JPS633527Y2 - - Google Patents
Info
- Publication number
- JPS633527Y2 JPS633527Y2 JP1982190526U JP19052682U JPS633527Y2 JP S633527 Y2 JPS633527 Y2 JP S633527Y2 JP 1982190526 U JP1982190526 U JP 1982190526U JP 19052682 U JP19052682 U JP 19052682U JP S633527 Y2 JPS633527 Y2 JP S633527Y2
- Authority
- JP
- Japan
- Prior art keywords
- operating tool
- neutral
- sensor
- swinging member
- contact
- 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
Links
- 230000007935 neutral effect Effects 0.000 claims description 43
- 230000005540 biological transmission Effects 0.000 claims description 14
- 238000001514 detection method Methods 0.000 claims description 7
- 238000003825 pressing Methods 0.000 claims description 2
- 239000007858 starting material Substances 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 238000001816 cooling Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000005096 rolling process Methods 0.000 description 1
Landscapes
- Arrangement And Mounting Of Devices That Control Transmission Of Motive Force (AREA)
- Auxiliary Drives, Propulsion Controls, And Safety Devices (AREA)
Description
【考案の詳細な説明】
本考案は、トラクタ等の作業車で、詳しくは油
圧式無段変速装置を前進域と後進域とに亘つて変
速操作可能な操作具と、前記操作具が変速中立位
置にあることを検出する接触式のセンサーとを備
え、前記センサーよる検出結果に基づいて、前記
操作具が変速中立位置にあるときにのみエンジン
の始動を許容する牽制機構を設けてあるエンジン
始動安全装置付き作業車に関する。[Detailed Description of the Invention] The present invention relates to a work vehicle such as a tractor, and more specifically, the present invention includes an operating tool that can shift a hydraulic continuously variable transmission between a forward range and a reverse range; A contact-type sensor that detects the position of the engine, and a check mechanism that allows the engine to start only when the operating tool is in a neutral gear shift position based on the detection result of the sensor. Regarding work vehicles with safety devices.
この種の作業車は、エンジン始動の際、作業者
が変速操作具を変速中立位置に操作することを忘
れたり、或いは誤操作した場合、変速装置が前進
変速状態や後進変速状態に操作された状態のまま
でエンジン始動が行われて、機体が不測に前進又
は後進するといつたことがないように、変速操作
具が変速中立位置にあるときにのみ、エンジンを
始動できるようにしたものであるが、従来、例え
ば実公昭47−21029号公報に記載されているよう
に、変速操作具の操作経路のうちの変速中立位置
に接触式のセンサーの感知部を位置させ、この感
知部と変速操作具との直接的な接触により、変速
操作具が変速中立位置にあることを検出するよう
に構成していたため、検出精度が劣る問題があつ
た。 In this type of work vehicle, when starting the engine, if the operator forgets to move the gear shift control tool to the neutral gear position, or if the operator makes a mistake, the gear shift device may be operated in the forward or reverse gear state. In order to prevent the aircraft from moving forward or backward unexpectedly if the engine is started while the gear is still in the position, the engine can only be started when the gear shift control tool is in the neutral gear position. Conventionally, for example, as described in Japanese Utility Model Publication No. 47-21029, a sensing part of a contact type sensor is located at the shift neutral position of the operating path of the speed change operating tool, and this sensing part and the speed change operating tool are connected to each other. Since the shift operating tool was configured to detect that it was in the neutral shift position by direct contact with the gear shift tool, there was a problem that the detection accuracy was poor.
