JP3431588B2 - Crawler traveling device - Google Patents
Crawler traveling deviceInfo
- Publication number
- JP3431588B2 JP3431588B2 JP2000290441A JP2000290441A JP3431588B2 JP 3431588 B2 JP3431588 B2 JP 3431588B2 JP 2000290441 A JP2000290441 A JP 2000290441A JP 2000290441 A JP2000290441 A JP 2000290441A JP 3431588 B2 JP3431588 B2 JP 3431588B2
- Authority
- JP
- Japan
- Prior art keywords
- fulcrum
- machine body
- traveling device
- crawler traveling
- lubricating oil
- 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 - Fee Related
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Description
【0001】[0001]
【発明の属する技術分野】本発明は、農作業車や土木用
或いは建設用の作業車などに設けてあるクローラ走行装
置に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a crawler traveling device provided in an agricultural work vehicle, a work vehicle for civil engineering or construction, and the like.
【0002】[0002]
【従来の技術】従来のクローラ走行装置は、クローラベ
ルトの接地側を案内する複数の接地転輪と、各接地転輪
を回転自在に支持する軸受け用ボス部とを設け、各軸受
け用ボス部の内側に潤滑油を注入するために、各軸受け
用ボス部毎にその軸受け用ボス部の内側に連通する潤滑
油注入路を設けて、各軸受け用ボス部毎に、潤滑油注入
路を通して潤滑油を注入するようにしている。2. Description of the Related Art A conventional crawler traveling device is provided with a plurality of grounding wheels for guiding the ground side of a crawler belt and a bearing boss portion for rotatably supporting each grounding roller. In order to inject lubricating oil into the inside of each bearing, a lubricating oil injection passage communicating with the inside of the bearing boss is provided for each bearing boss, and lubricating is performed through the lubricating oil injection passage for each bearing boss. I try to inject oil.
【0003】[0003]
【発明が解決しようとする課題】このため、各軸受け用
ボス部毎に潤滑油を注入しなければならないので、メン
テナンスに手間がかかる欠点がある。Therefore, since lubricating oil must be injected into each bearing boss, maintenance is troublesome.
【0004】本発明は上記実情に鑑みてなされたもので
あって、接地転輪のメンテナンスの手間を軽減できるよ
うにすることを目的とする。The present invention has been made in view of the above circumstances, and it is an object of the present invention to reduce the time and effort required for maintenance of a ground roller.
【0005】[0005]
【課題を解決するための手段】請求項1記載の発明の特
徴構成は、トラックフレームに設けた支点軸に回動自在
に外嵌する支点用ボス部と、クローラベルトの接地側を
案内する接地転輪を回転自在に支持する複数の軸受け用
ボス部とを備えた転輪ブラケットを設けて、走行方向で
隣り合う接地転輪を前記支点軸周りで天秤揺動自在に支
持し、前記支点用ボス部の内側に連通する潤滑油注入路
を、前記軸受け用ボス部の内側に連通してある点にあ
る。According to a first aspect of the present invention, there is provided a fulcrum boss portion rotatably fitted on a fulcrum shaft provided on a track frame, and a ground for guiding a ground side of a crawler belt. By providing a rolling wheel bracket having a plurality of boss portions for bearings that rotatably support the rolling wheels, the grounding rolling wheels that are adjacent in the running direction are supported so that they can swing freely around the fulcrum axis, and A lubricating oil injection passage communicating with the inside of the boss portion is communicated with the inside of the bearing boss portion.
【0006】〔作用〕トラックフレームに設けた支点軸
に回動自在に外嵌する支点用ボス部と、クローラベルト
の接地側を案内する接地転輪を回転自在に支持する複数
の軸受け用ボス部とを備えた転輪ブラケットを設けて、
走行方向で隣り合う接地転輪を支点軸周りで天秤揺動自
在に支持するので、支点軸を挟む一方側に支持した接地
転輪が上方に揺動すると、他方側に支持した接地転輪が
下方に揺動する状態で、それらの接地転輪の相対上下動
を大きくしながら、その接地転輪の上下動に伴うクロー
ラ走行装置全体の上下動を少なくすることができる。[Operation] A fulcrum boss that is rotatably fitted on a fulcrum shaft provided on a track frame, and a plurality of bearing bosses that rotatably support a ground roller that guides the ground side of the crawler belt. By providing a wheel bracket with
Since the grounding wheels adjacent to each other in the traveling direction are swingably supported around the fulcrum shaft, when the grounding wheels supported on one side sandwiching the fulcrum shaft swing upward, the grounding wheels supported on the other side are moved. It is possible to reduce the vertical movement of the entire crawler traveling device associated with the vertical movement of the grounding wheels while increasing the relative vertical movement of the grounding rollers while swinging downward.
