JPH04136023U - Structure of the grain conveyor section of a full culm input type combine harvester - Google Patents
Structure of the grain conveyor section of a full culm input type combine harvesterInfo
- Publication number
- JPH04136023U JPH04136023U JP4262191U JP4262191U JPH04136023U JP H04136023 U JPH04136023 U JP H04136023U JP 4262191 U JP4262191 U JP 4262191U JP 4262191 U JP4262191 U JP 4262191U JP H04136023 U JPH04136023 U JP H04136023U
- Authority
- JP
- Japan
- Prior art keywords
- grain
- grain culm
- cylindrical body
- culm
- section
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 239000000428 dust Substances 0.000 claims abstract description 19
- 230000032258 transport Effects 0.000 claims abstract description 14
- 235000013339 cereals Nutrition 0.000 abstract description 86
- 238000003306 harvesting Methods 0.000 abstract description 9
- 235000007164 Oryza sativa Nutrition 0.000 abstract description 8
- 241000209140 Triticum Species 0.000 abstract description 8
- 235000021307 Triticum Nutrition 0.000 abstract description 8
- 235000009566 rice Nutrition 0.000 abstract description 8
- 240000007594 Oryza sativa Species 0.000 abstract 1
- 241000209094 Oryza Species 0.000 description 7
- 244000068988 Glycine max Species 0.000 description 4
- 235000010469 Glycine max Nutrition 0.000 description 4
- 230000000694 effects Effects 0.000 description 3
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 238000009333 weeding Methods 0.000 description 2
- 208000019300 CLIPPERS Diseases 0.000 description 1
- 208000021930 chronic lymphocytic inflammation with pontine perivascular enhancement responsive to steroids Diseases 0.000 description 1
- 230000006866 deterioration Effects 0.000 description 1
- 238000007599 discharging Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000007613 environmental effect Effects 0.000 description 1
- 229910052742 iron Inorganic materials 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000003756 stirring Methods 0.000 description 1
Landscapes
- Outside Dividers And Delivering Mechanisms For Harvesters (AREA)
- Harvester Elements (AREA)
Abstract
(57)【要約】
【目的】 植立穀稈を刈取ると共に刈取り穀稈の全体を
搬出する刈取り部、この刈取り部からの刈取り穀稈の全
体を、無端回動帯状搬送体により筒状体の内部底面に沿
わせて脱穀装置に供給する穀稈搬送部が備えられたた全
稈投入型コンバインにおいて、稲麦等の収穫時には搬送
穀稈の詰まりが生じにくいようにできながら、大豆等の
収穫時における塵埃飛散が回避し易いようにする。
【構成】 筒状体10の刈取り部Aに臨む穀稈受入れ口
10aを、稲麦の収穫時に穀稈詰まりが生じにくいよう
に大きく形成しても、大豆の収穫時に、筒状体10の内
部で搬送穀稈から発生して無端回動帯状搬送体3の搬送
板3aの戻り移動等のために穀稈受入れ口10a側に流
動する塵埃に、穀稈受入れ口10aから外部にもれ出に
くいように作用するガイド面11aを、筒状体内部の上
側に設けてある。ガイド面11aは、流動する塵埃を無
端回動帯状搬送体3による搬送穀稈に付着して持ち上げ
移送されるように穀稈移送路R側に流下案内するガイド
面に形成してある。
(57) [Summary] [Purpose] A reaping section that reaps the planted grain culm and transports the entire reaped grain culm. A full culm input type combine harvester is equipped with a grain culm conveying section that feeds grain to the threshing device along the internal bottom surface of the grain. To easily avoid dust scattering during harvesting. [Structure] Even if the grain receiving port 10a facing the reaping part A of the cylindrical body 10 is formed to be large so that grain culm clogging is less likely to occur during harvesting of rice and wheat, the inside of the cylindrical body 10 is Dust that is generated from the transported grain culm and flows toward the grain culm receiving port 10a due to the return movement of the transport plate 3a of the endless rotating belt-shaped transport body 3, etc., does not easily leak out from the grain culm receiving port 10a. A guide surface 11a that acts in this manner is provided on the upper side inside the cylindrical body. The guide surface 11a is formed as a guide surface that guides the flowing dust down to the grain culm transfer path R side so that it adheres to the grain culm transported by the endless rotating belt-shaped conveyor 3 and is lifted and transferred.
