JP3198410B2 - Moving agricultural machine - Google Patents
Moving agricultural machineInfo
- Publication number
- JP3198410B2 JP3198410B2 JP16712199A JP16712199A JP3198410B2 JP 3198410 B2 JP3198410 B2 JP 3198410B2 JP 16712199 A JP16712199 A JP 16712199A JP 16712199 A JP16712199 A JP 16712199A JP 3198410 B2 JP3198410 B2 JP 3198410B2
- Authority
- JP
- Japan
- Prior art keywords
- steering
- speed
- traveling
- turning
- output
- 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.)
- Expired - Lifetime
Links
- 230000007246 mechanism Effects 0.000 claims description 70
- 230000008859 change Effects 0.000 claims description 60
- 230000005540 biological transmission Effects 0.000 claims description 43
- 230000007935 neutral effect Effects 0.000 claims description 17
- 238000009313 farming Methods 0.000 claims description 3
- 230000002441 reversible effect Effects 0.000 description 22
- 238000005520 cutting process Methods 0.000 description 8
- 238000010586 diagram Methods 0.000 description 7
- 235000013339 cereals Nutrition 0.000 description 6
- 238000001514 detection method Methods 0.000 description 6
- 238000000034 method Methods 0.000 description 5
- 230000009467 reduction Effects 0.000 description 5
- 238000003306 harvesting Methods 0.000 description 3
- 230000008569 process Effects 0.000 description 3
- 239000010902 straw Substances 0.000 description 2
- 240000007594 Oryza sativa Species 0.000 description 1
- 235000007164 Oryza sativa Nutrition 0.000 description 1
- 230000001133 acceleration Effects 0.000 description 1
- 239000000969 carrier Substances 0.000 description 1
- 238000006243 chemical reaction Methods 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000004044 response Effects 0.000 description 1
- 235000009566 rice Nutrition 0.000 description 1
- 238000009987 spinning Methods 0.000 description 1
- 230000007723 transport mechanism Effects 0.000 description 1
Landscapes
- Guiding Agricultural Machines (AREA)
- Harvester Elements (AREA)
- Non-Deflectable Wheels, Steering Of Trailers, Or Other Steering (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明は例えば圃場の穀稈を
連続的に刈取って脱穀するコンバインなどの移動農機に
関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile agricultural machine such as a combine for continuously cutting and threshing grain culm in a field.
【0002】[0002]
【発明が解決しようとする課題】従来、左右走行クロー
ラを装設したコンバインを圃場の未刈り穀稈列に沿わせ
て走行移動させ乍ら収穫作業を行うと共に、圃場枕地で
前記コンバインを方向転換させて次工程の未刈り穀稈列
に移動させていたが、エンジン出力を変速伝達するミッ
ションケースの左右走行出力を左右サイドクラッチを介
して左右走行クローラに伝達させ、左右サイドクラッチ
の継断操作により左右走行クローラの一方を一時的に停
止させて旋回させることにより、左右サイドクラッチ操
作と走行変速操作の両方を作業者が略同時期に行う必要
があり、また圃場枕地で方向転換するときの旋回半径が
大きくなる不具合がある。Conventionally, harvesting is performed while a combine equipped with left and right traveling crawlers is moved along an uncut culm row in a field, and the combine is directed in a field headland. It was shifted and moved to the unprocessed grain culm row of the next process, but the right and left traveling output of the transmission case that transmits the engine output at a variable speed is transmitted to the left and right traveling crawler via the left and right side clutch, and the left and right side clutch is disconnected By temporarily stopping and turning one of the left and right traveling crawlers by the operation, the operator needs to perform both the left and right side clutch operation and the traveling speed change operation substantially at the same time, and also changes the direction at the headland on the field There is a problem that the turning radius at the time becomes large.
【0003】そこで、エンジンの動力を各別に伝える左
右油圧無段変速機を設けて左右走行クローラを駆動する
ことにより、旋回時の減速並びに旋回半径の縮少などを
容易に行えるが、直進性能が低下し易く、未刈り穀稈列
に沿わせて走行移動させる操向操作が面倒になる不具合
がある。例えば、特開平4−260872号公報に示す
如く、操向ハンドルによって左右変速機構を制御し、左
右走行クローラの駆動速度を変更し、左右に旋回させる
技術があるが、旋回外側走行クローラの速度を直進速度
に維持し乍ら、旋回内側走行クローラを減速させるか
ら、操向ハンドルの直進位置を基準にした微少操向操作
範囲でも走行速度が減速される不具合がある。特に、油
圧ポンプ及びモータを用いた変速機構は、最大出力で直
進させる場合、旋回時に旋回外側走行クローラの走行負
荷が大きくなるのに対処してエンジン回転を上げて変速
機構の出力を大きくすることにより、油圧ポンプ及びモ
ータの油圧伝動効率が過負荷によって著しく低下する不
具合があるから、走行負荷が大きい湿田作業などを想定
して大出力の変速機構を装備し、常時は変速機構の出力
に余裕をもたせる無駄な運転制御を行う必要がある。即
ち、ゴムクローラローダーのような土木機械では、走行
時にエンジン出力の大部分を走行駆動力として有効に利
用できるから、大出力の変速機構を設けるのに適してい
るが、コンバインのような農機は、刈取部及び脱穀部な
どの作業機を駆動させ乍ら走行するので、エンジンも大
出力のものを装備する必要があり、脱穀部など農作業能
力に比べてエンジン及び走行駆動部だけが大型大出力に
なる等の問題がある。Therefore, by providing left and right hydraulic continuously variable transmissions for separately transmitting the power of the engine and driving the left and right traveling crawlers, deceleration during turning and reduction of turning radius can be easily performed, but straight running performance is reduced. There is a problem that the steering operation for moving along the uncut culm row is troublesome. For example, as disclosed in Japanese Patent Application Laid-Open No. 4-260872, there is a technique in which a left and right speed change mechanism is controlled by a steering handle to change the drive speed of the left and right traveling crawlers and turn left and right. Since the traveling crawler on the inside of the turn is decelerated while maintaining the straight traveling speed, there is a problem that the traveling speed is reduced even in a minute steering operation range based on the straight traveling position of the steering wheel. In particular, when a transmission mechanism using a hydraulic pump and a motor is driven to travel straight at the maximum output, the output of the transmission mechanism should be increased by increasing the engine rotation in response to the increase in the traveling load of the traveling crawler on the outside during turning. There is a problem that the hydraulic transmission efficiency of the hydraulic pump and motor is significantly reduced due to overload, so a high-output transmission mechanism is provided for wetland work with a large running load, and the output of the transmission mechanism always has a margin. It is necessary to perform useless operation control that gives That is, in civil engineering machines such as rubber crawler loaders, most of the engine output can be used effectively as running driving force during running, and thus it is suitable for providing a high-output transmission mechanism. Since the vehicle travels while driving work machines such as the mowing unit and threshing unit, it is necessary to equip the engine with a large output, and only the engine and the traveling drive unit have a large and large output compared to the agricultural work capacity such as the threshing unit. Problem.
【0004】また、左右走行クローラにエンジン動力を
変速伝達する単一の油圧無段変速機構と、旋回内側の走
行クローラを減速しかつ旋回外側の走行クローラを増速
させる油圧無段操向機構を設けることにより、直進性能
を良好に維持して操向操作性を向上させ、かつ旋回半径
も容易に縮少できるが、直進時と旋回時とで走行速度が
略一定に保たれ、旋回半径が小さいスピンターン動作な
どを行うときに走行変速により減速操作を行う必要があ
り、圃場枕地で方向転換するときに旋回操作と走行変速
操作の両方を行う必要がある。例えば、実開平4−10
77号公報に示す如く、左右走行クローラ速度を同時に
増減速させる変速レバー及び変速機構と、前記変速機構
の駆動出力を左右走行クローラに伝える差動機構と、前
記差動機構を制御して左右走行クローラの駆動速度に差
を生じさせる操向ハンドル及び操向機構を設ける技術が
あるが、操向ハンドルの操作によって差動機構が制御さ
れるだけでは、旋回外側走行クローラが直進速度に比べ
て著しく高速で駆動され、走行負荷の急激な増加または
走行クローラのスリップにより空転などによって進路が
極めて不安定になり易い等の問題がある。Further, a single hydraulic continuously variable transmission mechanism for transmitting the engine power to the left and right traveling crawlers and a hydraulic continuously variable steering mechanism for decelerating the traveling crawlers inside the turning and increasing the speed of the traveling crawlers outside the turning are provided. By providing it, the straight running performance is maintained well, the steering operability is improved, and the turning radius can be easily reduced, but the running speed is kept substantially constant between straight running and turning, and the turning radius is reduced. When performing a small spin turn operation or the like, it is necessary to perform a deceleration operation by traveling speed change, and when turning in a field headland, it is necessary to perform both a turning operation and a traveling speed change operation. For example, 4-10
No. 77, a speed change lever and a speed change mechanism for simultaneously increasing and decreasing the speed of the left and right running crawlers, a differential mechanism for transmitting the drive output of the speed change mechanism to the left and right running crawlers, and a left and right running by controlling the differential mechanism Although there is a technique of providing a steering handle and a steering mechanism that causes a difference in the driving speed of the crawler, if the differential mechanism is controlled only by operating the steering handle, the traveling crawler on the outer side of the turn is remarkably compared with the straight traveling speed. It is driven at a high speed, and there is a problem that the course becomes extremely unstable due to idling or the like due to a sudden increase in the running load or slip of the running crawler.
