し且つ前記上昇レベル
では作業クラッチ入り操作を牽制する第1操作モード。 〔ロ〕前記昇降操作スイッチの操作に基づいて前記対地
作業装置を接地下降状態と調節作業用第2上昇レベルと
の間で昇降操作を行うとともに、前記第2上昇レベルに
あるとき前記作業クラッチの入り操作を許容する第2操
作モード。The characteristic construction of the present invention is that the ground working machine described at the beginning has the following [a] and [b]:
That is, each operation mode is provided with an operation mode switching means that can be switched and set. [B] The ground work device is moved up and down between the ground-down state and the first evacuation level for retreat based on the operation of the up-down operation switch, and when the ground-down state is reached, the work clutch is turned on and off. The first operation mode in which the operation of allowing the work clutch to be restrained is permitted at the above-mentioned rising level. [B] The ground work device is moved up and down between the ground-down state and the second raising level for adjustment work based on the operation of the raising and lowering operation switch, and when the work clutch is at the second raising level. The second operation mode that allows the entry operation.
【0005】[0005]
【作用】前記操作モード切り換え手段を第1操作モード
に設定しておくと、昇降操作スイッチの操作に基づい
て、大きく対地上昇する退避用第1上昇レベルと接地状
態との間で昇降作動が行われ、しかも、対地作業装置が
接地下降する作業状態でのみ作業クラッチが入り操作可
能であり、昇降操作スイッチの操作により第1上昇レベ
ルまで退避上昇したときには、作業クラッチの入り操作
が不可能となるから、誤って、上昇中に作業クラッチが
入り作業上の不具合〔例えば、田植機にあっては苗の放
り投げ等〕が生じるのを防止できる。又、操作モード切
り換え手段を第2操作モードに設定しておくと、昇降操
作スイッチの操作に基づいて、調節作業に適した第2上
昇レベルと接地状態との間で作業装置の昇降作動が行わ
れる。この場合には、作業装置が対地浮上した状態であ
っても作業クラッチが入り操作可能となるから、対地浮
上した非作業姿勢において作業装置を駆動させながら調
節作業〔例えば、田植機にあっては苗の取り量調節や施
肥量調節等〕を行うことができる。When the operation mode switching means is set to the first operation mode, the elevating operation is performed between the first evacuation level for evacuation which greatly rises to the ground and the grounded state based on the operation of the elevating operation switch. Moreover, the work clutch can be engaged and operated only in a work state in which the ground work device is grounded and lowered, and when the evacuation operation switch is operated to retract and rise to the first rising level, the work clutch cannot be engaged and engaged. Therefore, it is possible to prevent the work clutch from accidentally entering the work clutch during the ascent, and causing a work problem (for example, throwing seedlings in a rice transplanter). Further, when the operation mode switching means is set to the second operation mode, the working device is moved up and down between the second rising level suitable for adjustment work and the grounded state based on the operation of the lifting operation switch. Be seen. In this case, since the work clutch can be engaged and operated even when the work device is floating above the ground, adjustment work can be performed while driving the work device in a non-working posture where the work surface is above the ground (e.g. The amount of seedlings to be taken and the amount of fertilizer applied can be adjusted.
【0006】[0006]
【発明の効果】従って、作業走行中に作業装置を上昇さ
せたときに誤って作業クラッチが入り操作されることが
無く作業上の安全性が確保されるものでありながら、対
地作業走行中だけでなく、走行停止させて作業装置を少
し対地浮上させて行う調節作業にあっても、スイッチ操
作により煩わしさ無く作業装置を所望高さまで上昇させ
てクラッチ入り状態で調節作業が行える等、昇降操作ス
イッチの作業状況の違いに応じた使い分けによって作業
能率が向上するものとなった。As a result, the work clutch is prevented from being erroneously engaged and operated when the work device is raised during work travel, and work safety is ensured, but only during ground work travel. Also, even in the adjustment work where the traveling is stopped and the work device is slightly levitated above the ground, the work device can be raised to the desired height without the trouble of operating the switch and adjustment work can be performed with the clutch engaged. The work efficiency has been improved by properly using the switch depending on the working situation.
