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JP2000032831A - Levee-side controlling apparatus for combine or the like - Google Patents

Levee-side controlling apparatus for combine or the like

Info

Publication number
JP2000032831A
JP2000032831A JP10201836A JP20183698A JP2000032831A JP 2000032831 A JP2000032831 A JP 2000032831A JP 10201836 A JP10201836 A JP 10201836A JP 20183698 A JP20183698 A JP 20183698A JP 2000032831 A JP2000032831 A JP 2000032831A
Authority
JP
Japan
Prior art keywords
culm
combine
levee
handling depth
reaping
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
Application number
JP10201836A
Other languages
Japanese (ja)
Other versions
JP3956492B2 (en
Inventor
Shingo Takagi
高木  真吾
Hidetaka Hirayama
秀孝 平山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Iseki and Co Ltd
Iseki Agricultural Machinery Mfg Co Ltd
Original Assignee
Iseki and Co Ltd
Iseki Agricultural Machinery Mfg Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Iseki and Co Ltd, Iseki Agricultural Machinery Mfg Co Ltd filed Critical Iseki and Co Ltd
Priority to JP20183698A priority Critical patent/JP3956492B2/en
Publication of JP2000032831A publication Critical patent/JP2000032831A/en
Application granted granted Critical
Publication of JP3956492B2 publication Critical patent/JP3956492B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Harvester Elements (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a levee-side controlling apparatus free from the trouble of rotational fault, etc., of various parts by carrying out a specific change control by a regulation means when the high-level cutting at a levee side is completed and a reaped culm is transported after the controlled lowering of a reaping apparatus. SOLUTION: The combine, etc., having the objective levee-side controlling apparatus are provided with a lifting apparatus 4 to lift a reaping apparatus 3 in the reaping of a standing culm at a levee side to avoid the collision of the apparatus with the levee and a regulation means 35 to regulate the threshing depth of reaped culm transferred by a culm transferring apparatus 5. When the high-level cutting at the levee side is finished and the reaped culm is transferred by the culm transferring apparatus 5 by a prescribed distance after the controlled lowering of the reaping apparatus 3 by the lifting apparatus 4, the threshing depth of the culm transferring apparatus 5 is changed from a deep- threshing state to a standard threshing state by the regulation means 35.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】この発明は、畦際で刈取装置
を上降制御して穀稈を高刈りすると共に、刈取穀稈を搬
送して供給する穀稈搬送装置を深扱ぎ側へ調節制御する
が、畦際の刈取りが終了して該刈取装置を下降制御後
に、該刈取穀稈が該穀稈搬送装置で一定距離搬送される
と、この穀稈搬送装置の扱ぎ深さの調節位置を深扱ぎ側
から標準扱ぎ深さ側へ変更制御する技術であり、コンバ
イン等の畦際制御装置に利用できる。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a culm conveying device for conveying a cut culm and feeding the cut culm to a deep-handling side while controlling a cutting device up and down on a ridge to cut a culm at a high height. When the cut culm is conveyed for a certain distance by the cereal culm conveying device after the mowing on the ridge ends and the mowing device is lowered and controlled, the handling depth of the cereal culm conveying device is adjusted. This technology changes the position from the deep handling side to the standard handling depth side, and can be used for a ridge control device such as a combine.

【0002】[0002]

【従来の技術】コンバインで収穫作業のときは、このコ
ンバインを圃場内を走行させて、刈取装置で圃場内の立
毛穀稈を刈取りするが、この収穫作業のときに、該コン
バインが畦際に接近すると、この畦に該刈取装置の先端
部に設けた各部品が衝突しないように、略畦上側位置ま
で昇降装置によって該刈取装置が上昇制御されて、立毛
穀稈は高刈りされ、この高刈りされた刈取穀稈を搬送し
て、例えば、脱穀機へ供給する穀稈搬送装置は、調節手
段によって扱ぎ深さが深扱ぎ側へ調節制御され、この刈
取穀稈は深扱ぎ状態で該脱穀機へ供給して脱穀する。
2. Description of the Related Art At the time of harvesting with a combine, the combine is run in a field and a reaping device is used to cut the erected cultivars in the field. When approaching, the mowing device is controlled to be raised by the elevating device to a position approximately above the ridge so that the components provided at the tip of the mowing device do not collide with the ridge, and the pilgrim culm is trimmed to a high level. The grain culm conveying device that conveys the cut and harvested culm and supplies it to, for example, a threshing machine is controlled so that the handling depth is adjusted to the deep-handling side by adjusting means, and the harvested grain culm is in a deep-handed state. And threshing by supplying to the threshing machine.