【0005】さらに、前記操向機構を伝動させる旋回操
作と連動させて走行速度を自動的に減速させ、かつ直進
走行に戻す操作と連動させて元の走行速度に自動的に増
速させることにより、旋回操作だけでスピンターン動作
などを適正走行速度に減速させて行え、面倒な走行変速
操作を省けるが、収穫作業中に未刈り穀稈列に沿わせる
条合せ(進路修正)のための操向操作を行っても、走行
速度が減速されたり増速されて収穫作業途中に走行速度
が不均一に変化し、作業者の運転感覚とコンバインの走
行動作との間にずれが生じて適正な操向操作を容易に行
い得ない等の問題がある。Further, the traveling speed is automatically reduced in conjunction with the turning operation for transmitting the steering mechanism, and automatically increased to the original traveling speed in conjunction with the operation for returning to straight traveling. The spinning operation can be performed at a proper traveling speed only by turning the vehicle, reducing the troublesome traveling speed change operation. Even if the directional operation is performed, the traveling speed is reduced or increased, and the traveling speed varies unevenly during the harvesting operation. There is a problem that the steering operation cannot be easily performed.
【0006】[0006]
【課題を解決するための手段】然るに、本発明は、変速
レバーの走行変速操作によりエンジンから伝える左右走
行クローラの駆動速度を同一方向に同時に無段階変更さ
せる走行変速機構と、操向ハンドルの操向操作によりエ
ンジンから伝える左右走行クローラの駆動速度を反対方
向に同時に無段階変更させる差動機構を駆動する旋回用
油圧ポンプ及び油圧モータを設ける移動農機において、
変速レバーの操作量に比例して旋回用油圧ポンプ及び油
圧モータの出力を変更させる変速及び旋回連動機構を設
け、操向ハンドルを直進以外に操作した状態下での変速
レバーの走行変速操作によって前記旋回用油圧ポンプ及
び油圧モータの出力を変更させると共に、操向ハンドル
の操作量に比例して変速及び旋回連動機構を介して走行
変速機構の出力を変更させ、また変速レバーを中立以外
に操作した状態下での操向ハンドルの操向操作によって
走行変速機構の出力を変更させ、かつ変速レバーが走行
変速中立位置のときに旋回用油圧ポンプ及び油圧モータ
の出力を常に直進に保つもので、走行負荷が大きくなる
方向転換に必要な走行部駆動力を容易に確保し得るもの
である。SUMMARY OF THE INVENTION Accordingly, the present invention provides a
The drive speed of the left and right traveling crawlers transmitted from the engine by the lever traveling speed change operation is steplessly changed simultaneously in the same direction.
A travel gear mechanism that allowed, et a steering operation of the steering wheel
Opposite the driving speed of the left and right traveling crawler transmitted from the engine
For pivoting to drive the differential mechanism for steplessly changed simultaneously countercurrent
In a mobile farm equipped with a hydraulic pump and a hydraulic motor ,
Hydraulic pump for turning and oil in proportion to the operation amount of the shift lever
Setting the shift and swivel interlocking mechanism for changing the output of the pressure motor
Gear shifting when the steering handle is operated other than straight ahead
The turning hydraulic pump and the turning hydraulic pump
And the output of the hydraulic motor, and the steering handle
Traveling via gear shifting and turning interlocking mechanisms in proportion to the operation amount of
Change the output of the transmission mechanism and set the gearshift lever to a position other than neutral.
The steering wheel is operated under the condition
The output of the traveling speed change mechanism is changed, and the shift lever is driven.
Hydraulic pump and hydraulic motor for turning when gear is in neutral position
Is always kept straight, and it is possible to easily secure the driving force of the traveling section necessary for changing the direction in which the traveling load increases.
【0007】[0007]
【発明の実施の形態】以下、本発明の実施例を図面に基
づいて詳述する。図1は主変速レバー及び操向ハンドル
の操作系の斜視説明図、図2はコンバインの全体側面
図、図3は同平面図であり、図中(1)は走行クローラ
(2)を装設するトラックフレーム、(3)は前記トラ
ックフレーム(1)に架設する機台、(4)はフィード
チェン(5)を左側に張架し扱胴(6)及び処理胴
(7)を内蔵している脱穀機である脱穀部、(8)は刈
刃(9)及び穀稈搬送機構(10)などを備える刈取
部、(11)は刈取フレーム(12)を介して刈取部
(8)を昇降させる油圧シリンダ、(13)は排藁チェ
ン(14)終端を臨ませる排藁処理部、(15)は脱穀
部(4)からの穀粒を揚穀筒(16)を介して搬入する
穀物タンク、(17)は前記タンク(15)の穀粒を機
外に搬出する排出オーガ、(18)は丸形操向ハンドル
(19)及び運転席(20)などを備える運転キャビ
ン、(21)は運転キャビン(18)下方に設けるエン
ジンであり、連続的に穀稈を刈取って脱穀するように構
成している。Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 is a perspective explanatory view of an operation system of a main shift lever and a steering handle, FIG. 2 is an overall side view of the combine, and FIG. 3 is a plan view of the combine, wherein (1) shows a traveling crawler (2). (3) is a machine frame installed on the track frame (1), (4) is a feed chain (5) stretched to the left side, and has a built-in handling cylinder (6) and a processing cylinder (7). A threshing unit, which is a threshing machine, (8) is a cutting unit provided with a cutting blade (9) and a grain culm transport mechanism (10), and (11) is moved up and down the cutting unit (8) via a cutting frame (12). A hydraulic cylinder, (13) a straw processing unit that faces the end of a straw chain (14), (15) a grain tank that carries in the grains from the threshing unit (4) via a fryer cylinder (16). , (17) is a discharge auger for carrying out the grains of the tank (15) outside the machine, and (18) is a round steering. Bundle (19) and the driver's seat (20) operating cabin comprising etc., constitute (21) as is an engine provided with the operating cabin (18) downward, threshing continuously harvests culms.
【0008】図4に示す如く、前記走行クローラ(2)
を駆動するミッションケース(22)は、1対の第1油
圧ポンプ(23)及び第1油圧モータ(24)からなる
主変速機構である走行用の油圧式無段変速機構(25)
と、1対の第2油圧ポンプ(26)及び第2油圧モータ
(27)からなる操向機構である旋回用の油圧式無段変
速機構(28)とを備え、前記エンジン(21)の出力
軸(21a)に第1及び第2油圧ポンプ(23)(2
6)の入力軸(29)を伝達ベルト(30)を介し連動
連結させて、これら油圧ポンプ(23)(26)の駆動
を行うように構成している。As shown in FIG. 4, the traveling crawler (2)
The transmission case (22) for driving the vehicle is a traveling hydraulic continuously variable transmission mechanism (25) which is a main transmission mechanism including a pair of a first hydraulic pump (23) and a first hydraulic motor (24).
And a turning hydraulic continuously variable transmission mechanism (28), which is a steering mechanism including a pair of second hydraulic pumps (26) and a second hydraulic motor (27), and an output of the engine (21). The first and second hydraulic pumps (23) (2) are mounted on the shaft (21a).
The input shaft (29) of 6) is interlockingly connected via a transmission belt (30) to drive these hydraulic pumps (23) and (26).
【0009】そして前記第1油圧モータ(24)の出力
軸(31)に、副変速機構(32)及び差動機構(3
3)を介し走行クローラ(2)の駆動輪(34)を連動
連結させるもので、前記差動機構(33)は左右対称の
1対の遊星ギヤ機構(35)(35)を有し、各遊星ギ
ヤ機構(35)は1つのサンギヤ(36)と、該サンギ
ヤ(36)の外周で噛合う3つのプラネタリギヤ(3
7)と、これらプラネタリギヤ(37)に噛合うリング
ギヤ(38)などで形成している。An auxiliary transmission mechanism (32) and a differential mechanism (3) are connected to an output shaft (31) of the first hydraulic motor (24).
3) The driving wheels (34) of the traveling crawler (2) are interlocked via 3). The differential mechanism (33) has a pair of symmetrical planetary gear mechanisms (35) and (35). The planetary gear mechanism (35) includes one sun gear (36) and three planetary gears (3) meshing on the outer periphery of the sun gear (36).
7) and a ring gear (38) meshing with these planetary gears (37).
【0010】前記プラネタリギヤ(37)はサンギヤ軸
(39)と同軸線上とのキャリヤ軸(40)のキャリヤ
(41)にそれぞれ回転自在に軸支させ、左右のサンギ
ヤ(36)(36)を挾んで左右のキャリヤ(41)を
対向配置させると共に、前記リングギヤ(38)は各プ
ラネタリギヤ(37)に噛み合う内歯(38a)を有し
てサンギヤ軸(39)とは同一軸芯上に配置させ、キャ
リヤ軸(40)に回転自在に軸支させている。The planetary gear (37) is rotatably supported on a carrier (41) of a carrier shaft (40) on a coaxial line with a sun gear shaft (39), and sandwiches left and right sun gears (36) and (36). The left and right carriers (41) are arranged to face each other, and the ring gear (38) has internal teeth (38a) meshing with each planetary gear (37) and is arranged on the same axis as the sun gear shaft (39). The shaft (40) is rotatably supported on the shaft (40).