Description
【0001】0001
本考案は、植立穀稈に作用する刈取り装置、この刈取り装置からの刈取り穀稈 を機体後方側に搬出する送出し部、前記刈取り装置からの刈取り穀稈の全体を前 記送出し部に搬送する搬送装置を有した刈取り部を備え、前記送出し部と、脱穀 装置の穀稈受入れ部とを連通させる筒状体、この筒状体の内部で回動駆動されて 前記送出し部からの刈取り穀稈の全体を前記筒状体の内部底面に沿わせて前記穀 稈受入れ部に搬送して供給する無端回動帯状搬送体を有した穀稈搬送部を備える 全稈投入型コンバインの穀稈搬送部構造に関する。 The present invention includes a reaping device that acts on planted grain culms, and a reaping device that operates on planted grain culms. A delivery section that transports the entire harvested grain culm from the reaping device to the rear side of the machine. a reaping section having a conveying device for conveying the grain to the discharging section; A cylindrical body that communicates with the grain receiving part of the device, which is rotatably driven inside this cylindrical body. The whole of the reaped grain culm from the delivery part is placed along the inner bottom surface of the cylindrical body, and the grain is A grain culm conveying section having an endless rotating belt-shaped conveying body for conveying and supplying grain to a culm receiving section. This invention relates to the structure of the grain conveying section of a full culm input type combine harvester.
【0002】0002
上記コンバインにおいて、従来、稲や麦の収穫作業時には刈取り部から穀稈搬 送部に流入する穀稈ボリュームが穀稈の性状に起因して比較的多くなる故、穀稈 搬送部に詰まりが生じにくいように、筒状体の内径、及び、筒状体の前記送出し 部に臨む穀稈受入れ口が比較的大きく形成されていた。 Conventionally, in the combine harvester mentioned above, when harvesting rice or wheat, the grain culm is transported from the reaping section. The grain culm volume flowing into the feeding section is relatively large due to the properties of the grain culm. The inner diameter of the cylindrical body and the delivery of the cylindrical body are adjusted to prevent clogging in the conveying section. The grain receiving opening facing the area was relatively large.
【0003】0003
従来、大豆の収穫作業をする際、発生する塵埃が多いこと、流れる穀稈のボリ ュームが穀稈性状の関係から稲麦の場合より小になる割りには筒状体における穀 稈受入れ口の開度が大きいこと、無端回動帯状搬送体が回動作動のために塵埃を 掻き回して動かすことの夫々に起因し、筒状体の穀稈受入れ口から塵埃が外部に 多くもれ出るトラブルが発生し易くなっていた。 本考案の目的は、稲、麦等の収穫作業時における穀稈詰まりが生じにくいよう にできながらも、大豆等の収穫作業時における塵埃もれだしが回避し易いように することにある。 Traditionally, when harvesting soybeans, there was a lot of dust generated, and the grain culms were loose. Although the grain size is smaller than that of rice and wheat due to the grain culm properties, the grain size in the cylindrical body is smaller than that of rice and wheat. The opening degree of the culm receiving port is large, and the endless rotating belt-shaped conveyor has a rotary movement that eliminates dust. Due to stirring and movement, dust is released from the grain receiving port of the cylindrical body to the outside. Problems such as leakage were more likely to occur. The purpose of this invention is to prevent clogging of grain culms during harvesting of rice, wheat, etc. This makes it easier to avoid dust leakage during harvesting of soybeans, etc. It's about doing.
【0004】0004
本考案による全稈投入型コンバインの穀稈搬送部構造にあっては、目的達成の ため、冒頭に記したものにおいて、前記筒状体の内部塵埃に対するガイド面を、 前記筒状体内の上部に設け、かつ、前記筒状体の穀稈送出し口側から穀稈受入れ 口側に流動する塵埃を前記無端回動帯状搬送体による穀稈移送路側に向けて流下 案内するガイド面に形成してある。その作用、効果は次のとうりである。 The structure of the grain conveying section of the whole culm input type combine harvester according to the present invention has the following advantages: Therefore, in what is described at the beginning, the guide surface for internal dust of the cylindrical body is Provided at the upper part of the cylindrical body, and receiving grain culm from the grain culm delivery port side of the cylindrical body. The dust flowing toward the mouth side is flowed down toward the grain culm transfer path by the endless rotating belt-shaped conveyor. It is formed on the guide surface. Its action and effect are as follows.