【0007】また、支点用ボス部の内側に連通する潤滑
油注入路を、軸受け用ボス部の内側に連通してあるの
で、潤滑油注入路から支点用ボス部の内側に潤滑油を注
入する際に、その潤滑油注入路を通して、軸受け用ボス
部の内側にも潤滑油を注入できる。Further, since the lubricating oil injection passage communicating with the inside of the fulcrum boss portion is communicated with the inside of the bearing boss portion, the lubricating oil is injected from the lubricating oil injection passage into the inside of the fulcrum boss portion. At this time, the lubricating oil can be injected into the inside of the bearing boss portion through the lubricating oil injection passage.
【0008】〔効果〕走行方向で隣り合う接地転輪の相
対上下動を大きくして、各接地転輪が走行面の凹凸に対
してスムーズに追従できるようにしながら、クローラ走
行装置全体の上下動を少なくして、安定して走行させる
ことができるとともに、支点用ボス部の内側に潤滑油を
注入する際に、軸受け用ボス部の内側にも潤滑油を注入
できるので、接地転輪のメンテナンスの手間を軽減でき
る。[Effect] The vertical movement of the entire crawler traveling device is increased while increasing the relative vertical movement of the grounding wheels adjacent to each other in the traveling direction so that each grounding roller can smoothly follow the unevenness of the traveling surface. It is possible to make the vehicle run stably with less oil and to inject lubricating oil into the bearing boss when injecting lubricating oil into the fulcrum boss. You can reduce the effort.
【0009】請求項2記載の発明の特徴構成は、前記転
輪ブラケットを鋳物で一体形成し、前記支点用ボス部の
内側と前記軸受け用ボス部の内側とを連通する連通路を
前記転輪ブラケットの一端側から切削形成するととも
に、前記連通路の一端側開口部を塞ぐプラグを設けて、
前記潤滑油注入路を前記軸受けボス部の内側に連通して
ある点にある。According to a second aspect of the present invention, the rolling wheel bracket is integrally formed by casting, and a communication passage that connects the inner side of the fulcrum boss portion and the inner side of the bearing boss portion is provided with the rolling wheel. While cutting from one end side of the bracket, a plug for closing the one end side opening of the communication passage is provided,
The lubricating oil injection passage is communicated with the inside of the bearing boss portion.
【0010】〔作用〕転輪ブラケットを鋳物で一体形成
して、支点用ボス部の内側と軸受け用ボス部の内側とを
連通する連通路を転輪ブラケットの一端側から切削形成
し、連通路の一端側開口部を塞ぐプラグを設けて、潤滑
油注入路を軸受けボス部の内側に連通してあるので、潤
滑油注入路と軸受け用ボス部の内側とを連通する潤滑油
注入用の配管部材が不要になる。[Operation] The rolling wheel bracket is integrally formed by casting, and a communication passage that connects the inside of the fulcrum boss portion and the inside of the bearing boss portion is formed by cutting from one end side of the rolling wheel bracket, and the communication passage is formed. Since a plug that closes the opening on one end side is provided to connect the lubricating oil injection path to the inside of the bearing boss, a pipe for lubricating oil injection that connects the lubricating oil injection path and the inside of the bearing boss No members are needed.
【0011】〔効果〕クローラ走行装置の構造の簡略化
を図ることができる。[Effect] The structure of the crawler traveling device can be simplified.
【0012】[0012]
【発明の実施の形態】以下に本発明の実施の形態を図面
に基づいて説明する。
〔全体の構成〕図1はクローラ走行型作業車の一例とし
てのコンバイン( 農作業車の一例) を示し、稲、麦など
の植立穀稈を引き起こし処理するとともに刈り取り処理
した刈取り穀稈を機体後方に搬送する刈取り部1と、搭
乗型の運転部2と、刈取り部1からの刈取り穀稈を脱穀
処理する脱穀装置3と、脱穀装置3で脱穀した穀粒を貯
留する穀粒タンク4と、運転座席5の下方に位置するエ
ンジンEとを備えた走行機体Aを設け、この走行機体A
と左右一対のクローラ走行装置Bとを昇降駆動機構Cを
介して連結して、走行機体Aをクローラ走行装置Bに対
して駆動昇降自在に設けてある。BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. [Overall Configuration] FIG. 1 shows a combine (an example of an agricultural work vehicle) as an example of a crawler traveling type work vehicle, which causes planted grain culms such as rice and wheat to be treated and cut, and a mowed grain culm that has been mowed is placed behind the machine body. And a boarding type operation unit 2, a threshing device 3 for threshing the cut grain culms from the mowing unit 1, and a grain tank 4 for storing grains threshed by the threshing device 3, A traveling machine body A including an engine E located below the driver's seat 5 is provided.
And a pair of right and left crawler traveling devices B are connected via an elevating drive mechanism C, and the traveling machine body A is provided so as to be capable of being driven up and down relative to the crawler traveling device B.