【0011】また、走行用の油圧式無段変速機構(2
5)は第1油圧ポンプ(23)の回転斜板の角度変更調
節により第1油圧モータ(24)の正逆回転と回転数の
制御を行うもので、第1油圧モータ(24)の回転出力
を出力軸(31)の伝達ギヤ(42)より各ギヤ(4
3)(44)(45)及び副変速機構(32)を介し
て、サンギヤ軸(39)に固定したセンタギヤ(46)
に伝達してサンギヤ(36)を回転するように構成して
いる。前記副変速機構(32)は、前記ギヤ(45)を
有する副変速軸(47)と、前記センタギヤ(46)に
噛合うギヤ(48)を有する駐車ブレーキ軸(49)と
を備え、副変速軸(47)とブレーキ軸(49)間に各
1対の低速用ギヤ(50)(48)・中速用ギヤ(5
1)(52)・高速用ギヤ(53)(54)を設けて、
中央位置のギヤ(51)のスライド操作によってこれら
低速・中速・高速の切換えを可能とさせるように構成し
ている(なお低速・中速間及び中速・高速間には中立を
有するものである)。また前記ブレーキ軸(49)には
車速検出ギヤ(55)を設けると共に、該ギヤ(55)
の回転数より車速を検出する車速センサ(56)を設け
ている。なお、刈取部(8)に回転力を伝達する刈取P
TO軸(57)のPTO入力ギヤ(58)に、前記出力
軸(31)の伝達ギヤ(42)を噛合連結させている。A traveling hydraulic continuously variable transmission mechanism (2)
5) Controlling the forward / reverse rotation and rotation speed of the first hydraulic motor (24) by adjusting the angle change of the rotary swash plate of the first hydraulic pump (23), and the rotation output of the first hydraulic motor (24). From the transmission gear (42) of the output shaft (31) to each gear (4
3) A center gear (46) fixed to the sun gear shaft (39) via (44) (45) and the auxiliary transmission mechanism (32).
To rotate the sun gear (36). The auxiliary transmission mechanism (32) includes an auxiliary transmission shaft (47) having the gear (45) and a parking brake shaft (49) having a gear (48) meshing with the center gear (46). A pair of low-speed gears (50) and (48) and a medium-speed gear (5) between the shaft (47) and the brake shaft (49).
1) (52) ・ Providing high-speed gears (53) and (54)
The low speed, the medium speed, and the high speed can be switched by sliding the gear (51) at the center position (there is a neutral state between the low speed and the medium speed and between the medium speed and the high speed. is there). The brake shaft (49) is provided with a vehicle speed detection gear (55), and the gear (55)
A vehicle speed sensor (56) for detecting the vehicle speed from the number of revolutions is provided. It should be noted that the cutting P transmitting the rotational force to the cutting unit (8).
The transmission gear (42) of the output shaft (31) is meshed with the PTO input gear (58) of the TO shaft (57).
【0012】そして、前記センタギヤ(46)を介しサ
ンギヤ軸(39)に伝達された第1油圧モータ(24)
からの駆動力を、左右の遊星ギヤ機構(35)を介しキ
ャリヤ軸(40)に伝達させると共に、該キャリヤ軸
(40)に伝達された回転を左右各一対の減速ギヤ(6
0)(61)を介し左右の駆動輪(34)の左右輪軸
(34a)にそれぞれ伝えるように構成している。The first hydraulic motor (24) transmitted to the sun gear shaft (39) via the center gear (46).
Is transmitted to the carrier shaft (40) through the left and right planetary gear mechanisms (35), and the rotation transmitted to the carrier shaft (40) is transmitted to the pair of left and right reduction gears (6).
0) and (61) to the left and right wheel shafts (34a) of the left and right drive wheels (34), respectively.
【0013】さらに、旋回用の油圧式無段変速機構(2
8)は第2油圧ポンプ(26)の回転斜板の角度変更調
節により第2油圧モータ(27)の正逆回転と回転数の
制御を行うもので、第2油圧モータ(27)の出力軸
(62)の出力ギヤからギヤ伝達機構(63)を介し旋
回入力軸(64)の入力ギヤ(65a)(65b)に回
転出力を伝達し、右側のリングギヤ(38)の外歯(3
8b)を対しては直接的に、また左側のリングギヤ(3
8)の外歯(38b)に対しては逆転軸(66)の逆転
ギヤ(67)を介し伝えて、第2油圧モータ(27)の
正転時に左右のリングギヤ(38)を左右同一回転数で
左ギヤ(38)を正転、右ギヤ(38)を逆転とさせる
ように構成している。Furthermore, a hydraulic stepless speed change mechanism for turning (2)
8) The forward / reverse rotation of the second hydraulic motor (27) and the control of the rotation speed are performed by adjusting the angle change of the rotary swash plate of the second hydraulic pump (26), and the output shaft of the second hydraulic motor (27) is controlled. The rotational output is transmitted from the output gear of (62) to the input gears (65a) and (65b) of the turning input shaft (64) via the gear transmission mechanism (63), and the external teeth (3) of the right ring gear (38) are transmitted.
8b) directly and on the left ring gear (3
The external gear (38b) of (8) is transmitted through the reverse gear (67) of the reverse rotation shaft (66) so that the left and right ring gears (38) rotate at the same rotational speed when the second hydraulic motor (27) rotates forward. , The left gear (38) is rotated forward and the right gear (38) is rotated reversely.
【0014】而して旋回用の第2油圧モータ(27)の
駆動を停止させ左右リングギヤ(38)を静止固定させ
た状態で、走行用の第1油圧モータ(24)の駆動を行
うと、第1油圧モータ(24)からの回転出力はセンタ
ギヤ(46)から左右のサンギヤ(36)に同一回転数
で伝達され、左右遊星ギヤ機構(35)のプラネタリギ
ヤ(37)・キャリヤ(41)及び減速ギヤ(60)
(61)を介し左右の輪軸(34a)に左右同回転方向
の同一回転数で伝達されて、機体の前後直進走行が行わ
れる。一方、走行用の第1油圧モータ(24)の駆動を
停止させ左右のサンギヤ(36)を静止固定させた状態
で、旋回用の第2油圧モータ(27)を正逆回転駆動す
ると、左側の遊星ギヤ機構(35)が正或いは逆回転、
また右側の遊星ギヤ機構(35)が逆或いは正回転し
て、左右走行クローラ(2)の駆動方向を前後逆方向と
させて機体を左或いは右にその場でスピンターンさせる
ものである。When the driving of the second hydraulic motor (27) is stopped and the left and right ring gears (38) are stationary and driven, the driving first hydraulic motor (24) is driven. The rotation output from the first hydraulic motor (24) is transmitted from the center gear (46) to the left and right sun gears (36) at the same speed, and the planetary gears (37) and the carrier (41) of the left and right planetary gear mechanisms (35) and the reduction gear. Gear (60)
(61) is transmitted to the left and right wheel sets (34a) at the same rotational speed in the same rotational direction in the left and right directions, so that the aircraft travels straight forward and backward. On the other hand, when the driving of the first hydraulic motor (24) for driving is stopped and the left and right sun gears (36) are stationary and fixed, the second hydraulic motor for turning (27) is driven forward and reverse to rotate the left and right sun gears (36). The planetary gear mechanism (35) rotates forward or backward,
In addition, the right planetary gear mechanism (35) rotates reversely or forwardly to make the driving direction of the left and right traveling crawlers (2) forward and backward, thereby causing the body to spin turn right or left on the spot.
【0015】また走行用の第1油圧モータ(24)を駆
動させながら、旋回用の第2油圧モータ(27)を駆動
して機体を左右に旋回させる場合には旋回半径の大きい
旋回を可能にできるもので、その旋回半径は左右走行ク
ローラ(2)の速度に応じ決定される。When the first hydraulic motor (24) for driving is driven and the second hydraulic motor (27) for turning is driven to turn the body left and right, turning with a large turning radius is enabled. The turning radius is determined according to the speed of the left and right traveling crawlers (2).
【0016】図5乃至図13に示す如く、前記走行用の
油圧式無段変速機構(25)に連結する主変速レバー
(68)と、旋回用の油圧式無段変速機構(28)に連
結する操向ハンドル(19)とを、変速及び旋回連動機
構(69)に連動連結させると共に、該連動機構(6
9)を走行変速及び操向リンク系であるリンク機構(7
0)(71)を介し走行及び操向用の無段変速機構(2
5)(28)のコントロールレバー(72)(73)に
連動連結させている。As shown in FIGS. 5 to 13, the main transmission lever (68) connected to the traveling hydraulic stepless transmission mechanism (25) and the turning hydraulic stepless transmission mechanism (28) are connected. And a steering handle (19) to be linked to the speed change and turning interlocking mechanism (69).
9) is a link mechanism (7) which is a traveling speed change and steering link system.
0) and a continuously variable transmission mechanism (2) for traveling and steering via (71).
5) It is linked to the control levers (72) and (73) of (28).
【0017】前記連動機構(69)は、主変速レバー
(68)の基端折曲部(68a)を筒軸(74)に左右
揺動自在に支持する回動板(75)と、機体側の本機フ
レーム(76)に固設して前記回動板(75)を左右方
向の第1枢軸(77)を介し前後回動自在に支持する固
定取付板(78)と、前記枢軸(77)とは直交する前
後方向の第2枢軸(79)を介して回動板(75)に連
結させて該軸(79)回りに回動自在に設ける変速操作
部材(80)と、前記第2枢軸(79)の軸回りに回動
自在に連結させる操向操作部材(81)とを備え、変速
及び操向操作部材(80)(81)の第2枢軸(79)
とは偏心位置の各操作出力部(80a)(81a)を変
速及び操向リンク機構(70)(71)に連動連結させ
ている。The interlocking mechanism (69) includes a rotating plate (75) for supporting the base bent portion (68a) of the main transmission lever (68) on the cylinder shaft (74) so as to be able to swing left and right, and a body side. A fixed mounting plate (78) fixedly mounted on the frame (76) of the main body and supporting the rotating plate (75) rotatably back and forth via a first pivot (77) in the left-right direction; and the pivot (77). A) a speed change operation member (80) that is connected to a rotation plate (75) via a second pivot (79) in the front-rear direction orthogonal to the second direction and is provided rotatably around the shaft (79); A steering operation member (81) rotatably connected around an axis of the pivot (79), and a second pivot (79) of the speed change and steering operation members (80) (81).