即ち、変速操作具は変速中立位置を挾んで前進
域と後進域とに亘つて連続的に操作できるように
構成されており、この操作経路の途中位置にある
変速中立位置に操作具が操作されたことを検出す
るものであるから、例えば、第6図に示すよう
に、前進操作領域Fから変速中立位置Nに操作さ
れた変速操作具13に接当して変速操作具13が
変速中立位置Nに操作されたことを検出するよう
にセンサー25′を設けた場合、変速操作具13
を後進操作領域Rから変速中立位置Nに操作移動
させると、仮想線で示すように、変速操作具13
が変速中立位置Nに操作位置する前にセンサー2
5′がその変速操作具13に接当して検出作動す
るといつたように、変速中立位置だけでなく、変
速中立位置を挾む前後の一定範囲、つまり、前後
進の変速範囲を含む一定範囲に操作具が操作され
たときでも、操作具が変速中立位置にあるとして
判断され易く、検出精度が劣る問題があるのであ
る。 That is, the gear shift operating tool is configured so that it can be operated continuously across the forward range and the reverse range with the gear shifting neutral position in between, and when the operating tool is operated to the gear shifting neutral position located halfway along this operating path. For example, as shown in FIG. 6, when the shift operating tool 13 comes into contact with the shift operating tool 13 that has been operated from the forward operating region F to the shift neutral position N, the shift operating tool 13 moves to the shift neutral position. When the sensor 25' is provided to detect that the gear shift operation tool 13 is operated
When the shift operation tool 13 is operated and moved from the reverse operation area R to the shift neutral position N, as shown by the imaginary line, the shift operation tool 13
sensor 2 before reaching the shift neutral position N.
5' comes into contact with the gear shift operation tool 13 and the detection is activated, not only the gear shift neutral position but also a certain range before and after the gear shift neutral position, that is, a certain range including the forward and backward gear shifting range. Even when the operating tool is operated at the same time, it is likely to be determined that the operating tool is at the neutral shift position, resulting in a problem of poor detection accuracy.
そこで、操作具の案内溝に、操作具が正確に変
速中立位置に操作されたときにのみ係入可能な溝
を形成し、この溝に操作具が係入するように付勢
する手段が考えられるが、装置全体の組付けに精
度を要するとともに、別途、操作具に付勢機構を
設けなければならない等、製作コストが上昇する
問題が生じる。 Therefore, a method of forming a groove in the guide groove of the operating tool that can be inserted only when the operating tool is accurately operated to the neutral shift position, and biasing the operating tool to engage this groove has been considered. However, the assembly of the entire device requires precision, and a biasing mechanism must be separately provided to the operating tool, resulting in an increase in manufacturing costs.
その上、操作具との直接的な接触によつて操作
具の位置を検出する関係上、センサーの取付け位
置が限定され、設計上の自由度が少ない問題もあ
る。 Furthermore, since the position of the operating tool is detected by direct contact with the operating tool, the mounting position of the sensor is limited, and there is a problem that there is little freedom in design.
本考案は上記実状に鑑みて為されたものであつ
て、操作具を中立位置に復帰付勢する構造を有効
に利用することにより、簡単な構造で精度良く変
速操作具の操作位置が検出できるとともに、セン
サーの取付位置を比較的自由に設定できるように
することを目的とする。 The present invention was developed in view of the above-mentioned circumstances, and by effectively utilizing the structure that urges the operating tool to return to the neutral position, the operating position of the gear shift operating tool can be detected with high precision with a simple structure. At the same time, the purpose is to allow the mounting position of the sensor to be set relatively freely.
上記目的を達成する為の本考案の特徴構成は、
冒記したエンジン始動安全装置付き作業車におい
て、操作具の変速中立位置からの操作に連動し
て、中立姿勢を挾んで前進域と後進域とで互いに
逆方向に揺動する揺動部材と、前記揺動部材にロ
ーラを介して接当可能な接当部材と、前記接当部
材を付勢して、前記ローラを介して、前記揺動部
材にその枢支軸を通過する方向の押圧力を付与す
るスプリングとを設け、前記揺動部材と接当部材
とのうちの一方に前記ローラを枢支し、他方に、
前記揺動部材の中立姿勢からの揺動に伴つて前記
ローラを転動させて、前記接当部材を前記スプリ
ングの付勢力に抗して移動させ、かつ、前記スプ
リングの付勢力により、前記ローラを転動させ
て、前記揺動部材を中立姿勢に復帰させるカム面
を形成して、前記操作具を変速中立位置に復帰付
勢する付勢機構を構成し、前記操作具が変速中立
位置に復帰したときに、前記センサーの感知部を
前記接当部材に接触させて、前記操作具が変速中
立位置にあることを検出するように構成してある
点にあり、かかる構成から次の作用効果を奏す
る。 The characteristic structure of this invention to achieve the above purpose is as follows:
In the above-mentioned work vehicle with an engine start safety device, a swinging member that swings in opposite directions between a forward range and a reverse range between the neutral position in conjunction with the operation of the operating tool from the neutral position of gear change; a contact member that can come into contact with the swinging member via a roller; and a pressing force that urges the contact member to pass through the pivot shaft of the swinging member via the roller. the roller is pivotally supported on one of the swinging member and the abutment member, and the other is provided with a spring that imparts a
As the swinging member swings from the neutral position, the roller is rolled to move the abutment member against the biasing force of the spring, and the biasing force of the spring causes the roller to roll. forms a cam surface that causes the swinging member to return to the neutral position by rolling, thereby forming a biasing mechanism that urges the operating tool to return to the neutral shift position, and the operating tool returns to the neutral shift position. The present invention is configured to bring the sensing portion of the sensor into contact with the abutting member to detect that the operating tool is in the gear shift neutral position when the operating tool returns, and the following effects can be obtained from this configuration. play.