【0013】〔クローラ走行装置〕図2〜図5に示すよ
うに、クローラ走行装置Bの各々は、機体フレーム6に
昇降駆動機構Cを介して駆動昇降自在に連結されたトラ
ックフレーム7と、トラックフレーム7の機体前後方向
後端部に支持した緊張用遊転輪8と、クローラベルト1
2の接地側を案内する六個の接地転輪9と、機体フレー
ム6の機体前方側に支持した駆動輪10と、機体フレー
ム6の機体前後方向中間位置に支持した上部ガイド輪1
1とを設けて、これらの駆動輪10と接地転輪9と緊張
用遊転輪8と上部ガイド輪11とに亘ってゴム製のクロ
ーラベルト12を巻回して構成されている。[Crawler Traveling Device] As shown in FIGS. 2 to 5, each of the crawler traveling devices B includes a track frame 7 that is connected to a machine body frame 6 through a lifting drive mechanism C so as to be driven up and down, and a track. A tension free wheel 8 supported at the rear end of the frame 7 in the longitudinal direction of the machine body, and a crawler belt 1.
Six grounding wheels 9 for guiding the grounding side of the vehicle body 2, a driving wheel 10 supported on the front side of the machine body frame 6, and an upper guide wheel 1 supported on an intermediate position of the machine body frame 6 in the machine longitudinal direction.
1 is provided, and a rubber crawler belt 12 is wound around the drive wheel 10, the grounding wheel 9, the idle wheel 8 for tensioning, and the upper guide wheel 11.
【0014】前記トラックフレーム7は、角パイプ状の
主フレーム部分14と、その主フレーム部分14の下面
側に固定してある角パイプ状の補助フレーム部分15
と、主フレーム部分14の後端側に内接状態で嵌合して
機体前後方向に出退自在に装着された角パイプ状の延長
フレーム部分16とから構成され、その延長フレーム部
分16の後端部に緊張用遊転輪8が支持されている。The track frame 7 has a square pipe-shaped main frame portion 14 and a square pipe-shaped auxiliary frame portion 15 fixed to the lower surface side of the main frame portion 14.
And a rectangular pipe-shaped extension frame portion 16 fitted in the rear end side of the main frame portion 14 in an inscribed state so as to be able to move forward and backward in the machine body. An idle wheel 8 for tensioning is supported at the end.
【0015】前記緊張用遊転輪8は、延長フレーム部分
16に軸受け支持されているとともに、主フレーム部分
14の後端部にネジ機構を利用した位置調節機構17で
連結して、トラックフレーム7の機体前後方向での位置
調節、ならびに位置固定自在に設けられている。The tension free wheel 8 is supported by the extension frame portion 16 and is connected to the rear end portion of the main frame portion 14 by a position adjusting mechanism 17 using a screw mechanism, so that the track frame 7 is connected. It is provided to adjust the position of the vehicle in the front-back direction and to fix the position.
【0016】前記駆動輪10は、機体フレーム6に固定
された伝動ケースから動力が伝達されて、クローラベル
ト12と係合して駆動力を伝達するように設けられ、上
部ガイド輪11は、クローラベルト12の上部側の内周
面との接当により遊転回動するように機体フレーム6に
支持されている。The driving wheel 10 is provided so that power is transmitted from a transmission case fixed to the machine body frame 6 and engages with the crawler belt 12 to transmit the driving force. The upper guide wheel 11 is a crawler. The belt 12 is supported by the machine body frame 6 so as to rotate freely by contact with the inner peripheral surface on the upper side of the belt 12.
【0017】そして、機体フレーム6に対するトラック
フレーム7の上下方向での遠近移動や、前傾・後傾の姿
勢変化により、クローラベルト12の所要巻回長が多少
変化することに伴うベルト上部側の弛みを上部ガイド輪
11で規制することができるように、その機体フレーム
6上における配設位置が設定されている。Then, due to the vertical movement of the track frame 7 relative to the machine body frame 6 in the vertical direction and the change in the posture of forward and backward inclination, the required winding length of the crawler belt 12 slightly changes. The arrangement position on the machine body frame 6 is set so that the slack can be regulated by the upper guide wheel 11.
【0018】前記接地転輪9は、図6〜図11に示すよ
うに、回転軸20の両端に回転輪体21を固定して、各
回転輪体21がクローラベルト12の左右の芯金突起2
2の左右両側位置で、クローラベルト12の内周面に接
当するように設けてあり、機体前後方向( 走行方向) で
隣り合う二個の接地転輪9の組み合わせからなる三組に
分けるとともに、補助フレーム部分15に固定してある
三個の支点軸18周りの各々で揺動自在な三個の鋳物製
の転輪ブラケット19を設け、各組の二個の接地転輪9
をそれらの転輪ブラケット19の各々に回転自在に支持
して、支点軸18周りで天秤揺動自在に支持してある。As shown in FIGS. 6 to 11, the grounding roller 9 has a rotary wheel 21 fixed to both ends of a rotary shaft 20, and each rotary wheel 21 has left and right core metal projections of a crawler belt 12. Two
It is provided so as to contact the inner peripheral surface of the crawler belt 12 at both left and right sides of 2, and is divided into three sets consisting of a combination of two grounding wheels 9 which are adjacent to each other in the machine longitudinal direction (travel direction). , Three caster wheel brackets 19 made of casting, which are swingable around the three fulcrum shafts 18 fixed to the auxiliary frame portion 15, are provided, and two grounding roller wheels 9 of each set are provided.