【0007】[0007]
【実施例】以下、実施例を図面に基いて説明する。図3
に対地作業機の一例である乗用型田植機を示している。
この田植機は、乗用型走行機体1に後部にリンク機構2
を介して苗植付装置3〔対地作業装置の一例〕をリフト
シリンダ4〔駆動機構の一例〕により駆動昇降自在並び
に前後軸芯周りでローリング自在に連結して、機体を走
行させながら泥面上に苗の植付けを行うよう構成してあ
る。走行機体1には前部にエンジン5を搭載するととも
に、このエンジン5の動力がベルト式無段変速装置6、
ミッションケース7を介して前後車輪8,9に伝えら
れ、且つ、電動モータ10により入り切り操作される植
付クラッチ11〔作業クラッチの一例〕を介して車速と
同期した出力が苗植付装置3に伝えられるよう伝動系を
構成してある。前記電動モータ10のクラッチ入り切り
作動は操縦部に備えたクラッチスイッチ17の操作に基
づいて、マイクロコンピュータを備えた制御装置18に
より行うようにしてある。苗植付装置3は、左右横方向
に一定ストロークで往復横移動する苗のせ台12、苗の
せ台12の下端部から一株づつ苗を取り出して圃場に植
付ける植付機構13、泥面上に接地追従しながら整地作
用を行う複数の接地フロート14等を備えて成り、ステ
アリングハンドル16の下側には揺動レバー式の昇降操
作スイッチSW1が備えられ、このスイッチSW1の操
作に基づいて苗植付装置3を所定上昇位置まで強制上昇
させる状態と接地下降させる状態とに切り換え自在に構
成してある。リンク機構2の機体側枢支箇所にはリンク
機構2の相対角度変化より苗植付装置3の対機体高さを
検出するポテンショメータ型リンク角度センサ19を設
けてあり、車輪フェンダー20の後部には、苗植付装置
3が機械的上昇限界近くまで上昇すると、リンク機構2
の途中部が接当してそのことを検出する上限スイッチS
W2を設けてある。これらの出力は前記制御装置18に
入力される。又、苗植付け作業中に苗植付け深さ即ち、
接地状態にある苗植付装置3の対泥面高さが機体走行に
伴って常に一定に維持されるようリフトシリンダ4を駆
動制御する自動昇降制御手段Aを備えてある。つまり、
後部横軸芯X周りで上下揺動自在に設けられる接地フロ
ート14のうち左右中央に位置する接地フロート14の
前部側の上方に、対地高さの変動に起因する上下揺動量
を検出するポテンショメータ型のフロートセンサ24を
備え、このフロートセンサ24の検出値がポテンショメ
−タ型感度調節器25による設定値と合致するよう制御
装置18によりリフトシリンダ4の電磁式油圧制御弁V
を切り換え制御するのである。Embodiments will be described below with reference to the drawings. Figure 3
Fig. 1 shows a riding-type rice transplanter, which is an example of a ground work machine.
This rice transplanter is equipped with a riding type traveling body 1 and a link mechanism 2 at the rear.
The seedling planting device 3 [an example of a ground work device] is connected via a lift cylinder 4 [an example of a drive mechanism] so that it can be freely moved up and down and can be rolled around the front-rear axis, and the machine can be run on a mud surface. It is configured to plant seedlings. An engine 5 is mounted on the front part of the traveling body 1, and the power of the engine 5 is a belt type continuously variable transmission 6,
An output synchronized with the vehicle speed is transmitted to the seedling planting device 3 via a planting clutch 11 [an example of a working clutch] that is transmitted to the front and rear wheels 8 and 9 via the mission case 7 and is turned on and off by an electric motor 10. The transmission system is configured to be transmitted. The clutch engagement / disengagement operation of the electric motor 10 is performed by a control device 18 equipped with a microcomputer based on an operation of a clutch switch 17 equipped in the control section. The seedling planting device 3 includes a seedling stand 12 that reciprocates laterally with a constant stroke in the lateral direction, a planting mechanism 13 that takes out one seedling from the lower end of the seedling stand 12 and plant it in a field, on a mud surface. A plurality of grounding floats 14 and the like that perform ground leveling while following the grounding are provided, and a swing lever-type lifting operation switch SW1 is provided below the steering handle 16, and seedlings are operated based on the operation of this switch SW1. It is configured to be switchable between a state in which the planting device 3 is forcibly raised to a predetermined raised position and a state in which it is grounded and lowered. A potentiometer-type link angle sensor 19 that detects the height of the seedling planting device 3 from the body based on the change in the relative angle of the link mechanism 2 is provided at the pivot side of the link mechanism 2, and at the rear of the wheel fender 20. , When the seedling planting device 3 is lifted to near the mechanical lift limit, the link mechanism 2
Upper limit switch S that the middle part of touches and detects that
W2 is provided. These outputs are input to the control device 18. Also, during the seedling planting work, the seedling planting depth, that is,
The automatic raising / lowering control means A is provided for driving and controlling the lift cylinder 4 so that the height of the seedling planting device 3 in the grounded state against mud surface is always kept constant as the machine travels. That is,
Above the front side of the ground float 14 located in the center of the left and right of the ground float 14 that is swingably provided around the rear horizontal axis X, a potentiometer for detecting the amount of vertical rocking due to variation in ground height. Type float sensor 24, and the control device 18 controls the electromagnetic hydraulic control valve V of the lift cylinder 4 so that the detected value of the float sensor 24 matches the set value by the potentiometer type sensitivity adjuster 25.