即ち、操作具と無段変速装置との連係機構中の
任意の箇所に設け易い、操作具を変速中立位置に
復帰付勢する付勢機構の連動部材に接触るように
センサーを設け、これによつて操作具が変速中立
位置にあることを検出するように構成したから、
付勢機構にセンサーが付設されるものの、付勢機
構の取付け位置を選択することによつて、比較
的、任意の箇所にセンサーを設けることができ
る。 That is, a sensor is provided in contact with the interlocking member of the biasing mechanism that biases the operating tool to return to the neutral position, which can be easily installed at any location in the linking mechanism between the operating tool and the continuously variable transmission. Therefore, since it is configured to detect that the operating tool is in the gear shift neutral position,
Although a sensor is attached to the biasing mechanism, the sensor can be provided at a relatively arbitrary location by selecting the mounting position of the biasing mechanism.
そして、付勢機構中に設けられる連動部材のう
ち、変速中立位置において、その移動範囲の一端
側に位置し、変速中立位置から前後進いずれの方
向に変速操作されても、この移動範囲の一端側か
ら同一方向に移動される接当部材にセンサーを接
触させて、変速中立位置にあることを検出するか
ら、簡単な構造で精度良く操作具が変速中立位置
にあることを検出できるに至つた。 Among the interlocking members provided in the biasing mechanism, the interlocking member is located at one end of its movement range at the neutral speed change position, and even when the speed is changed from the neutral speed position in either the forward or backward direction, one end of this movement range Since the sensor is brought into contact with the contact member that is moved from the side in the same direction to detect that the gear is in the neutral position, it has become possible to detect that the operating tool is in the neutral gear position with a simple structure and with high accuracy. .
以下、本考案構成の実施例を図面に基づいて説
明する。 Hereinafter, embodiments of the configuration of the present invention will be described based on the drawings.
車体フレーム1の前部にエンジン2を防振支持
させるとともに、車体フレーム1の後部に、前記
エンジン2に軸3を介して連動する冷却フアン付
きの前後進切換可能な油圧式無段変速装置5と減
速装置6及びデフ装置7とを連結して成る伝動ユ
ニツト8を固定支持させ、かつ、前後車輪9,1
0間に装備させたモアー等の作業装置11を駆動
するための動力取出軸12を装備させてあるトラ
クタ(作業車の一例)であつて、前記変速装置5
の操作系及びエンジン始動安全装置は、次のよう
に構成されている。 An engine 2 is supported in a vibration-proof manner at the front of the vehicle body frame 1, and a hydraulic continuously variable transmission 5 with a cooling fan connected to the engine 2 via a shaft 3 and capable of switching forward and backward is provided at the rear of the vehicle body frame 1. A transmission unit 8 formed by connecting a reduction gear 6 and a differential gear 7 is fixedly supported, and the front and rear wheels 9, 1 are fixedly supported.
A tractor (an example of a working vehicle) is equipped with a power take-off shaft 12 for driving a working device 11 such as a mower installed between the transmission gear 5 and the
The operating system and engine start safety device are configured as follows.