Is rotatably supported on each of the wheel brackets 19 so that the balance can swing around the fulcrum shaft 18.
【0019】前記転輪ブラケット19は、支点軸18に
回動自在に外嵌する支点用ボス部23と、接地転輪9の
回転軸20を回転自在に支持する二個の軸受け用ボス部
24と、断面T字状の脱輪防止用の橇状ガイド25とを
一体鋳造して構成してあり、側面視で、支点軸18の支
点軸芯Xを通る直線上に各接地転輪9の回転軸芯Yが位
置する状態で、各接地転輪9が支点軸18を挟む対称の
位置に支持されるように、支点用ボス部23と二個の軸
受け用ボス部24とを設けてある。The rolling wheel bracket 19 has a fulcrum boss portion 23 rotatably fitted on the fulcrum shaft 18, and two bearing boss portions 24 rotatably supporting the rotary shaft 20 of the grounding roller 9. And a sled-shaped guide 25 for preventing derailment having a T-shaped cross section are integrally cast, and in a side view, each grounding roller 9 of each grounding roller 9 is on a straight line passing through the fulcrum axis X of the fulcrum shaft 18. A fulcrum boss portion 23 and two bearing boss portions 24 are provided so that each ground roller 9 is supported in a symmetrical position with the fulcrum shaft 18 in between when the rotation axis Y is located. .
【0020】つまり、支点軸芯Xを前後の接地転輪9の
回転軸芯Yどうしを結ぶ線分の中央に位置させることに
より、各接地転輪9の相対上下動を大きくして、各接地
転輪9が走行面の凹凸に対してスムーズに追従できるよ
うにしながら、走行機体Aの上下動を少なくして、乗り
心地良く安定して走行できるようにしてある。また、転
輪ブラケット19に橇状ガイド25を一体鋳造すること
により、転輪ブラケット19を補強すると共に、橇状ガ
イド25の取り付け構造の簡略化を図れるようにしてあ
る。In other words, by positioning the fulcrum axis X at the center of the line segment connecting the rotation axis Y of the front and rear grounding wheels 9, the relative vertical movement of each grounding roller 9 is increased, and each grounding is performed. While allowing the rolling wheels 9 to smoothly follow the irregularities of the traveling surface, the vertical movement of the traveling machine body A is reduced to allow the vehicle to travel stably with good riding comfort. Further, by integrally casting the sled guide 25 on the wheel bracket 19, the wheel bracket 19 is reinforced and the mounting structure of the sled guide 25 can be simplified.
【0021】また、三組の接地転輪9のうちの機体前後
方向で中間位置に設けてある組の接地転輪9を天秤揺動
自在に支持する支点軸18( 18a) を、後述する路上
走行時に、側面視で、走行機体Aの重心位置を通る鉛直
線Z近くに位置するように設けて( 図2参照) 、旋回走
行時の乗り心地を改善できるようにしてある。Further, a fulcrum shaft 18 (18a) for swingably supporting the set of the grounding roller 9 of the three grounding rollers 9 which is provided at an intermediate position in the longitudinal direction of the machine body on the road described later. It is provided so as to be located near the vertical line Z passing through the position of the center of gravity of the traveling body A when traveling (see FIG. 2) so that the riding comfort during turning traveling can be improved.
【0022】前記橇状ガイド25は、クローラベルト1
2の左右の芯金突起22の間に位置して、クローラベル
ト12の左右方向への移動を制限することによって、外
れ止めの機能を発揮するもので、橇状ガイド25のうち
の、側面視で前後の接地転輪9間に位置する中間部分2
6の下面側を、その前後部分の下面高さよりも高くなる
ように上方に入り込ませて、凹凸面の走行に伴うクロー
ラベルト12の機体側への入り込みを許容できるように
してある。The sled guide 25 is used for the crawler belt 1.
It is located between the left and right core metal protrusions 22 of the second guide 2, and exerts a function of preventing the crawler belt 12 from moving in the left-right direction. Intermediate portion 2 located between the front and rear grounding wheels 9
The lower surface side of 6 is made higher than the height of the lower surface of the front and rear portions thereof so that the crawler belt 12 can be allowed to enter the machine body side due to traveling of the uneven surface.
