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JPH0551241B2 - - Google Patents

Info

Publication number
JPH0551241B2
JPH0551241B2 JP2198329A JP19832990A JPH0551241B2 JP H0551241 B2 JPH0551241 B2 JP H0551241B2 JP 2198329 A JP2198329 A JP 2198329A JP 19832990 A JP19832990 A JP 19832990A JP H0551241 B2 JPH0551241 B2 JP H0551241B2
Authority
JP
Japan
Prior art keywords
seedlings
rotating body
separated
aligned
seedling
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
Application number
JP2198329A
Other languages
Japanese (ja)
Other versions
JPH0484812A (en
Inventor
Takashi Sasaki
Shoichi Kitaguchi
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.)
Hokuei Co Ltd
Original Assignee
Hokuei 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 Hokuei Co Ltd filed Critical Hokuei Co Ltd
Priority to JP19832990A priority Critical patent/JPH0484812A/en
Publication of JPH0484812A publication Critical patent/JPH0484812A/en
Publication of JPH0551241B2 publication Critical patent/JPH0551241B2/ja
Granted legal-status Critical Current

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  • Transplanting Machines (AREA)

Description

【発明の詳細な説明】[Detailed description of the invention] 【産業上の利用分野】[Industrial application field]

本発明は、農作物の移植栽培で、個々の苗に分
離可能に整然と連結した紙筒育苗容器のような育
苗容器を使用する移植機、または苗処理装置にお
いて、整列苗群から個々の苗に分離する分離装置
に関する。
The present invention is used for transplant cultivation of agricultural products, and uses a transplanter or a seedling processing device that uses a seedling container such as a paper tube seedling container that is connected in an orderly manner so that the seedlings can be separated into individual seedlings. The present invention relates to a separation device.

【従来の技術】[Conventional technology]

紙筒苗のような整列苗群から個々の苗に自動的
に分離する分離装置は、針体を育苗容器中に刺し
込んで引き離すものが試みられているが、いまだ
完成していない。 また、特公昭63−50962号公報には整列苗の分
離される苗の移動前面に押し当てる回転する複数
のロールによる分離装置が提案されている。
A separation device that automatically separates individual seedlings from a group of aligned seedlings, such as paper tube seedlings, has been attempted by inserting a needle into a container for raising seedlings and separating them, but this has not yet been completed. Furthermore, Japanese Patent Publication No. 63-50962 proposes a separating device using a plurality of rotating rolls that press the aligned seedlings against the moving front surface of the seedlings to be separated.

【発明が解決しようとする問題点】[Problems to be solved by the invention]

前記従来の技術の針体によるものでは、育苗期
間中に紙筒育苗容器を形成する紙が腐敗して強度
が低下することにより、分離作業中に育苗容器の
紙が破れて分離ミスを起こし、その取り残された
苗が次の分離の障害となつて次々と分離ミスを発
生させることがあつた。 また、前記複数のロールによものでは、育苗後
の紙筒育苗容器は腐敗の進行度合い水分の多少に
よりその連結強度が一定でないため、分離される
苗の次の苗が共に分離されるのを押さえる手段が
ないために一度に2本の苗が連結したまま分離さ
れることがある。またさらに、分離した苗をその
まま倒してしまうため、苗の高さや方向がばらば
らになつて苗を揃えるのに人手を要するし、非能
率であるから移植機にこの装置を採用することは
できない。 本発明は、以上のような問題点を解決し、確実
に個々の苗に分離し、分離後も整列した苗列とし
て繰り出される分離装置により、高性能・高能率
な移植機または苗処理装置を提供し、移植栽培を
飛躍的に広げることを目的とする。
In the conventional technique using a needle body, the paper forming the paper tube seedling growing container rots during the seedling growing period and its strength decreases, which causes the paper of the seedling growing container to tear during the separation process, causing separation errors. The seedlings that were left behind became an obstacle to the next separation, resulting in a series of separation errors. In addition, with the above-mentioned method using multiple rolls, the connection strength of the paper cylinder seedling-raising container after raising seedlings is not constant depending on the progress of rot and the amount of moisture, so it is difficult to separate the next seedlings from the one to be separated. Because there is no means to hold them down, two seedlings may be separated at a time while remaining connected. Furthermore, since the separated seedlings are simply knocked over, the heights and directions of the seedlings are scattered, requiring manpower to arrange the seedlings, and this device cannot be used in a transplanter because it is inefficient. The present invention solves the above-mentioned problems and provides a high-performance and highly efficient transplanter or seedling processing device using a separation device that reliably separates individual seedlings and delivers them as a lined row of seedlings even after separation. The aim is to dramatically expand transplant cultivation.

【問題点を解決するための手段】[Means to solve the problem]