【0005】[0005]
稲や麦等の収穫時に刈取り穀稈がスムーズに入り込んだり、流れて詰まりが生 じにくいように、筒状体を形成する。この結果、筒状体の穀稈受入れ口や横断面 積が大きくなっても、かつ、穀稈搬送部で発生した塵埃が無端回動帯状搬送体の 戻り側回動のために筒状体内の上部を穀稈受入れ口側に流れ動いても、塵埃は流 動に伴ってガイド面に当たり、ガイド面の案内により穀稈移送路側に流下して無 端回動帯状体による搬送穀稈によって持ち上げ移送され、穀稈受入れ口からは外 部にもれ出にくくなる。 When harvesting rice, wheat, etc., the harvested grain culm may enter smoothly or flow and cause blockages. Form a cylindrical body so that it does not easily get wet. As a result, the grain receiving opening and cross section of the cylindrical body Even if the grain pile is large, the dust generated in the grain culm conveyance section is Even if the upper part of the cylindrical body flows toward the grain culm receiving port due to the rotation on the return side, the dust will not flow. As the grain moves, it hits the guide surface, and is guided by the guide surface and flows down to the grain culm transfer path side. It is lifted and transferred by the grain culm conveyed by the end rotating belt, and is removed from the grain culm receiving port. It is less likely to leak into the body.
【0006】[0006]
稲麦等の収穫時には、大きい穀稈受入れ口によって穀稈詰まりが生じにくいよ うに作業できるのでありながら、大豆等の収穫時には、筒状体内での発生塵埃が ガイド体の案内作用や搬送穀稈の移送作用のために穀稈搬送部からもれ出にくく て、環境の悪化を防止しながら作業できるようになった。 When harvesting rice, wheat, etc., the large grain receiving port prevents grain culm clogging. However, when harvesting soybeans, etc., the dust generated inside the cylindrical body is Due to the guiding action of the guide body and the transporting action of the grain culm, it is difficult for the grain to leak from the grain transport section. Now we can work while preventing environmental deterioration.
【0007】[0007]
図2に示すように、引起こしリール1、刈取り装置2等を有した刈取り部A、 および、無端回動帯状搬送体3等を有した穀稈搬送部Bを、脱穀装置4、運転キ ャビン5等が備えられたクローラ式走行機体の前部に付設すると共に、前記刈取 り部Aと穀稈搬送部Bとにより、植立穀稈を引起こすと共に刈取り、刈取り穀稈 の全体を機体後方に搬送して前記脱穀装置4に供給するように構成して、稲や麦 、大豆等、各種の穀稈を刈取り、刈取り穀稈の株元から穂先までの全体を脱穀部 に投入して脱穀処理するように全稈投入型のコンバインを構成してある。 刈取り部Aを構成するに、刈取り部機体6の前部に、左右一対の分草具7,7 を植立穀稈の刈取り対象物と非刈取り対象物との分草をするように付設し、刈取 り部機体6の左右の横側壁部6a,6aの間に、バリカン型の前記刈取り装置2 、及び、搬送装置8を設けると共に、分草具7からの刈取り対象穀稈を前記引起 こしリール1により引起こしながら刈取り装置2に供給して刈取り、刈取り装置 2からの刈取り穀稈の全体を搬送装置8により、これの背後の送出し部9に搬送 してこの送出し部9から機体後方側に搬出するようにしてある。搬送装置8は、 図2に示す如く一本の回転ドラムの両端側に各別に付設してあると共に螺旋方向 が逆である一対の螺旋板8a,8b、螺旋板間に位置させて回転ドラムに付設し てある搬送羽根8c及び搬送杆8dを備える駆動オーガで成り、刈取り装置2の 機体横外側部分からの刈取り穀稈を螺旋板8aまたは8bによって刈取り部機体 6の底板部に沿わせて機体内側に横送りし、螺旋板8a及び8bからの刈取り穀 稈と、刈取り装置2の送出し部9の直前方に位置する部分からの刈取り穀稈とを 合流させて、搬送羽根8cと搬送杆8dとによる掻き送りによって回転ドラムの 下を通して送出し部9に移送するように構成してある。 穀稈搬送部Bは、図1に示すように、前記送出し部9と、脱穀装置4の脱穀部 における穀稈受入れ部4aとを連通させて穀稈移送路を形成する筒状体10と、 前記無端回動帯状搬送体3とで成ると共に、無端回動帯状搬送体3の多数枚の搬 送板3aが筒状体10の前記送出し部9に臨む穀稈受入れ口10aから筒状体内 の下部を筒状体10の前記穀稈受入れ部4aに臨む穀稈送出し口10cに上昇し 、筒状体10の前記穀稈送出し口10cから筒状体内の上部を前記穀稈受入れ口 10aに下降するように、無端回動帯状搬送体3を回動駆動するように構成して あることにより、刈取り部Aの送出し部9からの刈取り穀稈の全体を、無端回動 帯状搬送体3により筒状体10の内部底面10bに沿わせて持ち上げ搬送して脱 穀装置4の穀稈受入れ部4aに供給するように構成してある。 