【0023】前記支点用ボス部23と支点軸18との隙
間に潤滑油としてのグリスを注入できるように、図9に
示すように、支点用ボス部23に、支点用ボス部23の
内側に連通する潤滑油注入路としてのグリス注入路27
とグリスニップル28とを設けてある。In order to inject grease as lubricating oil into the gap between the fulcrum boss portion 23 and the fulcrum shaft 18, as shown in FIG. Grease injection path 27 as a communicating lubricating oil injection path
And a grease nipple 28 are provided.
【0024】また、グリスニップル28から注入したグ
リスを、支点用ボス部23と支点軸18との隙間を通し
て、各軸受け用ボス部24の回転軸20との間のグリス
注入空間29にも注入できるように、支点用ボス部23
と各軸受け用ボス部24とを連結するアーム部分30
に、支点用ボス部23の内側と各軸受け用ボス部24の
内側とを連通する連通路31を転輪ブラケット19の一
端側から切削形成するとともに、その連通路31の切削
開始箇所である一端側開口部を塞ぐプラグ32を設け
て、グリス注入路27を各軸受け用ボス部24の内側に
連通してある。Further, the grease injected from the grease nipple 28 can be injected into the grease injection space 29 between the rotary shaft 20 of each bearing boss 24 through the gap between the fulcrum boss 23 and the fulcrum shaft 18. So that the boss 23 for the fulcrum
And an arm portion 30 for connecting the bearing boss portion 24 with each other.
In addition, the communication passage 31 that communicates the inside of the fulcrum boss portion 23 and the inside of each bearing boss portion 24 is cut and formed from one end side of the roller bracket 19, and one end of the communication passage 31 that is a cutting start point is formed. A plug 32 for closing the side opening is provided so that the grease injection passage 27 communicates with the inside of each bearing boss portion 24.
【0025】〔昇降駆動機構〕前記昇降駆動機構Cは、
図2〜図5に示すように、機体フレーム6とトラックフ
レーム7の各々とを各別に前後一対の揺動リンク13で
連結するとともに、各揺動リンク13を流体圧シリンダ
としての油圧シリンダ33の伸縮作動で各別に駆動揺動
させて、走行機体Aをクローラ走行装置Bに対して駆動
昇降させるように構成してある。[Lifting Drive Mechanism] The lifting drive mechanism C is
As shown in FIGS. 2 to 5, the body frame 6 and the track frame 7 are separately connected by a pair of front and rear swing links 13, and each swing link 13 is connected to a hydraulic cylinder 33 as a fluid pressure cylinder. It is configured such that the traveling machine body A is driven and lifted up and down with respect to the crawler traveling device B by drivingly swinging each by expansion and contraction operation.
【0026】前記前後一対の揺動リンク13は、機体前
方側に設けた前部揺動リンク34と機体後方側に設けた
後部揺動リンク35とで構成してあり、前部揺動リンク
34を駆動揺動する前部油圧シリンダ36と後部揺動リ
ンク35を駆動揺動する後部油圧シリンダ37とを機体
フレーム6側に設けて、各揺動リンク34,35を各別
に駆動揺動させることができるようしてある。The pair of front and rear swing links 13 is composed of a front swing link 34 provided on the front side of the machine body and a rear swing link 35 provided on the rear side of the machine body. A front hydraulic cylinder 36 for driving and rocking the rear rocking link 35 and a rear hydraulic cylinder 37 for driving and rocking the rear rocking link 35 are provided on the machine body frame 6 side, and the rocking links 34, 35 are driven and rocked separately. I am able to do it.
【0027】前記前部揺動リンク34は、図10にも示
すように、その屈折点箇所近くが機体フレーム6に横軸
周りで揺動自在に軸支されたベルクランク状のリンク部
材38を設けて構成され、その軸支箇所から一方向へ延
びる第1延出腕部分39が前部油圧シリンダ36に連結
され、他方向へ延びる第2延出腕部分40が、トラック
フレーム7の上部に固定した前部支軸41に揺動自在に
枢支連結されている。As shown in FIG. 10, the front swing link 34 is provided with a bell crank-shaped link member 38 whose pivot point is pivotally supported on the machine body frame 6 about the horizontal axis in the vicinity of its bending point. A first extending arm portion 39, which is provided and extends in one direction from the pivot point, is connected to the front hydraulic cylinder 36, and a second extending arm portion 40 extending in the other direction is provided on the upper portion of the track frame 7. It is swingably and pivotally connected to the fixed front support shaft 41.
【0028】前記後部揺動リンク35は、図11にも示
すように、その屈折点箇所近くが機体フレーム6に横軸
周りで揺動自在に軸支されたベルクランク状の第1アー
ム42と、トラックフレーム7に揺動自在に枢支連結さ
れた第2アーム43とを揺動自在に連結して構成され、
第1アーム42の軸支箇所から一方向へ延びる第1延出
腕部分44が後部油圧シリンダ37に連結され、他方向
へ延びる第2延出腕部分45が後部支軸46を介して第
2アーム43に揺動自在に枢支連結されている。As shown in FIG. 11, the rear swing link 35 has a bell crank-shaped first arm 42 which is pivotally supported by the body frame 6 about the horizontal axis in the vicinity of its bending point. , A second arm 43 pivotally connected to the track frame 7 so as to be swingably connected,
A first extension arm portion 44 extending in one direction from the pivotal support portion of the first arm 42 is connected to the rear hydraulic cylinder 37, and a second extension arm portion 45 extending in the other direction is secondly provided via a rear support shaft 46. It is pivotally connected to the arm 43 so as to be swingable.