【0003】この畦際の刈取が終了すると、前記昇降装
置によって刈取装置は、圃場面上の所定位置まで下降制
御されると共に、穀稈搬送装置は、調節手段によって深
扱ぎ側から標準扱ぎ深側へ調節され、この穀稈搬送装置
により、この標準扱ぎ深さで刈取穀稈を、脱穀機へ供給
して脱穀する。
[0003] When the mowing at the ridge ends, the mowing device is controlled to descend to a predetermined position on the field scene by the elevating device, and the grain culm transport device is standard-handled from the deep handling side by the adjusting means. The grain culm is adjusted to the deep side, and the harvested grain culm is supplied to the threshing machine at this standard handling depth by the grain culm conveying device and threshed.

【0004】[0004]

【発明が解決しようとする課題】畦際の刈取りが終了す
ると、刈取装置が下降制御されると共に、穀稈搬送装置
も深扱ぎ側から標準扱ぎ深さ側へ即時調節制御されるこ
とにより、回転駆動するモータの負荷が軽減されない状
態で調節制御されることにより、各部に回転不良が発生
することがあったが、この発明により、この問題点を解
決しようとするものである。
When the mowing on the ridge is completed, the mowing device is controlled to descend, and the grain culm transport device is also immediately adjusted and controlled from the deep handling side to the standard handling depth side. In some cases, the rotation of the motor to be driven is adjusted and controlled without reducing the load, thereby causing rotation failure in each part. The present invention is intended to solve this problem.

【0005】[0005]

【課題を解決するための手段】このために、この発明
は、刈取装置3で立毛穀稈を刈取りのときに畦際におい
ては畦との衝突を避けるために該刈取装置3を上昇制御
する昇降装置4と、穀稈搬送装置5で搬送する該刈取穀
稈の扱ぎ深さを調節する調節手段35とを設けたコンバ
イン等において、畦際での高刈りが終了して該昇降装置
4で該刈取装置3を下降制御後に該刈取穀稈が該穀稈搬
送装置5で一定距離搬送されると該調節手段35で該穀
稈搬送装置5の扱ぎ深さを深扱ぎ側から標準扱ぎ深側へ
変更制御することを特徴とするコンバイン等の畦際制御
装置の構成とする。
For this purpose, the present invention relates to a lifting device for raising and lowering the reaping device 3 in order to avoid collision with the ridge when cutting the raised culm culm by the reaping device 3. In a combine or the like provided with a device 4 and an adjusting means 35 for adjusting the handling depth of the harvested cereal culm conveyed by the cereal culm conveying device 5, high cutting on the ridge end is completed and the lifting device 4 When the harvested grain culm is conveyed by a certain distance by the grain culm conveying device 5 after lowering the cutting device 3, the handling depth of the grain culm conveying device 5 is standardized from the deep handling side by the adjusting means 35. The configuration of a ridgeside control device for a combine or the like, characterized in that the change control is performed to the deep side.

【0006】[0006]

【発明の作用】コンバインで収穫作業のときは、このコ
ンバインを圃場内を走行させ、刈取装置3で圃場内の立
毛穀稈を刈取りするが、この収穫作業のときに、該コン
バインが畦際に接近すると、この畦に該刈取装置3の先
端部に設けた各部品が衝突しないように、略畦上側位置
まで昇降装置4によって該刈取装置3が上昇制御され
て、立毛穀稈は高刈りされ、この高刈りされた刈取穀稈
を搬送して、例えば、脱穀機へ供給する穀稈搬送装置5
は、調節手段35によって扱ぎ深さが深扱ぎ側へ調節さ
れ、この刈取穀稈を深扱ぎ状態で該脱穀機へ供給して脱
穀する。
In the harvesting operation using the combine, the combine is run in the field and the reaping device 3 cuts the pied cereal culm in the field. When approaching, the mowing device 3 is controlled to be raised by the elevating device 4 to a substantially upper position of the ridge so that the components provided at the distal end of the mowing device 3 do not collide with the ridge, and the raised culm is cut high. A cereal culm conveying device 5 that conveys the high-cut mowing cereal culm and supplies it to, for example, a threshing machine
Is adjusted by the adjusting means 35 so that the harvested culm is supplied to the threshing machine in a deeply handled state and threshed.

【0007】この畦際の刈取りが終了すると、前記昇降
装置4によって刈取装置3は、圃場面上の所定位置まで
下降制御され、該穀稈搬送装置5によって移送中の刈取
穀稈が、一定距離搬送されると、この穀稈搬送装置5の
扱ぎ深さは、深扱ぎ側から標準扱ぎ深側へ調節手段35
によって変更制御され、この穀稈搬送装置5により、こ
の標準扱ぎ深さで刈取穀稈を、脱穀機へ供給して脱穀す
る。
[0007] When the mowing at the ridge ends, the mowing device 3 is controlled to descend to a predetermined position on the field scene by the elevating device 4, and the mowing culm being transported by the cereal conveying device 5 is moved by a predetermined distance. When transported, the handling depth of the grain culm transport device 5 is adjusted from the deep handling side to the standard handling depth side by the adjusting means 35.
The harvested culm at this standard handling depth is supplied to a threshing machine and threshed by the culm conveying device 5.