As shown in FIG. 2, a reaping section A having a raising reel 1, a reaping device 2, etc. The grain culm transport section B having the endless rotary belt-shaped transport body 3 and the like is connected to the threshing device 4 and the operation key. It is attached to the front part of the crawler type traveling machine equipped with a cabin 5 etc., and the reaping machine is The grain culm conveying part A and the grain culm conveying part B raise the planted grain culm, and also reap and remove the reaped grain culm. The rice and wheat grains are transported to the rear of the machine and supplied to the threshing device 4. , soybeans, and other grain culms, and the entire harvested grain culm from the base of the grain to the tip of the grain is threshed. The whole culm input type combine harvester is configured so that the whole culm input type is used for threshing process. To configure the reaping section A, a pair of left and right weeding tools 7, 7 are installed at the front of the reaping section body 6. Attach it so as to divide the planted grain culm between the reaping target and the non-reaping target, and The clipper-type reaping device 2 is installed between the left and right side walls 6a, 6a of the reaping section body 6. , and a conveying device 8 is provided, and the grain culm to be reaped from the weeding tool 7 is lifted up. The strainer reel 1 raises the material while supplying it to the reaping device 2 for reaping and reaping. The entire reaped grain culm from 2 is transported by a transport device 8 to a delivery section 9 behind it. Then, it is transported from this delivery section 9 to the rear side of the machine body. The transport device 8 is As shown in FIG. A pair of spiral plates 8a and 8b with opposite sides are attached to the rotating drum and positioned between the spiral plates. It consists of a driving auger equipped with a conveying blade 8c and a conveying rod 8d, and the reaping device 2 is The harvested grain culm from the lateral outer part of the machine body is transferred to the reaping part machine body by the spiral plate 8a or 8b. The harvested grain from spiral plates 8a and 8b is fed laterally to the inside of the machine along the bottom plate of 6. The culm and the reaped grain culm from the part located immediately in front of the sending part 9 of the reaping device 2. The rotary drum is moved by raking and feeding by the conveying blade 8c and the conveying rod 8d. It is configured to be transferred to the delivery section 9 through the bottom. As shown in FIG. A cylindrical body 10 that communicates with the grain culm receiving portion 4a to form a grain culm transfer path; The endless rotating belt-shaped conveying body 3 is configured to transport a large number of sheets of the endless rotating belt-shaped conveying body 3. The feed plate 3a enters the cylindrical body from the grain receiving port 10a facing the delivery portion 9 of the cylindrical body 10. The lower part of the cylindrical body 10 is raised to the grain culm delivery port 10c facing the grain culm receiving portion 4a. , the upper part of the cylindrical body from the grain culm delivery port 10c of the cylindrical body 10 is connected to the grain culm receiving port. The endless rotating belt-shaped conveying body 3 is configured to be rotationally driven so as to descend to 10a. Due to this, the entire reaped grain culm from the feeding section 9 of the reaping section A is rotated endlessly. The belt-shaped conveyor 3 lifts and conveys the cylindrical body 10 along the inner bottom surface 10b and removes it. It is configured to be supplied to the grain receiving section 4a of the grain device 4.