【0029】前記第2アーム43は、機体後方側の転輪
ブラケット19( 19a) をトラックフレーム7に支持
している支点軸18に一体形成した支軸47に揺動自在
に枢支連結され、その揺動時に接地転輪6と干渉しない
ように、側面視で湾曲させた形状に形成してある。The second arm 43 is swingably and pivotally connected to a support shaft 47 which is integrally formed with a fulcrum shaft 18 which supports the rear wheel body wheel bracket 19 (19a) on the track frame 7. It is formed in a curved shape in a side view so as not to interfere with the grounding wheel 6 when swinging.
【0030】そして、図2に示すように、前部油圧シリ
ンダ36を最伸長状態に、かつ、後部油圧シリンダ37
を最収縮状態に保持することにより、走行機体A全体が
クローラ走行装置Bに対して最大下降して、機体フレー
ム6の対地高さが最も低く、かつ、機体フレーム6が走
行面に対して略平行な最下降姿勢と、図3に示すよう
に、前部油圧シリンダ36を最収縮状態に、かつ、後部
油圧シリンダ37を最伸長状態に保持することにより、
走行機体A全体がクローラ走行装置Bに対して最大上昇
して、機体フレーム6の対地高さが最も高く、かつ、機
体フレーム6が走行面に対して略平行な最上昇姿勢とに
亘って、走行機体Aの姿勢を変更自在に設けられ、最下
降姿勢が、畦地や道路などを走行する際の路上走行姿勢
として設定されている。Then, as shown in FIG. 2, the front hydraulic cylinder 36 is in the most extended state, and the rear hydraulic cylinder 37 is
By holding the vehicle in the most contracted state, the entire traveling machine body A is lowered to the maximum with respect to the crawler traveling device B, the ground height of the machine body frame 6 is the lowest, and the machine body frame 6 is substantially in relation to the traveling surface. By holding the parallel lowest descent posture and the front hydraulic cylinder 36 in the most contracted state and the rear hydraulic cylinder 37 in the most extended state as shown in FIG. 3,
The traveling machine body A as a whole rises with respect to the crawler traveling device B, the ground plane height of the machine body frame 6 is the highest, and the machine body frame 6 is in a maximum ascending posture substantially parallel to the traveling surface. The attitude of the traveling machine body A is provided so as to be freely changeable, and the lowest descending attitude is set as a road traveling attitude when traveling on a ridge or a road.
【0031】つまり、前部油圧シリンダ36や後部油圧
シリンダ37の伸縮量を調節することにより、図4に示
すように、機体フレーム6の対地高さが前方側ほど低い
前傾姿勢や、図5に示すように、機体フレーム6の対地
高さが後方側ほど低い後傾姿勢などの、最上昇姿勢と最
下降姿勢との中間姿勢に姿勢変更自在に設けられ、左右
のクローラ走行装置Bに対応して設けた前部油圧シリン
ダ36や後部油圧シリンダ37を駆動して、クローラ走
行装置Bの姿勢を左右各別に選択することで、左右ロー
リング調節やピッチング調節などを行うことができ、機
体走行の高さ位置や姿勢を作業目的に応じて任意に選択
できるように構成されている。That is, by adjusting the expansion and contraction amounts of the front hydraulic cylinder 36 and the rear hydraulic cylinder 37, as shown in FIG. 4, the forward leaning posture in which the ground height of the machine body frame 6 is lower toward the front side, and FIG. As shown in FIG. 5, the body frame 6 is provided such that the posture can be freely changed to an intermediate posture between the highest ascending posture and the lowest descending posture, such as a rearward tilting posture in which the ground height is lower toward the rear side, and it corresponds to the left and right crawler traveling devices B. By driving the front hydraulic cylinder 36 and the rear hydraulic cylinder 37 provided by selecting the posture of the crawler traveling device B for each of left and right, it is possible to perform left and right rolling adjustments and pitching adjustments. The height position and posture can be arbitrarily selected according to the work purpose.
【0032】また、前部支軸41と後部支軸46との各
々に機体フレーム6の下面側に入り込む接当軸部材48
を延設して、図2に示す最下降姿勢( 路上走行姿勢) に
おいて、図10,図11に示すように、これらの接当軸
部材48を走行機体Aに上下方向から接当させて、走行
機体Aの荷重の全部又は一部をクローラ走行装置Bに伝
達できるように構成してある。Further, the abutment shaft members 48 which enter the lower surface side of the machine body frame 6 into the front support shaft 41 and the rear support shaft 46, respectively.