【0008】[0008]

【発明の効果】刈取装置3を昇降装置4で畦上側位置か
ら圃場面上の所定位置まで下降制御すると、刈取穀稈を
搬送して供給する穀稈搬送装置5は、この刈取穀稈が一
定距離搬送されると、扱ぎ深さは深扱ぎ側から標準扱ぎ
深さ側へ調節手段35によって、変更制御されることに
より、回転駆動するモータの負荷が軽減されながら、標
準扱ぎ深さ側へ変更制御されることにより、回転不良等
の問題発生を防止することができる。
When the cutting device 3 is controlled to be lowered from the upper row position to the predetermined position on the field scene by the lifting device 4, the culm conveying device 5 that conveys and supplies the cut cereal culm has a constant cut culm. When transported by a distance, the handling depth is changed and controlled by the adjusting means 35 from the deep handling side to the standard handling depth side, so that the load on the motor to be rotated is reduced, and the standard handling depth is reduced. By performing the change control to the side, the occurrence of a problem such as a rotation failure can be prevented.

【0009】[0009]

【発明の実施の形態】以下、本発明の一実施例を図面に
基づいて説明する。コンバイン1に載置した脱穀機2、
この脱穀機2前部に設けた刈取装置3、この刈取装置3
を昇降制御する昇降装置4、この刈取装置3で高刈り、
又は標準刈りした刈取穀稈を搬送して、該脱穀機2へ供
給する穀稈搬送装置5等よりなる畦際制御装置を図示し
て説明する。
DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below with reference to the drawings. Threshing machine 2 mounted on combine 1,
The reaper 3 provided at the front of the threshing machine 2, the reaper 3
Lifting device 4 that controls lifting and lowering, high mowing with this reaping device 3,
Alternatively, a ridge control device including a culm conveying device 5 and the like that conveys the standard-cut mowed cereal culm and supplies it to the threshing machine 2 will be illustrated and described.

【0010】前記コンバイン1の車台6の下部側に土壌
面を走行する左右一対の走行クローラ7を張設した走行
装置8を配設すると共に、該車台6上には、フィードチ
ェン9で挾持搬送して供給される穀稈を脱穀し、この脱
穀された穀粒を選別回収して一時貯留するグレンタンク
10と、このグレンタンク10に貯留した穀粒を機外へ
排出する排穀オーガ10aとを設けた脱穀機2を載置構
成している。なお、該フィードチェン9の奥側に隣接し
て供給穀稈が極短稈のときは、入口部のみを挾持して以
後は開放する脱穀短稈チェン9aを設けている。
A traveling device 8 having a pair of left and right traveling crawlers 7 for traveling on the soil surface is disposed below the undercarriage 6 of the combine 1, and a feed chain 9 is held on the undercarriage 6 by a feed chain 9. A grain tank 10 for threshing the grain culm supplied as such, and for selectively collecting and collecting the threshed grains, and a grain auger 10a for discharging the grains stored in the grain tank 10 to the outside of the machine. Is mounted. When the feed culm is an extremely short culm adjacent to the back side of the feed chain 9, a short hull short culm 9a that sandwiches only the entrance portion and is opened thereafter is provided.

【0011】前記脱穀機2の前方には、前端側から植立
穀稈を分草する分草体12と、分草された穀稈を引き起
こす引起装置13と、引き起こされた穀稈を刈り取る刈
刃装置14と、この刈り取られた穀稈を掻き込むと共に
搬送する穀稈搬送装置5と、この掻き込み搬送される穀
稈を引き継いでフィードチェン9へ受け渡しする供給搬
送装置15等を有する刈取装置3を、昇降装置4の油圧
駆動による伸縮シリンダ16により土壌面に対して昇降
自在に該車台6の前端部へ懸架構成している。
In front of the threshing machine 2, a weeding body 12 for weeding the planted grain culm from the front end side, a raising device 13 for causing the weeded grain culm, and a cutting blade for cutting the caused grain culm. A harvesting device 3 having a device 14, a grain stalk transport device 5 for scraping and transporting the cut culm, a supply transport device 15 for taking over the grain stalk being scraped and transported to the feed chain 9, and the like. Is suspended from the front end of the chassis 6 by a telescopic cylinder 16 driven by a hydraulic drive of the lifting device 4 so as to be able to move up and down on the soil surface.

【0012】前記刈取装置3の一側にコンバイン1の操
作制御を行う操作装置17と、この操作のための操作席
18とを設け、この操作席18の後方側にグレンタンク
10を配置し、下方側にエンジン19を搭載すると共
に、該操作装置17と該操作席18とを覆うキャビン2
0を配設し、これらの刈取装置3,走行装置8,脱穀機
2,操作装置17,エンジン19,キャビン20等によ
ってコンバインの機体11を構成している。
An operating device 17 for controlling the operation of the combine 1 and an operating seat 18 for this operation are provided on one side of the reaper 3, and the Glen tank 10 is arranged behind the operating seat 18. A cabin 2 having an engine 19 mounted on the lower side and covering the operation device 17 and the operation seat 18
The harvester 3, the traveling device 8, the threshing machine 2, the operating device 17, the engine 19, the cabin 20, and the like constitute a combine body 11.