Means that the operation output sections (80a) (81a) at the eccentric position are linked to the speed change and steering link mechanisms (70) (71).
【0018】前記変速及び操向リンク機構(70)(7
1)は、連動機構(69)後方位置で本機フレーム(7
6)側に揺動軸(82)外側の揺動筒軸(83)を介し
支持する変速アーム(84)と、前記揺動軸(82)に
基端を固設する旋回出力逆転手段である操向アーム(8
5)と、前記出力部(80a)(81a)の各操作出力
軸(86)(87)と各アーム(84)(85)間を連
結する自在継手軸(88)(89)と、前記揺動軸(8
2)の右端に固設する操向出力アーム(91)と、前記
運転キャビン(18)の回動支点軸(92)の支点軸受
(93)に取付ける中間軸(94)に回転自在に設ける
変速及び操向用第1揺動アーム(95)(96)と、前
記アーム(84)(91)と第1揺動アーム(95)
(96)の各先端間をそれぞれ連結する変速及び操向用
自在継手形第1ロッド(97)(98)と、前記中間軸
(94)に設けて第1揺動アーム(95)(96)に一
体連結する変速及び操向用第2揺動アーム(99)(1
00)と、前記ミッションケース(22)上部の軸受板
(101)に取付ける支軸(102)に回動自在に支持
させる変速及び操向用筒軸(103)(104)と、該
筒軸(103)(104)に基端を固設する第1揺動ア
ーム(105)(106)と前記第2揺動アーム(9
9)(100)の各先端間を連結する変速及び操向用自
在継手形第2ロッド(107)(108)と、前記筒軸
(103)(104)に基端を固設する第2揺動アーム
(109)(110)と前記コントロールレバー(7
2)(73)の各先端間を連結させる変速及び操向用自
在継手形第3ロッド(111)(112)とを備え、前
記第1枢軸(77)を中心とした変速操作部材(80)
の回動によって走行用のコントロールレバー(72)
を、また走行中の第2枢軸(79)を中心とした操向操
作部材(81)の回動によって操向用のコントロールレ
バー(73)を操作して変速及び操向制御を行うように
構成している。The speed change and steering link mechanism (70) (7)
1) is the frame (7) at the rear of the interlocking mechanism (69).
6) a speed change arm (84) which is supported on the side via a swing cylinder shaft (83) outside the swing shaft (82), and turning output reversing means for fixing a base end to the swing shaft (82). Steering arm (8
5) a universal joint shaft (88) (89) connecting between each operation output shaft (86) (87) of the output section (80a) (81a) and each arm (84) (85); Dynamic axis (8
2) a gear output rotatably provided on a steering output arm (91) fixed to the right end and an intermediate shaft (94) attached to a fulcrum bearing (93) of a pivot (92) of the driving cabin (18). And a first swing arm (95) (96) for steering, the arms (84) (91), and a first swing arm (95).
(96) A universal joint type first rod (97) (98) for speed change and steering which connects the respective ends of each other, and a first swing arm (95) (96) provided on the intermediate shaft (94). Speed change and steering second swing arm (99) (1
00), a shift and steering cylinder shaft (103) (104) rotatably supported by a support shaft (102) mounted on a bearing plate (101) above the transmission case (22); 103) (104), a first swing arm (105) (106) having a base end fixed thereto, and the second swing arm (9).
9) A speed change and steering universal joint type second rod (107) (108) connecting between the respective distal ends of (100), and a second rocker having a base end fixed to the cylindrical shaft (103) (104). Moving arm (109) (110) and the control lever (7
2) a speed change operation member (80) including a speed change and steering universal joint type third rod (111) (112) for connecting the respective ends of (73) to each other, and centering on the first pivot (77).
Control lever (72) for running by rotation of
The steering control member (81) is operated by rotating the steering operation member (81) about the second pivot (79) during traveling to perform gear shifting and steering control. are doing.
【0019】一方前記操向ハンドル(19)下端のハン
ドル操作軸(113)にギヤ(114)を設けて、この
後方の回転軸(115)に取付けるセクタギヤ(11
6)に前記ギヤ(114)を噛合せると共に、前記主変
速レバー(68)位置下方に配設する操向軸(117)
の第1揺動アーム(118)と、前記回転軸(115)
に基端を固設する出力アーム(119)との各先端間を
操向リンク機構である自在継手形操向第1ロッド(12
0)を介して連結させ、操向軸(117)の第1揺動ア
ーム(118)と一体の第2揺動アーム(121)を、
前記自在継手軸(89)の前端に自在継手形操向第2ロ
ッド(122)を介して連結させ、前記ハンドル(1
9)の回動操作によって前記第2枢軸(79)を中心と
して操向操作部材(81)を回動するように構成してい
る。On the other hand, a gear (114) is provided on a handle operation shaft (113) at the lower end of the steering handle (19), and a sector gear (11) attached to the rear rotation shaft (115).
6) meshing the gear (114) with the steering shaft (117) disposed below the position of the main shift lever (68).
The first swing arm (118) and the rotating shaft (115)
A universal joint type steering first rod (12) serving as a steering link mechanism is provided between each of the distal ends of the output arm (119) and the output arm (119) having the base end fixed thereto.
0), and a second swing arm (121) integrated with the first swing arm (118) of the steering shaft (117),
The universal joint shaft (89) is connected to the front end of the universal joint type steering second rod (122) via the handle (1).
The steering operation member (81) is configured to rotate around the second pivot (79) by the rotation operation of (9).
【0020】また、前記ハンドル操作軸(113)のギ
ヤ(114)下方に中立位置決め板(123)を設けて
いて、該位置決め板(123)下面の突出軸(124)
に操向検出リンク(125)の一端を連結させ、前記回
転軸(115)の右側に配設する減速アーム軸(12
6)に第1揺動アーム(127)を設け、この第1揺動
アーム(127)の軸(128)と前記検出リンク(1
25)他端の長孔(125a)とを摺動自在に連結させ
ると共に、前記操向軸(117)の減速アーム(12
9)と減速アーム軸(126)の第2揺動アーム(13
0)との各先端間を減速リンク機構である自在継手形第
1減速ロッド(131)で連結させ、前記変速操作部材
(80)の最右端の減速伝達軸(132)と第2揺動ア
ーム(130)の他端間を自在継手形第2減速ロッド
(133)で連結させて、走行状態で前記ハンドル(1
9)の操向量を大とする程第2減速ロッド(133)を
下方に引張って走行速度を減速させるように構成してい
る。また、前記回動板(75)と変速操作部材(80)
の間にバネ(S1)を張設させ、操向ハンドル(19)
を直進位置に戻して検出リンク(125)を元に戻した
とき、該バネ(S1)によって前記部材(80)を戻
し、前記回動板(75)の位置調節自在なストッパボル
ト(V1)を前記部材(80)に当接させ、操向ハンド
ル(19)直進復帰操作によって走行速度を元に戻すよ
うに構成している。A neutral positioning plate (123) is provided below the gear (114) of the handle operation shaft (113), and a projection shaft (124) on the lower surface of the positioning plate (123).
To one end of a steering detection link (125), and a reduction arm shaft (12) disposed on the right side of the rotation shaft (115).
6) is provided with a first swing arm (127), and the shaft (128) of the first swing arm (127) is connected to the detection link (1).
25) The other end of the long hole (125a) is slidably connected to the other end of the deceleration arm (12) of the steering shaft (117).
9) and the second swing arm (13) of the reduction arm shaft (126).
0) is connected by a universal joint type first deceleration rod (131) which is a deceleration link mechanism, and the rightmost end deceleration transmission shaft (132) of the speed change operation member (80) and the second swing arm. The other end of (130) is connected by a universal joint type second deceleration rod (133), and the running handle (1
As the steering amount in 9) is increased, the second deceleration rod (133) is pulled downward to reduce the traveling speed. Further, the rotating plate (75) and the speed change operating member (80)
A spring (S1) is stretched between the steering handle (19).
When the detection link (125) is returned to its original position by returning to the rectilinear position, the member (80) is returned by the spring (S1), and the stopper bolt (V1) for adjusting the position of the rotating plate (75) is adjusted. The traveling speed is returned to the original state by the steering handle (19) being brought back into contact with the member (80) and being returned straight.
【0021】而して、前記変速及び操向操作部材(8
0)(81)を軸回りに回動可能とさせる第2枢軸(7
9)と、操向アーム(85)と継手軸(89)との自在
継手部(89a)とを前後方向の水平ライン(L1)上
に略一致させ、また前記操作出力軸(86)(87)と
自在継手軸(88)(89)との自在継手部(88b)
(89b)と、第1枢軸(77)とを前記ライン(L
1)に直交させる左右水平ライン(L2)上に位置さ
せ、さらに前記変速アーム(84)と継手軸(88)と
の自在継手部(88a)と前記継手部(89a)とを前
記ライン(L2)と平行な左右水平ライン(L3)上に
位置させ、且つ継手部(89a)に継手部(88a)を
可及的に接近(最大限近い位置)させて、主変速レバー
(68)及び操向ハンドル(19)の中立保持時に、こ
れら何れか一方が操作されても、各操作部材(80)
(81)を第1及び第2枢軸(77)(79)の軸回り
に回動させるのみとさせて、継手軸(88)(89)に
は操作力を作用させないものである。The shifting and steering operation member (8)
0) (81) can be rotated around the axis.
9) and the universal joint portion (89a) of the steering arm (85) and the joint shaft (89) are substantially aligned on the horizontal line (L1) in the front-rear direction, and the operation output shafts (86) (87) ) And the universal joint shaft (88) (89)
(89b) and the first pivot (77) are connected to the line (L).