変速操作系は、操作具の一例としての運動部足
元部に横軸芯a周りに揺動自在な操作ペダル13
を設けるとともに、このペダル13の枢支軸14
に固着のアーム15と、前記変速装置5の上下姿
勢のトラニオン軸5aに固着の操作アーム16と
をロツド17で連動連結して構成してあり、前記
伝動ユニツト8に連設のステー22には、前記操
作アーム16の揺動範囲、つまり、最大前進位置
と最大後進位置とを接当規制するストツパーボル
ト対22,23を設けてある。前記ペダル枢支軸
14に揺動部材18を固着し、この揺動部材18
に形成させたV字形のカム面19に、スプリング
Sによつて揺動付勢される揺動アーム式の接当部
材21に枢支されるローラ20を接当させて、弾
性的に押圧し、前記ペダル13を変速中立位置に
復帰付勢する付勢機構Aを構成してある。 The speed change operation system includes an operation pedal 13, which is an example of an operation tool, and is located at the foot of the movement section and is swingable around a horizontal axis a.
and a pivot shaft 14 of this pedal 13.
An arm 15 fixed to the transmission unit 5 and an operating arm 16 fixed to the trunnion shaft 5a in the vertical position of the transmission 5 are interlocked and connected by a rod 17, and a stay 22 connected to the transmission unit 8 has a A pair of stopper bolts 22 and 23 are provided to limit the swing range of the operating arm 16, that is, the maximum forward position and the maximum reverse position. A swinging member 18 is fixed to the pedal pivot shaft 14, and the swinging member 18
A roller 20 pivotally supported by a swinging arm type abutment member 21 that is swing-biased by a spring S is brought into contact with the V-shaped cam surface 19 formed in the cam surface 19 to elastically press it. , constitutes a biasing mechanism A that biases the pedal 13 to return to the gear shift neutral position.
前記変速装置5は、ペダル13が中立位置から
その前端を下方に変位させる方向に揺動するにつ
れて前進速度を増大させ、かつ、ペダル13が中
立位置からその後退を下方に変位させる方向に揺
動するにつれて後進速度を増大させるものであ
る。 The transmission device 5 increases the forward speed as the pedal 13 swings from the neutral position in a direction that displaces its front end downward, and the pedal 13 swings in a direction that displaces its backward end downward from the neutral position. As the speed increases, the reverse speed increases.
前記エンジン始動安全装置は、前記ペダル13
が変速中立位置に移動位置しているか否かを前記
接当部材21を介して検出するセンサー25と前
記動力取出軸12への伝動機構中に介装されたベ
ルトテンシヨン式クラツチ26の操作レバー27
切り操作位置にあるか否かを検出するセンサー2
8とを設けるとともに、これら両センサー25,
28がともに有検出状態にあるときにのみ、エン
ジン2の始動を許容する牽制機構29を設けて、
構成されている。 The engine starting safety device includes the pedal 13
a sensor 25 for detecting whether or not the transmission gear has been moved to a neutral position through the contact member 21; and a control lever for a belt tension type clutch 26 interposed in the transmission mechanism to the power take-off shaft 12. 27
Sensor 2 that detects whether it is in the cut operation position
8, and both of these sensors 25,
A check mechanism 29 is provided that allows the engine 2 to start only when both 28 are in the presence detection state,
It is configured.
前記の前者センサー25は、前記接当部材21
が変速中立位置にあるとき、この接当部材21に
接当してONし、かつ接当部材21が変速位置に
あるとき、接当部材21との接当が解除されて
OFFするスイツチである。 The former sensor 25 is the contact member 21
When is in the neutral shift position, it comes into contact with this contact member 21 and is turned ON, and when the contact member 21 is in the shift position, the contact with the contact member 21 is released.
This is a switch that turns it off.
前記の後者センサー28は、クラツチ操作レバ
ー27が切り操作位置にあるとき、このクラツチ
操作レバー27に接当してONし、かつ、クラツ
チ操作レバー27が入り操作位置にあるとき、接
当解除してOFFするスイツチである。 The latter sensor 28 contacts the clutch operating lever 27 and turns ON when the clutch operating lever 27 is in the disengaged operating position, and releases the contact when the clutch operating lever 27 is in the engaged operating position. This is a switch that turns OFF.
前記牽制機構29は、バツテリー30、スター
タモータ31、メインスイツチ32、スターター
スイツチ33を備えたエンジン始動回路34に、
前記スタータースイツチ33に対して直列接続す
る状態に前記両センサー25,28を介装して、
構成されている。 The check mechanism 29 includes an engine starting circuit 34 that includes a battery 30, a starter motor 31, a main switch 32, and a starter switch 33.