【0013】前記車台6の前端部に装架された走行ミッ
ション21の伝動経路中には、その出力回転数に基づく
走行車速を検出する車速センサ21aを設けた構成であ
る。前記刈取装置3は、図3,及び図4に示す如く、刈
り取った穀稈の株元側を掻き込み搬送するY字状に配置
した左・中・右の各株元搬送チェン22a,22b,2
2cの合流部から搬送穀稈の扱深さを深・浅に調節する
扱深さ調節チェン23に引き継ぎ、この扱深さ調節チェ
ン23をその前端側を支点として扱深さ調節モータ24
により上下移動可能に配置すると共に、これら各株元搬
送チェン22a,22b,22c、及び扱深さ調節チェ
ン23の上方側に、穀稈の株元側に対応して各々その穂
先側を搬送させる左・中・右の各穂先搬送ラグ25a,
25b,25cを配置して穀稈搬送装置5を構成させ
る。
A vehicle speed sensor 21a for detecting the traveling vehicle speed based on the output rotation speed is provided in the transmission path of the traveling mission 21 mounted on the front end of the chassis 6. As shown in FIGS. 3 and 4, the reaper 3 includes left, middle, and right stock transfer chains 22a, 22b, which are arranged in a Y-shape for scraping and transferring the stock side of the cut stalks. 2
2c, the handling depth of the transported grain culm is taken over by a handling depth adjusting chain 23 for adjusting the handling depth of the grain to be deep or shallow, and the handling depth adjusting chain 23 is provided with its front end as a fulcrum.
, And the top side of each of the root conveyor chains 22a, 22b, 22c and the handling depth adjustment chain 23 is conveyed corresponding to the root side of the grain stem. Left, middle and right ear tip transfer lugs 25a,
The grain stalk transport device 5 is configured by arranging 25b and 25c.

【0014】前記扱深さ調節チェン23から引き継いで
前記脱穀機2へ供給する穀稈を、フィードチェン9、又
は脱穀短稈チェン9aへ各々切り替え供給する供給調節
チェン26の適宜位置を供給調節モータ27により前後
移動可能に配置する供給搬送装置15とを設けて構成さ
せる。図3に示す如く前記穀稈搬送装置5の左右の株元
搬送チェン22a,22cの各前端位置近傍において搬
送穀稈の有無をON−OFF検出する穀稈センサ前28
と、扱深さ調節チェン23の前部位置近傍において搬送
穀稈の有無をON−OFF検出する穀稈センサ後29
と、前記引起装置13の上部位置近傍において刈り取り
穀稈の稈長の長・短をON−OFF検出する稈長センサ
30と、該右穂先搬送ラグ22cの後部位置近傍におい
て搬送穀稈の扱深さ適応位置を穂先側の検出杆31a、
及び株元側の検出杆31bのON−OFFによって検出
する扱深さ適応センサ32とを各々作用可能に配置して
構成させる。
The appropriate position of the supply adjusting chain 26 which switches the grain culm which is taken over from the handling depth adjusting chain 23 and is supplied to the threshing machine 2 to the feed chain 9 or the threshing short culm chain 9a is set to an appropriate position. 27, a supply and transport device 15 which is disposed so as to be movable back and forth is provided. As shown in FIG. 3, in front of the cereal stalk sensor 28 for detecting ON / OFF of the cereal culm in the vicinity of each front end position of the left and right stock transfer chains 22a and 22c of the cereal culm conveying device 5
29, after the grain culm sensor for ON-OFF detecting the presence or absence of the transported grain culm near the front position of the handling depth adjusting chain 23.
And a culm length sensor 30 that detects ON / OFF the length of the culm length of the harvested grain culm in the vicinity of the upper position of the raising device 13, and a handling depth adaptation of the grain culm in the vicinity of the rear position of the right ear tip conveying rug 22c. The position is set to the tip side detection rod 31a,
And a handling depth adaptive sensor 32 that is detected by ON-OFF of the detection rod 31b on the stock base side is arranged so as to be operable.

【0015】前記刈取装置3を昇降させる上下回動支点
位置の近傍において刈高さをポテンショメータ等による
回動角度により検出する刈高センサ33と、扱深さ調節
チェン23の上下移動支点位置の近傍において搬送穀稈
の扱深さ調節位置をポテンショメータ等による回動角度
により検出する扱深さ位置センサ34とを作用可能に配
置すると共に、該刈高センサ33による高刈りの検出に
よって該扱深さ調節チェン23を、該扱深さ位置センサ
34により確認を行いながら扱深さ調節モータ24によ
って深扱ぎ側へ調節させる扱深さの調節手段35を構成
させる。
A cutting height sensor 33 for detecting a cutting height by a rotation angle of a potentiometer or the like near a vertical rotation fulcrum position for raising and lowering the cutting device 3, and a vicinity of a vertical movement fulcrum position of the handling depth adjusting chain 23. And a handling depth position sensor 34 for detecting the handling depth adjustment position of the transported grain culm by a rotation angle of a potentiometer or the like, and operatively disposed. The adjusting depth of the adjusting chain 23 is adjusted by the handling depth adjusting motor 24 to the deep handling side while being confirmed by the handling depth position sensor 34.