1) is located on a horizontal horizontal line (L2) orthogonal to the line (L2). Further, the universal joint (88a) between the transmission arm (84) and the joint shaft (88) and the joint (89a) are connected to the line (L2). ) And the joint (88a) as close to the joint (89a) as possible (at a position as close as possible) to the joint (89a). When one of these is operated during neutral holding of the direction handle (19), each operating member (80)
(81) is rotated only about the first and second pivots (77) and (79), and no operating force is applied to the joint shafts (88) and (89).
【0022】そして図9にも示す如く、主変速レバー
(68)の前後進操作で、第1枢軸(77)を中心とし
て操作部材(80)を前後に角度(α1)(α2)傾け
るとき前記継手軸(88)を引張って或いは押して変速
アーム(84)を動作させて走行速度の前後進の切換え
を行うと共に、図11に示す如くこの状態中(主変速レ
バー(68)が中立以外のとき)に操向ハンドル(1
9)の回動操作で第2枢軸(79)を中心として操作部
材(81)を上下に角度(β1)(β2)傾けるとき継
手軸(89)を引張って或いは押して操向アーム(8
5)を動作させて機体の左及び右旋回を行うものであ
る。即ち主変速の中立時に旋回操作を行っても継手軸
(89)はライン(L1)を中心とした略円錐面上で移
動する状態となって継手部(89a)(89b)間の距
離は変化せず、したがって操向アーム(85)は動作し
ない。そして主変速の中立以外で旋回操作が行われると
き操向アーム(85)は動作するもので、前後進に切換
わるとき操向アーム(85)は前後逆方向に動作して、
第2油圧モータ(27)の回転を前進時と後進時では逆
方向とさせるように構成したものである。As shown in FIG. 9, when the operation member (80) is inclined forward and backward by an angle (α1) (α2) about the first pivot (77) by the forward / reverse operation of the main shift lever (68). The speed change arm (84) is operated by pulling or pushing the joint shaft (88) to switch the traveling speed between forward and backward, and during this state as shown in FIG. 11 (when the main speed change lever (68) is other than neutral). ) To the steering wheel (1
When the operating member (81) is tilted up and down by an angle (β1) (β2) about the second pivot (79) in the turning operation of 9), the joint shaft (89) is pulled or pushed to pull the steering arm (8).
5) is operated to make a left and right turn of the body. That is, the joint shaft (89) moves on a substantially conical surface centered on the line (L1) even when the turning operation is performed when the main shift is in neutral, and the distance between the joint portions (89a) and (89b) changes. The steering arm (85) does not operate. The steering arm (85) operates when a turning operation is performed other than in the neutral position of the main shift, and the steering arm (85) operates in the front-rear direction when switching to forward / reverse travel.
The configuration is such that the rotation of the second hydraulic motor (27) is reversed in forward and reverse directions.
【0023】つまり、走行用の第1油圧モータ(24)
の正回転時を前進時とすると、逆回転時の後進時には旋
回用の第2油圧モータ(27)による遊星ギヤ機構(3
5)の作用は前進時と後進時では逆となるもので、前進
時と後進時のハンドル(19)操作による機体の旋回方
向を一致させるため、第1油圧モータ(24)の逆回転
(後進)時には第2油圧ポンプ(26)の斜板角度を逆
方向に切換えて(第1及び第2油圧ポンプ(23)(2
6)の入力軸の回転方向は一定)、第2油圧モータ(2
7)の回転を前進時と後進時では逆方向とさせるもので
ある。That is, the traveling first hydraulic motor (24)
Assuming that the forward rotation of the motor is forward, the planetary gear mechanism (3) by the second hydraulic motor for turning (27) at the time of reverse rotation during reverse rotation.
The operation of 5) is reversed between forward and reverse. In order to match the turning direction of the body by operating the handle (19) between forward and reverse, the first hydraulic motor (24) is rotated in reverse (reverse). ), The swash plate angle of the second hydraulic pump (26) is switched to the opposite direction (first and second hydraulic pumps (23), (2)).
6) The rotation direction of the input shaft is constant), and the second hydraulic motor (2
The rotation of 7) is made to be in the opposite direction between the forward movement and the reverse movement.
【0024】つまりこの場合、前進操作時の操作部材
(80)が中立より前方の角度(α1)側に傾いて、ハ
ンドル(19)の右回動操作によって第2ロッド(12
2)を引張り操作部材(81)を下方向の角度(β2)
側に傾けるとき、操作部材(81)の出力部(81a)
を操向アーム(85)側に近づけて、揺動軸(82)を
中心として操向アーム(85)を操作部材(81)より
遠ざける方向(図5中反時計方向)に回転させ、前記第
1及び第2ロッド(98)(108)などを介しコント
ロールレバー(73)を下方向に回転させて、旋回用の
第2油圧モータ(27)を正回転させる。即ち、機体を
前進で右旋回(走行クローラ(2)の速度を左側が大、
右側が小)させる。That is, in this case, the operating member (80) at the time of the forward operation is inclined toward the angle (α1) forward from the neutral position, and the second rod (12) is turned by the right rotation operation of the handle (19).
2) Pull the operation member (81) downward angle (β2)
Output part (81a) of the operating member (81) when tilted to the side
Is brought closer to the steering arm (85) side, and the steering arm (85) is rotated about the swing shaft (82) in a direction (counterclockwise in FIG. 5) away from the operation member (81). The control lever (73) is rotated downward via the first and second rods (98) (108) and the like, and the second hydraulic motor (27) for rotation is rotated forward. That is, the aircraft is turned right by forward movement (the speed of the traveling crawler (2) is large on the left side,
The right side is small).
【0025】また、上述の前進操作時で、ハンドル(1
9)の左回動操作によって第2ロッド(122)を押し
上げ、操作部材(81)を上方向の角度(β1)側に傾
けるとき、操作部材(81)の出力部(81a)を操作
アーム(85)側より遠ざけて、揺動軸(82)を中心
として操向アーム(85)を操作部材(81)側に近づ
ける方向(図5中時計方向)に回転させ、前記コントロ
ールレバー(73)を上方向に回転させて、前記第2油
圧モータ(27)を逆回転させる。即ち、機体を前進で
左旋回(走行クローラ(2)の速度を右側が大、左側が
小)させる。In the above-described forward operation, the steering wheel (1
When the second rod (122) is pushed up by the left rotation operation of 9) and the operation member (81) is tilted to the upper angle (β1) side, the output section (81a) of the operation member (81) is operated by the operation arm ( 85), the steering arm (85) is rotated about the swing shaft (82) in a direction (clockwise in FIG. 5) to approach the operation member (81), and the control lever (73) is turned. By rotating upward, the second hydraulic motor (27) is reversely rotated. That is, the body is turned leftward by moving forward (the speed of the traveling crawler (2) is large on the right side and small on the left side).
【0026】さらに、後進操作時の操作部材(80)が
中立より後方の角度(α2)側に傾いて、ハンドル(1
9)の右回動操作によって第2ロッド(122)を引張
り操作部材(81)を下方向の角度(β2)側に傾ける
とき、操作部材(81)の出力部(81a)を操向アー
ム(85)側より遠ざけて、揺動軸(82)を中心とし
て操向アーム(85)を操作部材(81)側に近づける
方向(図5中時計方向)に回転させ、前記コントロール
レバー(73)を上方向に回転させて、前記第2油圧モ
ータ(27)を逆回転させる。即ち、機体を後進で右旋
回(走行クローラ(2)の速度を左側が大、右側が小)
させる。Further, the operating member (80) at the time of the reverse operation is inclined toward the angle (α2) behind the neutral position, and
When the second rod (122) is pulled by the right rotation operation of 9) and the operation member (81) is inclined to the downward angle (β2) side, the output portion (81a) of the operation member (81) is moved to the steering arm (81). 85), the steering arm (85) is rotated about the swing shaft (82) in a direction (clockwise in FIG. 5) to approach the operation member (81), and the control lever (73) is turned. By rotating upward, the second hydraulic motor (27) is reversely rotated. That is, the aircraft turns to the right in reverse (the speed of the traveling crawler (2) is large on the left side and small on the right side).
Let it.
【0027】またさらに、上述とは逆に後進操作時で、
ハンドル(19)の左回動操作によって、操作部材(8
1)を上方向の角度(β1)側に傾けるとき、操作部材
(81)の出力部(81a)を操作部材(81)側に近
づけて、揺動軸(82)を中心として操向アーム(8
5)を操作部材(81)より遠ざける方向(図5中反時
計方向)に回転させ、前記コントロールレバー(73)
を下方向に回転させて、前記第2油圧モータ(27)を
正回転させる。即ち、機体を後進で左旋回(走行クロー
ラ(2)の速度を右側が大、左側が小)とさせる。Further, contrary to the above, at the time of reverse operation,
By turning the handle (19) to the left, the operation member (8
When tilting 1) toward the upward angle (β1), the output portion (81a) of the operating member (81) is brought closer to the operating member (81), and the steering arm (82) is pivoted about the swing shaft (82). 8
5) is rotated in a direction (counterclockwise in FIG. 5) away from the operation member (81), and the control lever (73) is rotated.
Is rotated downward to rotate the second hydraulic motor (27) forward. In other words, the aircraft is caused to make a reverse left turn (the speed of the traveling crawler (2) is high on the right side and low on the left side).