Is controlled by switching.
【0008】次に昇降操作スイッチSW1による昇降作
動について説明する。この昇降操作スイッチSW1によ
る昇降作動形態は2種類のモードに切り換え自在であ
り、各々の操作モードに夫々切り換え設定自在な操作モ
ード切り換え手段Bを制御装置18に制御プログラム形
式で備えてあり、制御装置18は以下のように制御を行
う。図2に示すように、先ず、機体操縦部に備えてある
モード切り換えスイッチ26の操作位置を読み込み〔ス
テップ1〕、操作位置「」に設定されていれば、フロ
ートセンサ24の検出情報から苗植付装置3が接地状態
にあると判断された状態から昇降操作スイッチSW1が
操作されると、リンク角度センサ19の検出情報を逐次
設定値と比較しながら、電磁制御弁Vを切り換えて苗取
り量の調節作業や施肥量調節等の調節作業が行い易い適
切な作業用所定レベルまで苗植付装置3を強制上昇さ
せ、その途中上昇位置で停止維持する〔ステップ2〜
5〕。この途中停止状態にあるとき、クラッチスイッチ
17が「入」位置に操作されると植付クラッチが入り作
動するよう電動モータ10を駆動制御し、「切」位置に
操作されるとクラッチ切り作動側に電動モータ10を駆
動制御する〔ステップ6〜8〕。その後、昇降操作スイ
ッチSW1が操作されると電磁制御弁Vを切り換えて苗
植付装置3が接地するまで下降させる〔ステップ9、1
0〕。モード切り換えスイッチ26が操作位置「」に
あるときは、接地状態から昇降操作スイッチSW1が操
作されると、上限スイッチSW2が検出作動するまで苗
植付装置3を上昇作動させ、その上限位置で停止維持す
る〔ステップ11〜15〕。この上限停止モードにある
ときは、クラッチスイッチ17の操作状態にかかわらず
植付クラッチ11の入り作動禁止モードに設定される
〔ステップ16〕。その後、昇降操作スイッチSW1が
操作されると接地するまで苗植付装置3を下降作動させ
る〔ステップ17、18〕。この制御モードでは、苗植
付装置3が接地下降すると植付クラッチの入り作動が可
能な状態に設定されるとともに、上述した自動昇降制御
が実行される〔ステップ19、20〕。Next, the lifting operation by the lifting operation switch SW1 will be described. The raising / lowering operation mode by the raising / lowering operation switch SW1 can be switched between two types of modes, and the control device 18 is provided with an operation mode switching means B capable of switching and setting each operation mode in a control program format. 18 controls as follows. As shown in FIG. 2, first, the operation position of the mode changeover switch 26 provided in the aircraft control section is read [step 1], and if the operation position is set to “”, seedling planting is performed from the detection information of the float sensor 24. When the raising / lowering operation switch SW1 is operated from the state in which the attachment device 3 is determined to be in the grounded state, the electromagnetic control valve V is switched to switch the electromagnetic control valve V while sequentially comparing the detection information of the link angle sensor 19 with the set value. Of the planting apparatus 3 is forcibly raised to a predetermined level for proper work in which adjustment work such as adjusting work and fertilizer application amount can be easily performed, and the seedling planting device 3 is stopped and maintained at a rising position on the way [Step 2
5]. When the clutch switch 17 is in the "on" position, the electric motor 10 is drive-controlled so that the planted clutch is turned on when the clutch switch 17 is in the "on" position. The electric motor 10 is drive-controlled [steps 6-8]. After that, when the raising / lowering operation switch SW1 is operated, the electromagnetic control valve V is switched and lowered until the seedling planting device 3 is grounded [steps 9 and 1].