【0016】刈取作業時に刈取終端位置の畦際において
畦との衝突を避けるため、パワステレバー36の操作に
より、刈取装置3を昇降装置4で上昇させて高刈りを行
うときに、この高刈りを刈高センサ33によって検出し
たときは自動的に扱深さ調節チェン23を深扱ぎ側へ調
節させる畦際制御スイッチ37と、走行ミッション21
内に設けた無段変速装置による主変速を変速制御すると
共に、該刈取装置3をその上昇時に自動的に作動を停止
させる刈取自動停止スイッチ38aを設けた主変速レバ
ー38と、該刈取装置3を入・切する刈取クラッチ39
と、該走行ミッション21内に設けた副変速を変速切り
替えする副変速レバー40とを操作装置17に配置して
構成させる。又、扱ぎ深さ位置を手動で変更制御する扱
深手動スイッチ47を設けている。
In order to avoid collision with the ridge at the end of the ridge at the end position of the reaping during the mowing operation, when the mowing device 3 is raised by the lifting device 4 by operating the power steering lever 36 to perform high mowing, this high mowing is performed. A ridge control switch 37 for automatically adjusting the handling depth adjustment chain 23 to the deep handling side when detected by the cutting height sensor 33;
A main shift lever 38 provided with a cutting automatic stop switch 38a for controlling a speed change of a main shift by a continuously variable transmission provided therein and automatically stopping the operation of the reaper 3 when the reaper 3 is raised; Clutch 39 for turning on and off
And an auxiliary transmission lever 40 provided in the traveling transmission 21 and configured to switch an auxiliary transmission to shift the speed. Further, a manual operation switch 47 for manually changing and controlling the operation depth position is provided.

【0017】前記の刈取作業で畦際で高刈り作業が終了
して、前記パワステレバー36を操作により、刈取装置
3を昇降装置4で下降させて低刈りに変更されたとき
は、この刈取装置3の穀稈搬送装置5の株元搬送チェン
22cで搬送中の刈取穀稈が、一定距離搬送されるまで
は、例えば、移送始端部のこの刈取穀稈が移送終端部ま
で移送されるまでの間は、この穀稈搬送装置5の扱深さ
調節チェン23が深扱ぎ側へ調節されたままで、この刈
取穀稈は深扱ぎされている。この深扱ぎ位置を即時標準
扱ぎ深さ位置(浅扱ぎ)へ調節変更の制御が行われず
に、該株元搬送チェン22aの移送終端部まで、この搬
送中の刈取穀稈が搬送されると、該扱深さ調節チェン2
3は標準扱ぎ深さ位置へ調節変更の制御が行われる構成
である。
When the high mowing operation is completed at the ridge in the above-mentioned mowing operation and the mowing device 3 is lowered by the lifting device 4 by operating the power steering lever 36, the mowing device is changed to low mowing. Until the harvested grain culm being transported by the stock transport chain 22c of the grain culm transporting device 5 of the third is transported by a certain distance, for example, until the harvested grain culm of the transport start end is transported to the transport end. During this time, the cut grain culm is deeply handled while the handling depth adjusting chain 23 of the grain culm transport device 5 is adjusted to the deep handling side. The harvested culm being transported is transported to the transfer end portion of the stock transport chain 22a without performing the control of adjusting and changing the deep handling position to the standard handling depth position (shallow handling) immediately. Then, the handling depth adjustment chain 2
Reference numeral 3 denotes a configuration in which the control of the adjustment change to the standard handling depth position is performed.

【0018】前記操作装置17内には、制御装置41を
内装して設け、この制御装置41に設けた入力回路42
を経てCPU43へ車速センサ21a、穀稈センサ前・
後28,29、稈長センサ30、扱ぎ深さ適応センサ3
2、刈高センサ33、扱ぎ深さ位置センサ34、畦際制
御スイッチ37、及び刈取自動停止スイッチ38a等が
入力され、このCPU43から出力回路44を経て扱ぎ
深の調節手段35を介して、深扱ぎ調節リレー45a、
標準扱ぎ調節リレー45b、及び供給調節切換・標準・
深リレー46a,46b,46c等の始動、及び停止制
御して、扱ぎ深さを調節制御する構成である。
A control device 41 is provided inside the operation device 17 and an input circuit 42 provided in the control device 41 is provided.
To the CPU 43 via the vehicle speed sensor 21a and the grain stalk sensor.
Rear 28, 29, culm length sensor 30, handling depth adaptive sensor 3
2. The cutting height sensor 33, the handling depth position sensor 34, the ridge control switch 37, the automatic cutting stop switch 38a, and the like are input, and the CPU 43 passes through the output circuit 44 via the handling depth adjusting means 35 , Deep handling adjustment relay 45a,
Standard handling adjustment relay 45b and supply adjustment switching / standard
In this configuration, the starting and stopping of the deep relays 46a, 46b, 46c and the like are controlled to adjust and control the handling depth.