【0028】このように前進及び後進時における旋回操
作にあっては、操向アーム(85)の動きを逆方向とさ
せて、前後進の何れにおいても操向ハンドル(19)の
回動操作方向と機体の旋回方向とを一致させるもので、
回転操作する丸形の操向ハンドル(19)によって操向
操作部材を構成し、前記ハンドル(19)の回転操作に
よって例えばトラクタまたは田植機と同様の運転感覚で
進路修正及び方向転換などを行うと共に、操向操作部材
を走行変速部材または操向部材に機械的に連結させるリ
ンク機構(70)(71)を設け、前記リンク機構(7
0)(71)の動作及び機能が経時的に殆んど低下する
ことがなく、操向動作の信頼性向上などを容易に図れる
ように構成している。As described above, in the turning operation at the time of forward and backward movement, the movement of the steering arm (85) is reversed, and the turning operation direction of the steering handle (19) in both forward and backward movements. And the turning direction of the aircraft,
A steering operation member is constituted by a circular steering handle (19) which is rotated, and the rotation operation of the handle (19) performs a course correction, a direction change, and the like with the same driving feeling as a tractor or a rice transplanter, for example. And a link mechanism (70) (71) for mechanically connecting the steering operation member to the traveling speed change member or the steering member, and the link mechanism (7) is provided.
0) The operation and functions of (71) hardly deteriorate with time, so that the reliability of the steering operation can be easily improved.
【0029】さらに、図15、図16は機体の左旋回時
における操向ハンドル(19)の切れ角と左右走行クロ
ーラ(2)の速度の関係を示すもので、ハンドル(1
9)の切れ角が大となる程左右走行クローラ(2)の速
度差は大となると共に、これら左右走行クローラ(2)
の平均速度となる機体中心速度も走行速度(高速・標準
・低速)状態に応じて減速されるものであって、機体の
右旋回時においても左右クローラ(2)が逆の関係とな
るだけで同様のものであり、図15及び図16から明ら
かなように、直進位置の操向ハンドル(19)を左方向
(右方向)に約15度回転させると、前記長孔(125
a)内を軸(128)が移動し、バネ(S1)によって
第1減速ロッド(131)が直進と同一位置に維持され
ると共に、各ギヤ(114)(116)を介して操向第
1ロッド(120)が押出(引張)移動し、第2油圧ポ
ンプ(26)及びモータ(27)の操向出力によって左
方向(右方向)に旋回する。このとき、旋回内側の走行
クローラ(2)の減速量と、旋回外側の走行クローラ
(2)の増速量が略等しくなり、機体中心速度が直進と
略同一速度に保たれる。また、操向ハンドル(19)を
直進位置から15度以上回転させると、バネ(S1)に
抗して第1減速ロッド(131)が左旋回及び右旋回の
いずれでも引張られて減速動作し、第1油圧ポンプ(2
3)及びモータ(24)の走行変速出力を減速させ、左
右走行クローラ(2)(2)を同一方向に回転駆動させ
て前進(または後進)させ、左右走行クローラ(2)
(2)の同一方向の走行速度差により左方向(右方向)
に旋回するブレーキターン動作を行わせる。さらに、操
向ハンドル(19)を約135度回転させると、機体中
心速度が直進時の約4分の1に減速され、旋回内側の走
行クローラ(2)が逆転駆動され、旋回内側の走行クロ
ーラ(2)を中心として機体が旋回するスピンターン動
作が行われるもので、図18にも示す如く、ハンドル角
度0度からハンドル角度135度の範囲で操向ハンドル
(19)を回転させて左または右方向の旋回操作を行
い、直進位置を中心とした左右15度のハンドル(1
9)回転範囲で未刈り穀稈列に沿って移動する条合せ進
路修正を、直進時の走行速度を維持し乍ら行うと共に、
直進位置から左右135度のハンドル(19)回転によ
り、圃場枕地で機体を方向転換させて次作業工程に移動
させるスピンターン動作を、直進時の約4分の1の走行
速度に自動的に減速して行うように構成している。FIGS. 15 and 16 show the relationship between the turning angle of the steering handle (19) and the speed of the left and right traveling crawlers (2) when the body turns to the left.
As the cutting angle of 9) increases, the speed difference between the left and right traveling crawlers (2) increases, and the left and right traveling crawlers (2) become larger.
The center speed of the aircraft, which is the average speed of the aircraft, is also reduced according to the traveling speed (high speed / standard speed / low speed). Even when the aircraft turns right, the left and right crawlers (2) only have the opposite relationship. As is clear from FIGS. 15 and 16, when the steering handle (19) in the straight traveling position is rotated leftward (rightward) by about 15 degrees, the elongated hole (125) is rotated.
The shaft (128) moves in a), the first deceleration rod (131) is maintained at the same position as the straight traveling by the spring (S1), and the first steering rod (131) is steered through the gears (114) (116). The rod (120) pushes (pulls) and turns left (right) by the steering output of the second hydraulic pump (26) and the motor (27). At this time, the amount of deceleration of the traveling crawler (2) inside the turning is substantially equal to the amount of acceleration of the traveling crawler (2) outside the turning, and the center speed of the machine is maintained at substantially the same speed as the straight traveling. Further, when the steering handle (19) is rotated by 15 degrees or more from the straight traveling position, the first deceleration rod (131) is pulled by either the left turn or the right turn against the spring (S1) to perform the deceleration operation. , The first hydraulic pump (2
3) The traveling speed output of the motor (24) is decelerated, and the left and right traveling crawlers (2) and (2) are driven to rotate (rotate) in the same direction to move forward (or reverse), thereby causing the left and right traveling crawlers (2)
(2) Left direction (right direction) due to difference in traveling speed in the same direction
Perform a turning brake turn operation. Further, when the steering handle (19) is rotated about 135 degrees, the center speed of the fuselage is reduced to about one-fourth of that when traveling straight, and the traveling crawler (2) inside the turning is reversely driven, and the traveling crawler inside the turning is driven. A spin turn operation in which the aircraft turns around (2) is performed. As shown in FIG. 18, the steering wheel (19) is rotated leftward or rightward by rotating the steering handle (19) in a range of 0 to 135 degrees. Perform a right turn operation and turn the steering wheel (1
9) Correct the alignment path moving along the uncut culm row in the rotation range while maintaining the traveling speed when traveling straight,
By turning the steering wheel (19) left and right 135 degrees from the straight-ahead position, the spin-turn operation of turning the aircraft on the field headland and moving to the next work process is automatically performed at a traveling speed of about one-quarter of the straight-ahead. It is configured to perform at a reduced speed.
【0030】さらに、図17に示す如く、副変速を標準
(秒速1.5メートル)速度に保ち、操向ハンドル(1
9)を90度回転させたとき、主変速レバー(68)操
作により主変速出力を高速及び3分の2及び3分の1に
変更しても、機体の旋回半径が略一定に保たれた状態
で、旋回速度(機体中心速度)だけが変化するように構
成している。Further, as shown in FIG. 17, the sub-shift is maintained at a standard speed (1.5 meters per second), and the steering wheel (1
When 9) was rotated 90 degrees, the turning radius of the aircraft was kept substantially constant even if the main transmission output was changed to high speed and two thirds and one third by operating the main transmission lever (68). In this state, only the turning speed (aircraft center speed) changes.
【0031】上記から明らかなように、変速操作部材で
ある主変速レバー(68)の走行変速操作によりエンジ
ン(21)の駆動力を左右走行部である左右走行クロー
ラ(2)(2)に変速伝達する走行変速部材である第1
油圧ポンプ(23)及び第1油圧モータ(24)と、操
向操作部材である操向ハンドル(19)の操向操作によ
り左右走行クローラ(2)(2)の駆動速度に差を生じ
させる操向部材である第2油圧ポンプ(26)及び第2
油圧モータ(27)を設ける移動農機において、操向ハ
ンドル(19)の操作量に応じて走行速度を減速し乍ら
スピンターン動作に移行させ、農作業中の直進走行及び
進路修正動作と、圃場枕地で次作業工程位置に向けて方
向転換させるスピンターン動作とを、連続した一連の操
向操作だけでスムーズに行わせると共に、操向ハンドル
(19)を最大切れ角度に操作したときに走行速度を約
4分の1に減速させ、農作業を行う直進走行速度と、圃
場枕地で方向転換させるスピンターン走行速度の差を、
低速走行作業に比べて高速走行作業の方が走行速度に比
例して大きくし、高速走行作業を行っても低速時と同様
に圃場枕地でのスピンターン操作を安定良く行え、かつ
低速走行作業を行っても高速時と同様に圃場枕地での方
向転換を速やかに行え、農作業を行う直進走行時の変速
範囲を大きく設定してもスピンターン操作時の減速後の
走行速度範囲を小さくして機動性の向上並びに操向操作
性の向上などを図れるように構成している。また、操向
ハンドル(19)を最大切れ角度に操作したときに操向
部材(26)(27)の出力を最大にさせ、直進走行す
る農作業時に比べて走行負荷が大きくなる圃場枕地での
方向転換に必要な走行部駆動力を確保させ、方向転換時
の走行過負荷によるエンジン停止などのトラブルを防止
し、エンジンアクセル操作などを省けて方向転換時の運
転操作性の向上などを図ると共に、変速操作部材(6
8)の操作量に比例して旋回部材(26)(27)の出
力割合を変化させ、直進走行する農作業時に比べて走行
負荷が大きくなる圃場枕地での方向転換に必要な走行部
駆動力を確保させるように構成している。As is apparent from the above description, the driving force of the engine (21) is shifted to the left and right traveling crawlers (2) and (2) by the traveling speed change operation of the main shifting lever (68) as the speed changing operation member. The first transmission transmission member
An operation that causes a difference in the driving speed of the left and right traveling crawlers (2) and (2) by the steering operation of the hydraulic pump (23) and the first hydraulic motor (24) and the steering handle (19) that is a steering operation member. A second hydraulic pump (26),
In the mobile agricultural machine provided with the hydraulic motor (27), the traveling speed is reduced to a spin turn operation in accordance with the operation amount of the steering handle (19), and the vehicle travels straight in a farming operation and a course correction operation; The spin turn operation for changing the direction to the next work process position on the ground is smoothly performed only by a continuous series of steering operations, and the traveling speed when the steering handle (19) is operated to the maximum turning angle. Is reduced to about one-fourth, and the difference between the straight running speed for farming and the spin turn running speed for turning in the field headland is
High-speed running work is increased in proportion to the running speed compared to low-speed running work, and even when performing high-speed running work, the spin-turn operation on the field headland can be performed stably as well as at low speed, and low-speed running work Even if you do, you can quickly change the direction on the headland as in the case of high speed, and even if you set a large shift range for straight running while performing agricultural work, reduce the running speed range after deceleration during spin turn operation. It is configured to improve mobility and steering operability. In addition, when the steering handle (19) is operated at the maximum turning angle, the output of the steering members (26) and (27) is maximized, and the running load is increased in the field headland where the running load is larger than that in the agricultural work in which the vehicle runs straight. The driving force required for the direction change is ensured to prevent troubles such as engine stop due to overloading during the direction change, and engine operability during the direction change is improved by eliminating the engine accelerator operation. , Speed change operation member (6
8) The output ratio of the turning members (26) and (27) is changed in proportion to the operation amount, and the driving force required to change the direction at the headland on a field headland where the running load is greater than that during the agricultural work of running straight. It is configured to ensure.