Both the sensors 25 and 28 are interposed in series connection with the starter switch 33,
It is configured.
尚、実用新案登録請求の範囲の項に図面との対
照を便利にする為に符号を記すが、該記入により
本考案は添付図面の構造に限定されるものではな
い。 Note that although reference numerals are written in the claims section of the utility model registration for convenience of comparison with the drawings, the present invention is not limited to the structure of the attached drawings by such entry.
第1図乃至第5図は実施例を示し、第1図は一
部切欠き側面図、第2図は要部の拡大縦断側面
図、第3図は要部の拡大横断平面図、第4図は要
部の拡大平面図、第5図は回路図である。第6図
は従来例説明に用いた概略図である。
5……油圧式無段変速装置、13……変速操作
具、19……カム面、14……枢支軸、18……
揺動部材、20……ローラ、21……接当部材、
A……付勢機構、S……スプリング、25……セ
ンサー、29……牽制機構、12……動力取出
軸、28……センサー、2……エンジン。
Figures 1 to 5 show an embodiment, where Figure 1 is a partially cutaway side view, Figure 2 is an enlarged longitudinal sectional side view of the main part, Figure 3 is an enlarged cross-sectional plan view of the main part, and Figure 4 is an enlarged cross-sectional side view of the main part. The figure is an enlarged plan view of the main part, and FIG. 5 is a circuit diagram. FIG. 6 is a schematic diagram used to explain the conventional example. 5... Hydraulic continuously variable transmission device, 13... Speed change operating tool, 19... Cam surface, 14... Pivot shaft, 18...
Swing member, 20... roller, 21... contact member,
A...Biasing mechanism, S...Spring, 25...Sensor, 29...Checking mechanism, 12...Power take-off shaft, 28...Sensor, 2...Engine.
Claims (1)
亘つて変速操作可能な操作具13と、前記操作
具13が変速中立位置にあることを検出する接
触式のセンサー25とを備え、前記センサー2
5による検出結果に基づいて、前記操作具13
が変速中立位置にあるときにのみエンジン2の
始動を許容する牽制機構29を設けてあるエン
ジン始動安全装置付き作業車において、前記操
作具13の変速中立位置からの操作に連動し
て、中立姿勢を挾んで前進域と後進域とで互い
に逆方向に揺動する揺動部材18と、前記揺動
部材18にローラ20を介して接当可能な接当
部材21と、前記接当部材21を付勢して、前
記ローラ20を介して、前記揺動部材18にそ
の枢支軸14を通過する方向の押圧力を付与す
るスプリングSとを設け、前記揺動部材18と
接当部材21とのうちの一方に前記ローラ20
を枢支し、他方に、前記揺動部材18の中立姿
勢からの揺動に伴つて前記ローラ20を転動さ
せて、前記接当部材21を前記スプリングSの
付勢力に抗して移動させ、かつ、前記スプリン
グSの付勢力により、前記ローラ20を転動さ
せて、前記揺動部材18を中立姿勢に復帰させ
るカム面19を形成して、前記操作具13を変
速中立位置に復帰付勢する付勢機構Aを構成
し、前記操作具13が変速中立位置に復帰した
ときに、前記センサー25の感知部を前記接当
部材21に接触させて、前記操作具13を変速
中立位置にあることを検出するように構成して
あることを特徴とするエンジン始動安全装置付
き作業車。 2 対象作業車が、作業装置駆動用の動力取出軸
12を備えたトラクタである実用新案登録請求
の範囲第1項に記載のエンジン始動安全装置付
き作業車。 3 前記牽制機構29が、前記動力取出軸12へ
の伝動機構中に介装されたクラツチ26の操作
具27が切り操作位置にあるか否かを検出する
センサー28と、前記センサー25とがともに
有検出状態にあるときにのみ、エンジン2の始
動を許容するものである実用新案登録請求の範
囲第2項に記載のエンジン始動安全装置付き作
業車。[Claims for Utility Model Registration] 1. An operating tool 13 capable of shifting the hydraulic continuously variable transmission 5 between a forward range and a reverse range, and a contact for detecting that the operating tool 13 is in a neutral shift position. The sensor 25 is provided with a sensor 25 of the formula
Based on the detection result by 5, the operating tool 13
In a work vehicle equipped with an engine start safety device that is provided with a check mechanism 29 that allows the engine 2 to start only when the control tool 13 is in the neutral gear position, the neutral position is set in conjunction with the operation of the operating tool 13 from the neutral gear position. a swinging member 18 that swings in opposite directions between the forward movement region and the reverse movement region while sandwiching the swinging member 18; A spring S is provided which biases and applies a pressing force to the swinging member 18 in the direction of passing through the pivot shaft 14 via the roller 20, and the swinging member 18 and the abutting member 21 are connected to each other. the roller 20 on one of the