【0008】 筒状体10の内部の上側の複数箇所に、筒状体内部の塵埃に対するガイド面1 1aを設けて、筒状体10の内部で搬送穀稈から塵埃が発生しても、塵埃が筒状 体外部に飛散することを回避しながら作業ができるように配慮してある。 すなわち、筒状体10の内部で発生した塵埃が、筒状体内部の上側を穀稈受入 れ口10a側に戻り移動する無端回動帯状搬送体3の搬送板3aによる移送作用 等のために筒状体内の上部を穀稈受入れ口10a側に流動しても、流動に伴って ガイド面11aに衝突してこのガイド面11aによる案内作用のために下方の無 端回動帯状搬送体3による穀稈移送経路Rに流下し、無端回動帯状搬送体3によ る搬送穀稈に入り込んでこれよって持ち上げ移送されて穀稈受入れ口10aから 外部にもれ出にくくなるように構成してある。 ガイド面11aを形成するガイド板11は搬送体3aが接触すると、弾性変形 して搬送体3aの移動障害にならないように退避するように、ゴム板によって作 成してある。すなわち、ガイド面11aを、搬送体3aの移動障害にならないよ うにしながら、筒状体10の内部上面から搬送体3aの戻り経路の近くに至るま での極力大きい上下巾を備えて有効に作用するように構成してある。[0008] Guide surfaces 1 for dust inside the cylindrical body are provided at multiple locations on the upper side of the cylindrical body 10. 1a is provided so that even if dust is generated from the transported grain culm inside the cylindrical body 10, the dust is Care has been taken to allow work to be done while avoiding splashing outside the body. That is, the dust generated inside the cylindrical body 10 causes the upper side of the inside of the cylindrical body to receive grain culms. Transfer action by the transfer plate 3a of the endless rotating belt-shaped transfer body 3 returning to the side of the opening 10a Even if the upper part of the cylindrical body flows toward the grain culm receiving port 10a for reasons such as this, the It collides with the guide surface 11a, and due to the guiding action of this guide surface 11a, the object below is It flows down to the grain culm transfer path R by the end rotation belt-shaped conveyor 3 and is transferred to the grain culm transfer route R by the endless rotation belt-shaped conveyor 3. The grain enters the conveyed grain culm and is thereby lifted and transferred from the grain culm receiving port 10a. It is designed to prevent leakage to the outside. The guide plate 11 forming the guide surface 11a is elastically deformed when the conveyor 3a comes into contact with it. It is made with a rubber plate so that it can be evacuated so as not to obstruct the movement of the conveyor 3a. It has been completed. In other words, the guide surface 11a is designed so that it does not become an obstacle to the movement of the carrier 3a. While keeping the It is configured to have as large a vertical width as possible to function effectively.
【0009】 〔別実施例〕 ガイド面11aとしては、上記の如くゴム板で成るものの他、鉄板等の剛体で なるものを採用して実施してもよい。[0009] [Another example] The guide surface 11a may be made of a rubber plate as described above, or may be made of a rigid body such as an iron plate. You may adopt and implement the following.
【0010】 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ために符号を記 すが、該記入により本考案は添付図面の構成に限定されるものではない。0010 In addition, symbols are written in the claims section of the utility model registration for convenience of comparison with the drawings. However, the present invention is not limited to the configuration shown in the attached drawings.