【0032】また図12にも示す如く、前記操向ハンド
ル(19)に設ける検出リンク(125)は中立位置よ
り右或いは左旋回操作の何れにおいても第1揺動アーム
(127)を同一方向に角度(θ)の範囲で回動させて
第2減速ロッド(133)を常に引張る状態とさせて、
前進操作時の操作部材(80)が角度(α1)側に傾い
てるときには、継手部(88a)(88b)間の距離を
縮め、また後進操作時の操作部材(80)が角度(α
2)側に傾いているときには、継手部(88a)(88
b)間の距離を大きくして、変速アーム(84)をそれ
ぞれ中立方向の低速側に変位させて、その旋回量に応じ
た減速を行うものである。As shown in FIG. 12, the detection link (125) provided on the steering handle (19) moves the first swing arm (127) in the same direction in either the right or left turning operation from the neutral position. By rotating in the range of the angle (θ), the second deceleration rod (133) is always pulled,
When the operating member (80) at the time of the forward operation is inclined toward the angle (α1), the distance between the joints (88a) and (88b) is reduced, and the operating member (80) at the time of the reverse operation is moved to the angle (α).
2) When inclined to the side, the joints (88a) (88
b), the distance between them is increased, and the speed change arms (84) are respectively displaced toward the low speed side in the neutral direction to perform deceleration according to the turning amount.
【0033】さらに、変速及び操向の操作力を伝達する
前記第1ロッド(97)(98)と揺動アーム(95)
(96)の自在継手部(97a)(98a)の中心を、
運転キャビン(18)の回動支点軸(92)位置に一致
させて、変速及び操向の中立保持においてはこれらの操
作系を取外すことなく運転キャビン(18)の前方向へ
の回動を可能とさせるように構成している。Further, the first rods (97) (98) and the swing arm (95) for transmitting the operating force for shifting and steering.
The center of the universal joint (97a) (98a) of (96)
The driving cabin (18) can be turned forward without removing these operation systems when shifting and steering is kept neutral by matching the position of the rotation fulcrum shaft (92) of the driving cabin (18). It is configured to be.
【0034】ところで、図4及び図14に示す如く、前
記第1及び第2油圧ポンプ(23)(26)と第1及び
第2油圧モータ(24)(27)とをそれぞれループ油
圧回路(134)(135)を介し正逆自在に接続さ
せ、前記第1及び第2油圧モータ(24)(27)の出
力軸(31)(62)には、電磁弁(136)(13
7)の作動によって出力軸(31)(62)を静止保持
する走行停止及び直進固定用の走行及び旋回用ブレーキ
装置(138)(139)を設けると共に、前記駐車ブ
レーキ軸(49)にはブレーキ軸(49)を静止保持す
る駐車ブレーキ装置(140)を設けている。As shown in FIGS. 4 and 14, the first and second hydraulic pumps (23) and (26) and the first and second hydraulic motors (24) and (27) are respectively connected to a loop hydraulic circuit (134). ) (135) so as to be freely reversible, and the output shafts (31) (62) of the first and second hydraulic motors (24) (27) are provided with solenoid valves (136) (13).
7) The running and turning brake devices (138) and (139) for stopping the running of the output shafts (31) and (62) and for fixing the straight running by the operation of 7) are provided, and the parking brake shaft (49) is provided with a brake. A parking brake device (140) for holding the shaft (49) stationary is provided.
【0035】さらに、図18は、上記操向ハンドル(1
9)に代えて操向レバー(141)を設けたもので、操
向レバー(141)を軸(142)回りに左右方向に揺
動自在に取付け、操向レバー(141)基部に固定させ
るベベルギヤ(143a)と、ハンドル操作軸(11
3)上端に固定させるベベルギヤ(143b)を噛合さ
せ、操向レバー(141)の左右揺動によって操作軸
(113)を正転または逆転させ、上記と同様に、リン
ク機構(70)(71)を作動させて操向制御させ、揺
動操作する操向レバー(141)によって操向操作部材
を構成し、前記レバー(141)を例えば左右方向に揺
動させるだけで左右いずれの進路修正及び方向転換を行
えるように構成している。FIG. 18 shows the steering handle (1).
9) A steering lever (141) is provided in place of the steering lever (141), and the steering lever (141) is mounted to be swingable left and right around an axis (142), and is fixed to a base of the steering lever (141). (143a) and the handle operation shaft (11
3) The bevel gear (143b) fixed to the upper end is meshed, and the operating shaft (113) is rotated forward or backward by the left and right swing of the steering lever (141), and the link mechanisms (70) and (71) are similar to the above. Is operated to control the steering, and a steering lever (141) for swinging operation constitutes a steering operation member. It is configured to allow conversion.
【0036】さらに、図19に示す如く、例えば電動モ
ータまたは油圧シリンダなどで形成する変速アクチュエ
ータ(144)及び操向アクチュエータ(145)を設
け、無段変速機構(25)(28)の第1及び第2油圧
ポンプ(23)(26)に設けるトラニオンを形成する
コントロールレバー(72)(73)に前記各アクチュ
エータ(144)(145)を連結させると共に、主変
速レバー(68)の変速操作位置を検出するポテンショ
メータ型主変速センサ(146)と、前記レバー(6
8)の前進または後進操作を検出する切換スイッチ型前
後進センサ(147)と、操向ハンドル(19)の回転
操作位置を検出するポテンショメータ型操向ハンドルセ
ンサ(148)と、前記ハンドルの回転方向(左または
右)を検出する切換スイッチ型左右旋回センサ(14
9)と、副変速機構(32)の副変速操作位置を検出す
る切換スイッチ型副変速センサ(150)と、変速用コ
ントロールレバー(72)の走行変速位置を検出するポ
テンショメータ型変速位置センサ(151)と、旋回用
コントロールレバー(73)の旋回変速位置を検出する
ポテンショメータ型旋回位置センサ(152)と、走行
クローラ(1)の走行速度を検出するピックアップ型車
速センサ(153)を設け、マイクロコンピュータで形
成するコントローラ(154)に前記各センサ(14
6)〜(153)並びに各アクチュエータ(144)
(145)を電気接続させる。そして、上記したリンク
機構(70)(71)を省き、かつ上記と同様に、操向
ハンドル(19)及び主変速レバー(68)の操作に基
づき、各センサ(146)〜(153)を介して各アク
チュエータ(144)(145)を制御し、各コントロ
ールレバー(72)(73)を作動させ、走行変速並び
に左右旋回の各動作を行わせるもので、操向操作部材で
ある操向ハンドル(19)を走行変速部材である第1油
圧ポンプ(23)及び第1油圧モータ(24)または操
向部材である第2油圧ポンプ(26)及び第2油圧モー
タ(27)に電気的に連結させるコントローラ(15
4)を設け、操向制御機能の多機能化並びに製造コスト
の低減などを容易に図れるように構成している。Further, as shown in FIG. 19, a speed change actuator (144) and a steering actuator (145) formed of, for example, an electric motor or a hydraulic cylinder are provided, and the first and second stepless speed change mechanisms (25) and (28) are provided. The actuators (144) and (145) are connected to control levers (72) and (73) forming trunnions provided on the second hydraulic pumps (23) and (26), and the shift operation position of the main shift lever (68) is changed. A potentiometer-type main speed change sensor (146) for detection and the lever (6
8) a changeover switch type forward / backward sensor (147) for detecting forward or backward operation, a potentiometer type steering handle sensor (148) for detecting a rotational operation position of the steering handle (19), and a rotation direction of the handle. (Left or right) changeover switch type left / right rotation sensor (14
9), a switch-type auxiliary shift sensor (150) for detecting an auxiliary shift operation position of the auxiliary shift mechanism (32), and a potentiometer type shift position sensor (151) for detecting a traveling shift position of the shift control lever (72). ), A potentiometer type turning position sensor (152) for detecting a turning shift position of the turning control lever (73), and a pickup type vehicle speed sensor (153) for detecting a running speed of the running crawler (1). Each sensor (14) is sent to a controller (154) formed by
6) to (153) and each actuator (144)
(145) is electrically connected. Then, the above link mechanisms (70) and (71) are omitted and, similarly to the above, based on the operation of the steering handle (19) and the main shift lever (68), via the sensors (146) to (153). The actuator controls the actuators (144) and (145) to operate the control levers (72) and (73) to perform various operations such as traveling speed change and left and right turning, and a steering handle (a steering operation member). 19) is electrically connected to the first hydraulic pump (23) and the first hydraulic motor (24) as the traveling transmission member or the second hydraulic pump (26) and the second hydraulic motor (27) as the steering member. Controller (15
4) is provided so that the steering control function can be easily made multifunctional and the manufacturing cost can be easily reduced.