0]. When the mode changeover switch 26 is in the operation position "", when the raising / lowering operation switch SW1 is operated from the grounded state, the seedling planting device 3 is moved up until the upper limit switch SW2 is detected and stopped at the upper limit position. Maintain [steps 11-15]. When in the upper limit stop mode, the on / off operation prohibition mode of the planted clutch 11 is set regardless of the operation state of the clutch switch 17 [step 16]. After that, when the raising / lowering operation switch SW1 is operated, the seedling planting device 3 is lowered until it is grounded [steps 17 and 18]. In this control mode, when the seedling planting device 3 descends to the ground, the engagement of the planting clutch is set to the operable state, and the above-described automatic lifting control is executed [steps 19 and 20].
【0009】〔別実施例〕前記制御モードの切り換え用
操作は、専用の切り換えスイッチを設ける代わりに、昇
降操作スイッチSW1の長時間の継続操作によりモード
切り換えする等、既存の操作具を利用してもよく、又、
前記途中停止レベルは人為調節具により適宜変更できる
ようにしてもよい。前記ステップ19における植付クラ
ッチ11の入り操作は、クラッチスイッチ17によるも
のに代えて、例えば線引きマーカの選択操作等や接地下
降時点から所定時間経過後に自動的にクラッチ入りさせ
る等、その他の作業用操作に連動して入り作動させるよ
うにしてもよい。[Other Embodiments] For the control mode switching operation, existing operating tools are used, such as switching the mode by continuously operating the elevating operation switch SW1 for a long time, instead of providing a dedicated switch. Well, again
The midway stop level may be appropriately changed by an artificial adjuster. The engagement operation of the planted clutch 11 in step 19 is performed in place of the operation by the clutch switch 17, for other operations such as selection operation of a wire drawing marker and automatic engagement of the clutch after a predetermined time has elapsed from the time point when the ground is lowered. You may make it enter and operate in conjunction with the operation.
【0010】尚、特許請求の範囲の項に図面との対照を
容易にするために符号を記すが、該記入により本発明は
添付図面の構成に限定されるものではない。It should be noted that reference numerals are added to the claims to facilitate the comparison with the drawings, but the present invention is not limited to the configurations of the accompanying drawings by the entry.
【図1】制御ブロック図FIG. 1 is a control block diagram.
【図2】制御フローチャート[Fig. 2] Control flowchart
【図3】田植機の側面図[Figure 3] Side view of rice transplanter
【符号の説明】 1 走行機体 3 対地作業装置 4 駆動機構 11 作業クラッチ B 操作モード切り換え手段 SW1 昇降操作スイッチ[Explanation of reference numerals] 1 traveling machine body 3 ground work device 4 drive mechanism 11 work clutch B operation mode switching means SW1 elevating operation switch
Claims (1)
により駆動昇降自在に対地作業装置(3)を連結すると
ともに、走行機体(1)からの動力を作業クラッチ(1
1)を介して入り切り操作自在に前記対地作業装置
(3)に伝えるよう構成し、前記対地作業装置(3)を
所定位置まで強制上昇させる状態と接地下降させる状態
とに切り換え自在な昇降操作スイッチ(SW1)を備え
てある対地作業機であって、 下記〔イ〕,〔ロ〕の各操作モードに夫々切り換え設定
自在な操作モード切り換え手段(B)を備えてある対地
作業機。 〔イ〕前記昇降操作スイッチ(SW1)の操作に基づい
て前記対地作業装置(3)を接地下降状態と退避用第1
上昇レベルとの間で昇降操作を行うとともに、接地下降
状態にあるとき前記作業クラッチ(11)の入り操作を
許容し且つ前記上昇レベルでは作業クラッチ入り操作を
牽制する第1操作モード。 〔ロ〕前記昇降操作スイッチ(SW1)の操作に基づい
て前記対地作業装置(3)を接地下降状態と調節作業用
第2上昇レベルとの間で昇降操作を行うとともに、前記
第2上昇レベルにあるとき前記作業クラッチ(11)の
入り操作を許容する第2操作モード。1. A drive mechanism (4) at the rear of the traveling vehicle body (1).