【図1】穀稈搬送部の断面図[Figure 1] Cross-sectional view of grain culm conveyance section
【図2】搬送装置の平面図[Figure 2] Plan view of the conveyance device
【図3】コンバイン全体の側面図[Figure 3] Side view of the entire combine
2 刈取り装置 3 無端回動帯状搬送体 4 脱穀装置 4a 穀稈受入れ部 8 搬送装置 9 送出し部 10 筒状体 11a ガイド面 A 刈取り部 B 穀稈搬送部 R 穀稈移送路 2 Reaping device 3 Endless rotation belt-shaped conveyor 4 Threshing device 4a Grain culm receiving part 8 Conveyance device 9 Sending section 10 Cylindrical body 11a Guide surface A Reaping part B Grain culm transport section R Grain culm transfer path
───────────────────────────────────────────────────── フロントページの続き (72)考案者 仲西 育男 大阪府堺市石津北町64番地 株式会社クボ タ堺製造所内 ──────────────────────────────────────────────── ─── Continuation of front page (72) Creator Ikuo Nakanishi Kubo Co., Ltd. 64 Ishizu Kitamachi, Sakai City, Osaka Prefecture Inside the Ta-Sakai factory
Claims (1)
この刈取り装置(2)からの刈取り穀稈を機体後方側に
搬出する送出し部(9)、前記刈取り装置(2)からの
刈取り穀稈の全体を前記送出し部(9)に搬送する搬送
装置(8)を有した刈取り部(A)を備え、前記送出し
部(9)と、脱穀装置(4)の穀稈受入れ部(4a)と
を連通させる筒状体(10)、この筒状体(10)の内
部で回動駆動されて前記送出し部(9)からの刈取り穀
稈の全体を前記筒状体(10)の内部底面(10b)に
沿わせて前記穀稈受入れ部(4a)に搬送して供給する
無端回動帯状搬送体(3)を有した穀稈搬送部(B)を
備える全稈投入型コンバインの穀稈搬送部構造であっ
て、前記筒状体(10)の内部塵埃に対するガイド面
(11a)を、前記筒状体(10)内の上部に設け、か
つ、前記筒状体(10)の穀稈送出し口(10c)側か
ら穀稈受入れ口(10a)側に流動する塵埃を前記無端
回動帯状搬送体(3)による穀稈移送路(R)側に向け
て流下案内するガイド面に形成してある全稈投入型コン
バインの穀稈搬送部構造。1. A reaping device (2) acting on a planted grain culm;
A delivery section (9) that transports the reaped grain culm from the reaping device (2) to the rear side of the machine; a conveyor that transports the entire reaped grain culm from the reaping device (2) to the delivery section (9); A cylindrical body (10) comprising a reaping section (A) having a device (8) and communicating the sending section (9) with the grain culm receiving section (4a) of the threshing device (4); The entire reaped grain culm from the sending part (9) is rotated inside the cylindrical body (10) to be moved along the inner bottom surface (10b) of the cylindrical body (10), and the grain culm receiving part (4a) A grain culm transporting part structure of a full culm input type combine harvester comprising a grain culm transporting part (B) having an endless rotary belt-shaped transporting body (3) for transporting and supplying the grain to the cylindrical body ( A guide surface (11a) for internal dust of 10) is provided in the upper part of the cylindrical body (10), and a guide surface (11a) for preventing internal dust is provided at the upper part of the cylindrical body (10), and (10a) Grain transport of a full culm input type combine formed on a guide surface that guides dust flowing toward the grain culm transfer path (R) side by the endless rotating belt-shaped conveyor (3). Departmental structure.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1991042621U JP2548268Y2 (en) | 1991-06-07 | 1991-06-07 | Structure of grain culm transport part of all culm input type combine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP1991042621U JP2548268Y2 (en) | 1991-06-07 | 1991-06-07 | Structure of grain culm transport part of all culm input type combine |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH04136023U true JPH04136023U (en) | 1992-12-17 |
| JP2548268Y2 JP2548268Y2 (en) | 1997-09-17 |
Family
ID=31923078
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP1991042621U Expired - Lifetime JP2548268Y2 (en) | 1991-06-07 | 1991-06-07 | Structure of grain culm transport part of all culm input type combine |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2548268Y2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2002305933A (en) * | 2001-04-12 | 2002-10-22 | Toyo Shinyaku:Kk | Harvester for leaf, stem and culm |
Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS63112435U (en) * | 1987-01-12 | 1988-07-19 | ||
| JPH01121330U (en) * | 1988-02-09 | 1989-08-17 |
-
1991
- 1991-06-07 JP JP1991042621U patent/JP2548268Y2/en not_active Expired - Lifetime
Patent Citations (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS63112435U (en) * | 1987-01-12 | 1988-07-19 | ||
| JPH01121330U (en) * | 1988-02-09 | 1989-08-17 |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2002305933A (en) * | 2001-04-12 | 2002-10-22 | Toyo Shinyaku:Kk | Harvester for leaf, stem and culm |
| JP4705262B2 (en) * | 2001-04-12 | 2011-06-22 | 株式会社東洋新薬 | Leaf stalk harvester |
Also Published As
| Publication number | Publication date |
|---|---|
| JP2548268Y2 (en) | 1997-09-17 |
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