【0037】[0037]
【発明の効果】以上実施例から明らかなように本発明
は、変速レバー(68)の走行変速操作によりエンジン
(21)から伝える左右走行クローラ(2)の駆動速度
を同一方向に同時に無段階変更させる走行変速機構(2
5)と、操向ハンドル(19)の操向操作によりエンジ
ン(21)から伝える左右走行クローラ(2)の駆動速
度を反対方向に同時に無段階変更させる差動機構(3
3)を駆動する旋回用油圧ポンプ(26)及び油圧モー
タ(27)を設ける移動農機において、変速レバー(6
8)の操作量に比例して旋回用油圧ポンプ(26)及び
油圧モータ(27)の出力を変更させる変速及び旋回連
動機構(69)を設け、操向ハンドル(19)を直進以
外に操作した状態下での変速レバー(68)の走行変速
操作によって前記旋回用油圧ポンプ(26)及び油圧モ
ータ(27)の出力を変更させると共に、操向ハンドル
(19)の操作量に比例して変速及び旋回連動機構(6
9)を介して走行変速機構(25)の出力を変更させ、
また変速レバー(68)を中立以外に操作した状態下で
の操向ハンドル(19)の操向操作によって走行変速機
構(25)の出力を変更させ、かつ変速レバー(68)
が走行変速中立位置のときに旋回用油圧ポンプ(26)
及び油圧モータ(27)の出力を常に直進に保つもの
で、走行負荷が大きくなる方向転換に必要な走行部駆動
力を容易に確保できるものである。As is apparent from the above embodiments, the present invention provides a driving speed of the left and right traveling crawlers (2) transmitted from the engine (21) by the traveling speed change operation of the transmission lever (68).
The traveling transmission mechanism Ru is continuously changed at the same time in the same direction (2
5), engine by steering operation of the steering wheel (19)
Mechanism (3) for simultaneously and continuously changing the drive speed of the left and right traveling crawlers (2) transmitted from the
Swing hydraulic pump to drive the 3) (26) and hydraulic motor
In the mobile agricultural machine provided data (27), the shift lever (6
8) The turning hydraulic pump (26) and
Shifting and turning gear for changing the output of the hydraulic motor (27)
A moving mechanism (69) is provided, and the steering handle (19) is moved straight ahead.
The turning hydraulic pump (26) and the hydraulic motor are operated by the traveling speed change operation of the speed change lever (68) in the state of being operated outside.
Data (27) and the steering wheel
The gear shifting and turning interlocking mechanism (6) is proportional to the operation amount of (19).
9) changing the output of the traveling speed change mechanism (25) through
When the shift lever (68) is operated to a position other than neutral,
Transmission by the steering operation of the steering handle (19) of the vehicle
The output of the mechanism (25) is changed, and the shift lever (68)
Turning hydraulic pump (26) when is in the neutral position for traveling speed change
In addition, the output of the hydraulic motor (27) is always kept straight, so that it is possible to easily secure the driving force of the traveling section necessary for changing the direction in which the traveling load increases.
【図面の簡単な説明】[Brief description of the drawings]
【図1】主変速レバー及び操向ハンドルの操作系の斜視
説明図。FIG. 1 is an explanatory perspective view of an operation system of a main shift lever and a steering handle.
【図2】コンバインの全体側面図。FIG. 2 is an overall side view of the combine.
【図3】コンバインの全体平面図。FIG. 3 is an overall plan view of the combine.
【図4】ミッション駆動系の説明図。FIG. 4 is an explanatory diagram of a mission drive system.
【図5】走行変速及び操向操作部の説明図。FIG. 5 is an explanatory diagram of a traveling speed change and steering operation unit.
【図6】操作部の正面説明図。FIG. 6 is an explanatory front view of an operation unit.
【図7】操作部の平面説明図。FIG. 7 is an explanatory plan view of an operation unit.
【図8】操作部の側面説明図。FIG. 8 is an explanatory side view of the operation unit.
【図9】操作部材の側面説明図。FIG. 9 is an explanatory side view of the operation member.
【図10】操作部材の正面説明図。FIG. 10 is an explanatory front view of an operation member.
【図11】操作部材の平面説明図。FIG. 11 is an explanatory plan view of an operation member.
【図12】操向ハンドル部の平面説明図。FIG. 12 is an explanatory plan view of a steering handle portion.
【図13】リンク機構部の平面説明図。FIG. 13 is an explanatory plan view of a link mechanism.
【図14】油圧回路図。FIG. 14 is a hydraulic circuit diagram.
【図15】機体旋回時のハンドル切れ角とクローラ速度
との関係を示す線図。FIG. 15 is a diagram showing a relationship between a steering wheel turning angle and a crawler speed when the aircraft turns.
【図16】操向ハンドル操作と走行減速の関係を表わす
線図。FIG. 16 is a diagram showing a relationship between steering wheel operation and traveling deceleration.
【図17】主変速切換と走行減速の関係を表わす線図。FIG. 17 is a diagram showing a relationship between main speed change and traveling deceleration.
【図18】操向レバーを設けた説明図。FIG. 18 is an explanatory view provided with a steering lever.
【図19】コントローラを設けた説明図。FIG. 19 is an explanatory diagram provided with a controller.
(2) 走行クローラ (19) 操向ハンドル(操向操作部材) (21) エンジン (23) 第1油圧ポンプ(走行変速部材) (24) 第1油圧モータ(走行変速部材) (26) 第2油圧ポンプ(操向部材) (27) 第2油圧モータ(操向部材) (68) 主変速レバー(変速操作部材) (2) Travel crawler (19) Steering handle (steering operation member) (21) Engine (23) First hydraulic pump (travel transmission member) (24) First hydraulic motor (travel transmission member) (26) Second Hydraulic pump (steering member) (27) Second hydraulic motor (steering member) (68) Main transmission lever (shift operation member)
Claims (1)
りエンジン(21)から伝える左右走行クローラ(2)
の駆動速度を同一方向に同時に無段階変更させる走行変
速機構(25)と、操向ハンドル(19)の操向操作に
よりエンジン(21)から伝える左右走行クローラ
(2)の駆動速度を反対方向に同時に無段階変更させる
差動機構(33)を駆動する旋回用油圧ポンプ(26)
及び油圧モータ(27)を設ける移動農機において、変
速レバー(68)の操作量に比例して旋回用油圧ポンプ
(26)及び油圧モータ(27)の出力を変更させる変
速及び旋回連動機構(69)を設け、操向ハンドル(1
9)を直進以外に操作した状態下での変速レバー(6
8)の走行変速操作によって前記旋回用油圧ポンプ(2
6)及び油圧モータ(27)の出力を変更させると共
に、操向ハンドル(19)の操作量に比例して変速及び
旋回連動機構(69)を介して走行変速機構(25)の
出力を変更させ、また変速レバー(68)を中立以外に
操作した状態下での操向ハンドル(19)の操向操作に
よって走行変速機構(25)の出力を変更させ、かつ変
速レバー(68)が走行変速中立位置のときに旋回用油
圧ポンプ(26)及び油圧モータ(27)の出力を常に
直進に保つことを特徴する移動農機。A left-right traveling crawler (2) transmitted from an engine (21) by a traveling speed change operation of a transmission lever (68).
And the driving speed traveling shift mechanism Ru is simultaneously continuously changed in the same direction (25), the opposite direction the drive speed of the left and right traveling crawlers tell from the engine (21) by steering operation of the steering wheel (19) (2) Hydraulic pump (26) for driving a differential mechanism (33) that changes steplessly at the same time
In a mobile agricultural machine provided with a hydraulic motor (27) and a hydraulic motor (27), the output of the turning hydraulic pump (26) and the hydraulic motor (27) is changed in proportion to the operation amount of the shift lever (68).
A speed and turning interlocking mechanism (69) is provided, and the steering handle (1
9) When the shift lever (6) is
8) The turning hydraulic pump (2)
6) and changing the output of the hydraulic motor (27)
In addition, the speed change and the speed change in proportion to the operation amount of the steering handle (19).
Of the traveling speed change mechanism (25) via the turning interlocking mechanism (69).
Change the output, and change the gearshift lever (68) to something other than neutral.
For steering operation of the steering handle (19) in the operated state
Therefore, the output of the traveling speed change mechanism (25) is changed and changed.
Turning oil when the speed lever (68) is in the neutral position for traveling speed change
Output of pressure pump (26) and hydraulic motor (27) is always
Mobile farming machine characterized by keeping straight .
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16712199A JP3198410B2 (en) | 1999-06-14 | 1999-06-14 | Moving agricultural machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP16712199A JP3198410B2 (en) | 1999-06-14 | 1999-06-14 | Moving agricultural machine |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP27057597A Division JP3681871B2 (en) | 1997-09-16 | 1997-09-16 | Mobile farm machine |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2000025644A JP2000025644A (en) | 2000-01-25 |
JP3198410B2 true JP3198410B2 (en) | 2001-08-13 |
Family
ID=15843837
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP16712199A Expired - Lifetime JP3198410B2 (en) | 1999-06-14 | 1999-06-14 | Moving agricultural machine |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3198410B2 (en) |
-
1999
- 1999-06-14 JP JP16712199A patent/JP3198410B2/en not_active Expired - Lifetime
Also Published As
Publication number | Publication date |
---|---|
JP2000025644A (en) | 2000-01-25 |
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