【0019】図1で示すフローチャートに沿って作用を
説明すると、コンバイン1の収穫作業が開始され(S−
101)、畦際制御スイッチ37等、及び各センサ21
a,28,29,30,32,33,34,37等の値
が読み込みされ(S−102)、該畦際制御スイッチ3
7がONか判定され(S−103)、ONと判定される
と(S−103)へ戻る。YESと判定されると刈取装
置3が下降制御され(S−104)、(S−103)と
(S−104)は穀稈搬送装置5の扱深さ調節チェン2
3は深扱ぎ側位置で刈取穀稈は、該穀稈搬送装置5で挾
持状態である。刈取穀稈は一定距離搬送されたか判定さ
れ(S−105)、ONと判定されると(S−105)
へ戻る。YESと判定されると該穀稈搬送装置5の供給
調節チェン26は標準扱ぎ深さ位置へ制御され(S−1
06)、調節制御は終了する(S−107)。
The operation will be described with reference to the flowchart shown in FIG. 1. The harvesting operation of the combine 1 is started (S-
101), ridge-side control switch 37, etc., and each sensor 21
The values of a, 28, 29, 30, 32, 33, 34, 37, etc. are read (S-102), and the row-side control switch 3 is read.
7 is turned on (S-103), and if it is turned on, the process returns to (S-103). If YES is determined, the mowing device 3 is controlled to descend (S-104), and (S-103) and (S-104) are the handling depth adjusting chains 2 of the grain culm conveying device 5.
Numeral 3 is a deep handling side position, in which the harvested grain culm is held by the grain culm transport device 5. It is determined whether the harvested grain culm has been transported a fixed distance (S-105), and if it is determined to be ON (S-105).
Return to If determined to be YES, the supply adjusting chain 26 of the grain culm transport device 5 is controlled to the standard handling depth position (S-1).
06), the adjustment control ends (S-107).

【0020】前記扱深手動スイッチ47の操作により、
扱深さ調節チェン23を最上げ位置へ作動させ、更に畦
際制御スイッチ37が深扱ぎ側への操作が継続され続け
ると、供給調節チェン26は深扱ぎ側へ作動され、その
状態から浅扱ぎ側への操作が行われると、逆の浅扱ぎ側
への逆作動する構成である。図6で示すフローチャート
に沿って作用を説明すると、コンバイン1の収穫作業が
開始され(S−201)、(S−202)へ進み、(S
−202)〜(S−206)は図示の如く制御され、
(S−203)でNOと判定されると(S−207)へ
進み、(S−207)〜(S−211)は図示の如く制
御され、(S−206)、及び(S−211)、又各ス
テップのNOと判定もリターンする(S−212)。
By operating the manual operation switch 47,
When the handling depth adjusting chain 23 is operated to the highest position, and the ridge control switch 37 is continuously operated to the deep handling side, the supply adjusting chain 26 is operated to the deep handling side, and from that state. When the operation to the shallow-hand side is performed, the reverse operation to the reverse shallow-hand side is performed. The operation will be described with reference to the flowchart shown in FIG. 6. The harvesting operation of the combine 1 is started (S-201), the process proceeds to (S-202), and the process proceeds to (S-202).
-202) to (S-206) are controlled as shown,
If NO is determined in (S-203), the process proceeds to (S-207), and (S-207) to (S-211) are controlled as illustrated, and (S-206) and (S-211). Also, the determination of NO in each step is also returned (S-212).

【0021】これにより、前記扱深手動スイッチ47を
操作したときのみ、供給調節チェン26を手動で作動可
能となり、便利に使用できる。前記扱深手動スッチ47
の操作により、扱深さ調節チェン23を最上げ位置へ作
動させ、更に深扱ぎ側へ操作すると、供給調節チェン2
6は深扱ぎ側へ操作され、その状態から浅扱ぎ側へ操作
すると、逆の浅扱ぎ側への逆作動する構成である。
As a result, the supply adjusting chain 26 can be manually operated only when the manual operation switch 47 is operated, so that it can be conveniently used. The handling depth manual switch 47
By operating the handle depth adjustment chain 23 to the highest position by the operation of, the supply adjustment chain 2
Reference numeral 6 denotes a configuration that is operated to the deep handling side, and when it is operated from that state to the shallow handling side, the operation reverses to the opposite shallow handling side.