and on the other hand, as the swinging member 18 swings from the neutral position, the roller 20 is rolled to move the contact member 21 against the biasing force of the spring S. , and a cam surface 19 is formed that causes the roller 20 to roll by the urging force of the spring S to return the swinging member 18 to the neutral position, thereby returning the operating tool 13 to the neutral position for shifting. A biasing mechanism A is configured to force the operating tool 13 to return to the neutral shift position by bringing the sensing portion of the sensor 25 into contact with the contact member 21 when the operating tool 13 returns to the neutral shift position. A work vehicle equipped with an engine start safety device, characterized in that it is configured to detect a certain occurrence. 2. A working vehicle with an engine start safety device according to claim 1, wherein the target working vehicle is a tractor equipped with a power take-off shaft 12 for driving a working device. 3. The check mechanism 29 includes a sensor 28 that detects whether or not the operating tool 27 of the clutch 26, which is interposed in the transmission mechanism to the power take-off shaft 12, is in the cut operation position, and the sensor 25. A work vehicle equipped with an engine start safety device according to claim 2, which allows the engine 2 to start only when the detection state is detected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP19052682U JPS5993931U (en) | 1982-12-15 | 1982-12-15 | Work vehicle with engine starting safety device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP19052682U JPS5993931U (en) | 1982-12-15 | 1982-12-15 | Work vehicle with engine starting safety device |
Publications (2)
Publication Number | Publication Date |
---|---|
JPS5993931U JPS5993931U (en) | 1984-06-26 |
JPS633527Y2 true JPS633527Y2 (en) | 1988-01-28 |
Family
ID=30410499
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP19052682U Granted JPS5993931U (en) | 1982-12-15 | 1982-12-15 | Work vehicle with engine starting safety device |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPS5993931U (en) |
-
1982
- 1982-12-15 JP JP19052682U patent/JPS5993931U/en active Granted
Also Published As
Publication number | Publication date |
---|---|
JPS5993931U (en) | 1984-06-26 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP3781864B2 (en) | Automotive brake pedal equipment | |
US11421782B2 (en) | Drum-type transmission device | |
JPS633527Y2 (en) | ||
CA1143456A (en) | Vehicle motion alarm | |
JPH03239868A (en) | Select mechanism of automatic transmission | |
US5031736A (en) | Column-mounted gear selector mechanism for automatic transmission | |
JP3822744B2 (en) | Work vehicle | |
JP4378201B2 (en) | Work vehicle | |
JP3933384B2 (en) | Transmission | |
JPS625942Y2 (en) | ||
KR102252894B1 (en) | Device for sensing nwtral position of a gear shifting lever for a tractor | |
JPH0310334Y2 (en) | ||
JPH02119557U (en) | ||
JPS6011186Y2 (en) | construction work vehicle | |
JP3568422B2 (en) | Gear shift neutral detector for work equipment | |
JP5391161B2 (en) | Switching operation device | |
JP3158049B2 (en) | Work vehicle traveling speed change structure | |
JP2763723B2 (en) | Work vehicle traveling restraint structure | |
JPH0676027B2 (en) | Work vehicle braking system | |
JPS5839221Y2 (en) | walk-behind tiller | |
JPS5816898Y2 (en) | Walking type mobile agricultural machine | |
JPS6311016Y2 (en) | ||
JP4453260B2 (en) | Work vehicle | |
JPH085414Y2 (en) | Remote transmission for work vehicles | |
JP2536535Y2 (en) | Tractor starting safety device |