In the lowest descent position (road running position) shown in FIG. 2, these contacting shaft members 48 are brought into contact with the traveling machine body A from above and below, as shown in FIGS. All or part of the load of the traveling machine body A can be transmitted to the crawler traveling device B.
【0033】前記後部揺動リンク35を構成する第2ア
ーム43は、上述のように、各揺動リンク34,35を
各別に駆動揺動させて、走行機体Aをクローラ走行装置
Bに対して駆動昇降させることができるように設けたも
のであるが、昇降駆動機構Cを構成する各油圧シリンダ
36,37や各揺動リンク34,35自体の製作誤差
や、組み付け誤差、あるいは長期の使用に伴うガタの発
生などの、多少の寸法精度上の誤差を吸収することがで
きるので、昇降駆動機構Cの作動を円滑に行わせる上で
も有効である。As described above, the second arm 43 constituting the rear swing link 35 drives and swings the swing links 34 and 35 separately, so that the traveling machine body A is moved relative to the crawler traveling device B. Although it is provided so that it can be driven up and down, it is not suitable for manufacturing errors, assembling errors, or long-term use of the hydraulic cylinders 36 and 37 and the rocking links 34 and 35 themselves that constitute the lifting drive mechanism C. Since it is possible to absorb a slight dimensional accuracy error such as the occurrence of backlash, it is also effective in smoothly operating the up-and-down drive mechanism C.
【0034】〔その他の実施形態〕
1.本発明によるクローラ走行装置は、潤滑油注入路と
軸受け用ボス部の内側とを連通する潤滑油注入用の配管
部材を設けてあっても良い。
2.本発明によるクローラ走行装置は、支点用ボス部と
複数の軸受け用ボス部とを溶接などで組み付けた転輪ブ
ラケットを設けてあっても良い。
3.本発明によるクローラ走行装置は、走行方向で隣り
合う三個以上の接地転輪を、転輪ブラケットに支持して
あっても良い。
4.本発明によるクローラ走行装置は、コンバインなど
の農作業車に設けるもの限定されず、例えば、土木用や
建設用の作業車に設けるものであっても良い。[Other Embodiments] 1. The crawler traveling device according to the present invention may be provided with a lubricating oil injecting pipe member that connects the lubricating oil injecting passage and the inside of the bearing boss portion. 2. The crawler traveling device according to the present invention may be provided with a wheel bracket in which the fulcrum boss portion and the plurality of bearing boss portions are assembled by welding or the like. 3. The crawler traveling device according to the present invention may support three or more grounding wheels adjacent to each other in the traveling direction on the wheel bracket. 4. The crawler traveling device according to the present invention is not limited to being provided in an agricultural work vehicle such as a combine, but may be provided in a work vehicle for civil engineering or construction, for example.
【図1】クローラ走行型作業車の概略側面図FIG. 1 is a schematic side view of a crawler traveling work vehicle.
【図2】クローラ走行型作業車の最下降姿勢を説明する
要部側面図FIG. 2 is a side view of a main part for explaining the lowest descent posture of the crawler traveling type work vehicle.
【図3】クローラ走行型作業車の最上昇姿勢を説明する
要部側面図FIG. 3 is a side view of a main part for explaining the most raised posture of the crawler traveling type work vehicle.
【図4】クローラ走行型作業車の前傾姿勢を説明する要
部側面図FIG. 4 is a side view of a main part for explaining a forward tilted posture of the crawler traveling type work vehicle.
【図5】クローラ走行型作業車の後傾姿勢を説明する要
部側面図FIG. 5 is a side view of a main part for explaining a rearward tilting posture of a crawler traveling work vehicle.
【図6】クローラ走行装置の要部平面図FIG. 6 is a plan view of the main parts of the crawler traveling device.
【図7】クローラ走行装置の要部側面図FIG. 7 is a side view of a main part of the crawler traveling device.
【図8】クローラ走行装置の要部断面図FIG. 8 is a sectional view of a main part of a crawler traveling device.
【図9】クローラ走行装置の要部断面図FIG. 9 is a sectional view of a main part of a crawler traveling device.
【図10】昇降駆動機構の説明図FIG. 10 is an explanatory diagram of a lifting drive mechanism.
【図11】昇降駆動機構の説明図FIG. 11 is an explanatory diagram of a lifting drive mechanism.