【0022】図7−(イ)、及び図7−(ロ)で示すフ
ローチャートに沿って作用を説明すると、コンバイン1
の収穫作業が開始され(S−301)、(S−302)
へ進み、(S−302)〜(S−305)は図示の如く
制御され、(S−305)及び(S−304)のONと
判定もリターンする(S−306)。又、コンバイン1
の収穫作業が開始され(S−401)、(S−402)
へ進み、(S−402)〜(S−406)は図示の如く
制御され、リターンする(S−407)。
The operation will be described with reference to the flowcharts shown in FIGS. 7A and 7B.
Harvesting work is started (S-301), (S-302)
Then, (S-302) to (S-305) are controlled as shown, and the determination that (S-305) and (S-304) are ON is also returned (S-306). Also, combine 1
Harvesting work is started (S-401), (S-402)
Then, (S-402) to (S-406) are controlled as shown, and the process returns (S-407).

【0023】これにより、手動によって畦際での扱ぎ深
さ調節ができる。前記コンバイン1の走行装置8の車
速、及び刈取装置3の回転速度が高速、及び高回転のと
きと、低速、及び低回転のときとでは、供給調節チェン
26の制御を変更する構成である。図8で示すフローチ
ャートに沿って作用を説明すると、コンバイン1の収穫
作業が開始され(S−501)、(S−502)へ進
み、(S−502)〜(S−509)は図示の如く制御
され、(S−507)、及び(S−509)はリターン
される(S−511)。
Thus, it is possible to manually adjust the handling depth near the ridge. The control of the supply adjusting chain 26 is changed when the vehicle speed of the traveling device 8 of the combine 1 and the rotation speed of the reaper 3 are high and high, and when the rotation is low and low. The operation will be described with reference to the flowchart shown in FIG. 8. The harvesting operation of the combine 1 is started (S-501), and the process proceeds to (S-502), where (S-502) to (S-509) are as illustrated. It is controlled, and (S-507) and (S-509) are returned (S-511).

【0024】これにより、車速、及び回転速度に応じ扱
ぎ深さ制御を行うことにより、スムーズな搬送を行うこ
とができる。前記コンバイン1の穀稈搬送装置5の制御
は、図9で示すタイムチャートの如く供給調節チェン2
6の戻り開始(深扱ぎ→標準扱ぎ)の時間t1と戻り終
了の時間t2との作動時間差により、扱深さ調節チェン
23の戻り位置を変更制御する構成である。
Thus, smooth conveyance can be performed by controlling the handling depth according to the vehicle speed and the rotation speed. The control of the grain stalk conveying device 5 of the combine 1 is performed by the supply adjusting chain 2 as shown in the time chart of FIG.
By operating the time difference between the time t 2 of time t 1 and the return end of the 6 return start (depth threshing → standard rowing), it is configured to change control of the return position of the threshing depth adjusting chain 23.

【0025】図10で示すフローチャートに沿って作用
を説明すると、コンバイン1の収穫作業が開始され(S
−601)、(S−602)へ進み、(S−602)〜
(S−607)は図示の如く制御され、リターンする
(S−608)。これにより、畦際の刈取りから通常の
刈取りに移行するときに、搬送途中の刈取穀稈のこぼれ
を少くすることができて、搬送がスムーズである。
The operation will be described with reference to the flowchart shown in FIG. 10. The harvesting operation of the combine 1 is started (S
-601), proceed to (S-602) and proceed from (S-602) to
(S-607) is controlled as shown and returns (S-608). This makes it possible to reduce the spillage of the harvested culm during the transportation during the transition from the cutting at the ridge to the normal cutting, and the transportation is smooth.

【0026】前記コンバイン1で畦際制御スイッチ37
と刈取り自動停止スイッチ38aとが同時にON操作さ
れたときは、刈取り自動停止条件の穀稈センサ前・後2
8,29のONディレーを畦際制御の「切」時より、所
定時間(又は距離)を長く設定した構成である。図11
で示すフローチャートに沿って作用を説明すると、コン
バイン1の収穫作業が開始され(S−701)、(S−
702)へ進み(S−702)〜(S−708)は図示
の如く制御され、リターンする(S−709)。
The ridge control switch 37 in the combine 1
When the cutting automatic stop switch 38a is turned ON at the same time, the cutting automatic stop condition 2 before and after the grain culm sensor.
In this configuration, the ON delay of 8, 29 is set to a predetermined time (or distance) longer than when the ridge control is “off”. FIG.
The operation will be described with reference to the flowchart shown by (1). The harvesting operation of the combine 1 is started (S-701), and (S-701).
The process proceeds to step 702) (S-702) to (S-708) is controlled as shown, and returns (S-709).

【0027】これにより、畦際刈取り制御中に立毛穀稈
を押したおすことがあったが、この押したおしを防止で
きる。前記コンバイン1が停止中で、このコンバイン1
は作業モードで駆車ブレーキを踏むと、穀稈センサ前・
後28,29がOFFになるまで搬送途中の刈取穀稈を
搬送する構成である。
In this manner, the erected culm may be pushed down during the cutting control on the ridge, but this pushing can be prevented. The combine 1 is stopped and this combine 1
When the vehicle brake is depressed in the work mode,
This is a configuration in which the harvested culm during transportation is transported until the rear 28 and 29 are turned off.