The ground work device (3) is connected to the work clutch (1) by the drive clutch and the power from the traveling machine body (1) is applied to the work clutch (1).
1) A lifting / lowering operation switch that is configured to be transmitted to the ground working device (3) through the open / close operation freely and can be switched between a state in which the ground working device (3) is forcibly raised to a predetermined position and a state in which the ground working device is lowered. A ground work machine equipped with (SW1), which is equipped with an operation mode switching means (B) capable of switching and setting each of the following operation modes [a] and [b]. [A] The ground work device (3) is brought into the ground descending state and the first retracting operation is performed based on the operation of the elevating operation switch (SW1).
A first operation mode in which an up / down operation is performed with respect to an ascending level, and the operation operation of the work clutch (11) is allowed when the vehicle is in the ground contact descending state, and the operation operation of the work clutch is restrained at the ascending level. [B] Based on the operation of the elevating operation switch (SW1), the ground work device (3) is moved up and down between the ground descending state and the second raising level for adjusting work, and is brought to the second raising level. A second operation mode in which the operation operation of the work clutch (11) is permitted at a certain time.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP02779293A JP3285988B2 (en) | 1993-02-17 | 1993-02-17 | Ground work machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP02779293A JP3285988B2 (en) | 1993-02-17 | 1993-02-17 | Ground work machine |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH06237614A true JPH06237614A (en) | 1994-08-30 |
| JP3285988B2 JP3285988B2 (en) | 2002-05-27 |
Family
ID=12230830
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP02779293A Expired - Fee Related JP3285988B2 (en) | 1993-02-17 | 1993-02-17 | Ground work machine |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3285988B2 (en) |
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1991014136A1 (en) * | 1990-03-14 | 1991-09-19 | Armando Gandolfi | Device for the inflow control of gas, steam or other fluids |
| JP2016019540A (en) * | 2015-09-28 | 2016-02-04 | 井関農機株式会社 | Seedling transplanter |
| WO2016039200A1 (en) * | 2014-09-08 | 2016-03-17 | 三菱農機株式会社 | Transplanting machine |
| JP2017113023A (en) * | 2017-02-24 | 2017-06-29 | 井関農機株式会社 | Seedling transplanting machine |
-
1993
- 1993-02-17 JP JP02779293A patent/JP3285988B2/en not_active Expired - Fee Related
Cited By (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| WO1991014136A1 (en) * | 1990-03-14 | 1991-09-19 | Armando Gandolfi | Device for the inflow control of gas, steam or other fluids |
| WO2016039200A1 (en) * | 2014-09-08 | 2016-03-17 | 三菱農機株式会社 | Transplanting machine |
| JP2016054666A (en) * | 2014-09-08 | 2016-04-21 | 三菱マヒンドラ農機株式会社 | Transplanting machine |
| KR20170039270A (en) * | 2014-09-08 | 2017-04-10 | 미쓰비시 마힌드라 노키 가부시키가이샤 | Transplanting machine |
| CN106686970A (en) * | 2014-09-08 | 2017-05-17 | 三菱马恒达农机有限公司 | Transplanting machine |
| JP2016019540A (en) * | 2015-09-28 | 2016-02-04 | 井関農機株式会社 | Seedling transplanter |
| JP2017113023A (en) * | 2017-02-24 | 2017-06-29 | 井関農機株式会社 | Seedling transplanting machine |
Also Published As
| Publication number | Publication date |
|---|---|
| JP3285988B2 (en) | 2002-05-27 |
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| Date | Code | Title | Description |
|---|---|---|---|
| LAPS | Cancellation because of no payment of annual fees |