7 トラックフレーム 9 接地転輪 12 クローラベルト 18 支点軸 19 転輪ブラケット 23 支点用ボス部 24 軸受け用ボス部 27 潤滑油注入路 31 連通路 32 プラグ 7 truck frame 9 grounding wheels 12 crawler belt 18 fulcrum axis 19 Roller bracket 23 Boss for fulcrum 24 Bearing boss 27 Lubricating oil injection path 31 passages 32 plug
フロントページの続き (72)発明者 吉田 有作 大阪府堺市石津北町64番地 株式会社ク ボタ 堺製造所内 (72)発明者 林 茂幸 大阪府堺市石津北町64番地 株式会社ク ボタ 堺製造所内 (56)参考文献 特開 平10−100954(JP,A) 特開 平4−25623(JP,A) 実開 平3−84288(JP,U) 実開 平1−98085(JP,U) 実開 昭64−50179(JP,U) 実開 昭64−25415(JP,U) (58)調査した分野(Int.Cl.7,DB名) B62D 55/092 B62D 55/104 Front page continuation (72) Inventor Yusaku Yoshida 64 Ishizukita-machi, Sakai City, Osaka Prefecture Kubota Sakai Factory Co., Ltd. (72) Inventor Shigeyuki Hayashi 64, Ishizukita-machi, Sakai City Osaka Prefecture Kubota Sakai Factory Co., Ltd. 56) References JP 10-100954 (JP, A) JP 4-25623 (JP, A) Actual opening 3-84288 (JP, U) Actual opening 1-98085 (JP, U) Actual opening Sho 64-50179 (JP, U) Actual development Sho 64-25415 (JP, U) (58) Fields investigated (Int.Cl. 7 , DB name) B62D 55/092 B62D 55/104
Claims (2)
自在に外嵌する支点用ボス部と、クローラベルトの接地
側を案内する接地転輪を回転自在に支持する複数の軸受
け用ボス部とを備えた転輪ブラケットを設けて、走行方
向で隣り合う接地転輪を前記支点軸周りで天秤揺動自在
に支持し、 前記支点用ボス部の内側に連通する潤滑油注入路を、前
記軸受け用ボス部の内側に連通してあるクローラ走行装
置。1. A fulcrum boss that is rotatably fitted onto a fulcrum shaft provided on a track frame, and a plurality of bearing bosses that rotatably support a ground roller that guides the ground side of a crawler belt. Is provided to support the grounding wheels adjacent to each other in the traveling direction so as to be swingable by a balance around the fulcrum shaft, and the lubricating oil injection path communicating with the inside of the fulcrum boss is provided to the bearing. Crawler traveling device that communicates with the inside of the boss.
し、前記支点用ボス部の内側と前記軸受け用ボス部の内
側とを連通する連通路を前記転輪ブラケットの一端側か
ら切削形成するとともに、前記連通路の一端側開口部を
塞ぐプラグを設けて、前記潤滑油注入路を前記軸受けボ
ス部の内側に連通してある請求項1記載のクローラ走行
装置。2. The rolling wheel bracket is integrally formed of cast metal, and a communication passage that connects the inside of the fulcrum boss portion and the inside of the bearing boss portion is formed by cutting from one end side of the rolling wheel bracket. The crawler traveling device according to claim 1, wherein a plug that closes an opening on one end side of the communication passage is provided to communicate the lubricating oil injection passage with the inside of the bearing boss portion.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000290441A JP3431588B2 (en) | 2000-09-25 | 2000-09-25 | Crawler traveling device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000290441A JP3431588B2 (en) | 2000-09-25 | 2000-09-25 | Crawler traveling device |
Publications (2)
Publication Number | Publication Date |
---|---|
JP2002096771A JP2002096771A (en) | 2002-04-02 |
JP3431588B2 true JP3431588B2 (en) | 2003-07-28 |
Family
ID=18773673
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JP2000290441A Expired - Fee Related JP3431588B2 (en) | 2000-09-25 | 2000-09-25 | Crawler traveling device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011092094A (en) * | 2009-10-29 | 2011-05-12 | Kubota Corp | Combine harvester |
Families Citing this family (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2004098895A (en) * | 2002-09-10 | 2004-04-02 | Seirei Ind Co Ltd | Travel vehicle |
JP4664831B2 (en) * | 2006-02-10 | 2011-04-06 | 株式会社クボタ | Crawler travel device |
JP5951452B2 (en) * | 2012-11-14 | 2016-07-13 | 株式会社クボタ | Crawler travel device |
JP5589114B2 (en) * | 2013-03-25 | 2014-09-10 | 株式会社クボタ | Crawler type traveling device |
EP4245650A4 (en) * | 2020-11-13 | 2024-10-02 | Tas Global Co Ltd | Magnetic track shoe for ship-cleaning apparatus |
KR102553102B1 (en) * | 2020-11-13 | 2023-07-10 | 주식회사 타스글로벌 | Magnetic track shoe for cleaning apparatus of ship |
CN113635984B (en) * | 2021-10-13 | 2022-01-25 | 三一重型装备有限公司 | Crawler traveling device and heading machine |
-
2000
- 2000-09-25 JP JP2000290441A patent/JP3431588B2/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011092094A (en) * | 2009-10-29 | 2011-05-12 | Kubota Corp | Combine harvester |
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