【0028】図12で示すフローチャートに沿って作用
を説明すると、コンバイン1の収穫作業が開始され(S
−801)、(S−802)へ進み、(S−802)〜
(S−809)は図示の如く制御され、リターンする
(S−810)。これにより、穀稈を挾持したままで停
止中のときに、主変速レバー38の操作を行わなくて
も、駆車ブレーキを踏むだけで、刈取穀稈を搬送するこ
とができる。
The operation will be described with reference to the flowchart shown in FIG. 12. The harvesting work of the combine 1 is started (S
-801), proceed to (S-802) and proceed from (S-802)
(S-809) is controlled as shown and returns (S-810). This allows the harvested grain culm to be conveyed only by depressing the drive brake without operating the main transmission lever 38 when the grain culm is stopped with the grain stalk held therebetween.

【図面の簡単な説明】[Brief description of the drawings]

【図1】フローチャート図。FIG. 1 is a flowchart.

【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】刈取装置部の拡大平面図。FIG. 3 is an enlarged plan view of the reaper unit.

【図4】刈取装置部の拡大側面図。FIG. 4 is an enlarged side view of the reaper unit.

【図5】ブロック図。FIG. 5 is a block diagram.

【図6】他の実施例を示す図で、フローチャート図。FIG. 6 is a flow chart showing another embodiment.

【図7】他の実施例を示す図で、フローチャート図。FIG. 7 is a flow chart showing another embodiment.

【図8】他の実施例を示す図で、フローチャート図。FIG. 8 is a flow chart showing another embodiment.

【図9】他の実施例を示す図で、タイムチャート図。FIG. 9 is a diagram showing another embodiment, and is a time chart.

【図10】他の実施例を示す図で、フローチャート図。FIG. 10 is a flow chart showing another embodiment.

【図11】他の実施例を示す図で、フローチャート図。FIG. 11 is a flowchart showing another embodiment, and is a flowchart.

【図12】他の実施例を示す図で、フローチャート図。FIG. 12 is a flowchart showing another embodiment, and is a flowchart.

【符号の説明】[Explanation of symbols]

3 刈取装置 4 昇降装置 5 穀稈搬送装置 35 調節手段 Reference Signs List 3 harvesting device 4 lifting device 5 grain stalk transport device 35 adjusting means

Claims (1)

【特許請求の範囲】[Claims] 【請求項1】 刈取装置3で立毛穀稈を刈取りのときに
畦際においては畦との衝突を避けるために該刈取装置3
を上昇制御する昇降装置4と、穀稈搬送装置5で搬送す
る該刈取穀稈の扱ぎ深さを調節する調節手段35とを設
けたコンバイン等において、畦際での高刈りが終了して
該昇降装置4で該刈取装置3を下降制御後に該刈取穀稈
が該穀稈搬送装置5で一定距離搬送されると該調節手段
35で該穀稈搬送装置5の扱ぎ深さを深扱ぎ側から標準
扱ぎ深側へ変更制御することを特徴とするコンバイン等
の畦際制御装置。
When the reaping culm is harvested by the reaping device, the reaping device is used to avoid collision with the ridge at the edge of the ridge.
In a combine or the like provided with an elevating device 4 for raising and lowering and an adjusting means 35 for adjusting the handling depth of the harvested grain culm transported by the grain culm transporting device 5, the high mowing on the ridge ends. When the cut culm is conveyed by the culm conveying device 5 for a predetermined distance after the mowing device 3 is controlled to be lowered by the elevating device 4, the handling depth of the cereal culm conveying device 5 is deeply handled by the adjusting means 35. A ridgeside control device for a combine or the like, characterized in that the control is performed to change from the cutting side to the standard handling depth side.
JP20183698A 1998-07-16 1998-07-16 Combine Expired - Fee Related JP3956492B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP20183698A JP3956492B2 (en) 1998-07-16 1998-07-16 Combine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP20183698A JP3956492B2 (en) 1998-07-16 1998-07-16 Combine

Publications (2)

Publication Number Publication Date
JP2000032831A true JP2000032831A (en) 2000-02-02
JP3956492B2 JP3956492B2 (en) 2007-08-08

Family

ID=16447708

Family Applications (1)

Application Number Title Priority Date Filing Date
JP20183698A Expired - Fee Related JP3956492B2 (en) 1998-07-16 1998-07-16 Combine

Country Status (1)

Country Link
JP (1) JP3956492B2 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001258365A (en) * 2000-03-22 2001-09-25 Iseki & Co Ltd Levee edge control system for combine harvester or the like

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001258365A (en) * 2000-03-22 2001-09-25 Iseki & Co Ltd Levee edge control system for combine harvester or the like
JP4543242B2 (en) * 2000-03-22 2010-09-15 井関農機株式会社 Combine

Also Published As

Publication number Publication date
JP3956492B2 (en) 2007-08-08

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