本発明の分離装置は、個々の苗に分離可能に互
いに接合連結され、複数列に配置された整列苗を
移動させて回転体に当接させ、個々の苗に分離す
る装置において、上記整列苗における分離される
苗の移動方向側面に当接し、該移動方向に正転す
る回転体を設け、上記回転体の外周速を整列苗の
移動速度よりも速くし、上記分離される苗を、該
苗に後続する次列の苗と上記回転体との間に挟ん
で転動させつつ分離するようにしたものである。 又、上記装置において、整列苗における分離さ
れる苗の移動方向側面に当接し、該移動方向に正
転する第1の回転体と、分離される苗の移動方向
前方に位置し、第1の回転体と反対方向に回転す
る第2の回転体とを設け、上記第1の回転体の外
周速を整列苗の移動速度よりも速くし、上記分離
される苗を、該苗に後続する次列の苗と第1の上
記回転体との間に挟んで転動させつつ分離し、分
離された苗を第1の回転体と第2の回転体の間に
挟んで繰り出すようにしたものである。
The separating device of the present invention is a device for separating the aligned seedlings into individual seedlings by moving the aligned seedlings arranged in a plurality of rows, which are joined and connected to each other so as to be separable into individual seedlings, and bringing them into contact with a rotating body to separate the aligned seedlings into individual seedlings. A rotating body is provided which contacts the side surface of the seedlings to be separated in the moving direction and rotates normally in the moving direction, and the outer circumferential speed of the rotating body is made faster than the moving speed of the aligned seedlings, so that the separated seedlings are The seedlings are sandwiched between the next row of seedlings following the seedlings and the rotating body and separated while being rolled. Further, in the above device, a first rotating body that contacts a side surface of the aligned seedlings in the direction of movement of the seedlings to be separated and rotates normally in the direction of movement; A second rotating body rotating in the opposite direction to the rotating body is provided, and the outer circumferential speed of the first rotating body is made faster than the moving speed of the aligned seedlings, and the separated seedlings are separated from the next one following the seedlings. Seedlings in a row are held between the first rotating body and separated while being rolled, and the separated seedlings are held between the first rotating body and the second rotating body and fed out. be.

【作用】[Effect]

以上のごとく本発明においては、整列苗におけ
る分離される苗の移動方向側面に当接し、該移動
方向に正転する回転体を設け、上記回転体の外周
速を整列苗の移動速度よりも速くし、上記分離さ
れる苗を、該苗に後続する次列の苗と上記回転体
との間に挟んで転動させつつ分離するようにした
ので、破損等の分離ミスを起こすことなく個々の
苗として確実に分離することができる。 又、さらに第1、第2の回転体を前述のごとく
構成することによつて、第1の回転体により分離
された苗は、そのまま第1と第2の回転体の間に
挟まれて繰り出され、又、万一第1の回転体で分
離されなかつた苗も、その移動方向と反対方向に
回転する第2の回転体に接触することにより確実
に分離される。
As described above, in the present invention, a rotating body is provided that contacts the side surface of the lined seedlings in the moving direction of the separated seedlings and rotates normally in the moving direction, and the outer circumferential speed of the rotating body is set to be faster than the moving speed of the lined seedlings. However, since the seedlings to be separated are sandwiched between the seedlings in the next row following the seedlings and the rotating body and separated while being rolled, each seedling can be separated without causing breakage or other separation mistakes. They can be reliably separated as seedlings. Furthermore, by configuring the first and second rotating bodies as described above, the seedlings separated by the first rotating body can be fed out while being sandwiched between the first and second rotating bodies. Furthermore, even if the seedlings are not separated by the first rotating body, they will be reliably separated by coming into contact with the second rotating body that rotates in the opposite direction to the direction of movement of the seedlings.

【実施例】【Example】

以下、本発明の一実施例を図面を参照して説明
する。 個々の苗41に分離可能に整然と連結した育苗
容器42として、紙筒による育苗容器42を示し
ている。この紙筒育苗容器42は、展開すると六
角柱状の上下が開口した紙筒を整然と水溶性糊で
貼り合わせたもので、この紙筒中に培土を詰めて
播種して育苗すると苗が生長して整列苗40とな
り、水溶性糊は灌水により徐々に溶けて無くな
り、紙筒は腐敗の進行により徐々に互いに結合
し、移植時には適度の連結強度を保つようになつ
ている。しかし、この紙筒による整列苗40は育
苗期間中に紙が腐敗し、紙筒の強度が低下して破
れ易くなつたり、紙筒の互いの連結が強くなりす
ぎて、容易に分離しがたくなることがある。 つぎに、この整列苗40を個々の苗41に分離
する分離装置について説明する。 第1図において、1は第1の回転体としてのス
ポンジ体のローラーであり、2は第2の回転体と
してのスポンジ体のローラーである。ローラー
1,2は、垂直方向に設けた回転する軸3,4の
上下にはめ込まれ、軸3,4はローラー1,2の
最近接部が苗41の直径よりも狭い間隔となるよ
うに設け、ローラー1とローラー2の間に分離さ
れた苗41を挾んで繰り出せるようにする。 また、第1の回転体としてのローラー1が整列
苗40の分離される苗41aの移動側面に接し、
第2回転体としてのローラー2が分離される苗4
1aの移動前方で分離される苗41aに後続する
苗列41cの側面にほぼに接するように、ローラ
ー1,2の軸3,4間距離と、ローラー1,2の
直径は整列苗40の苗41の大きさによつて適宜
に定められなければならない。そして、本実施例
では、苗41の直径が約2cmであり、ローラー
1,2の直径はその約2倍とし、ローラー1,2
の軸3,4間の距離はその約2.5倍とした。 また、ローラー1,2の軸3,4には同一歯数
の図示しない平歯車がはめ込まれて噛み合つてお
り、ローラー1,2は互いに反対方向の同一周速
で回転するようになる。 軸3,4と平行に軸3,4の間隔と同一間隔で
軸9,10を設け、軸9,10にはそれぞれプー
リー11,12をはめ込み、このプーリー11,
12と軸3,4の上下のプーリー1,2間に設け
た図示しないプーリーとの間に掛け渡された一対
のベルト5,7を設ける。一対のベルト5,7の
表面にはスポンジ体6,8を貼着し、スポンジ体
6,8の対接面間の距離は苗41の直径よりも狭
い間隔となるようにし、一対のベルト5,7のス
ポンジ体6,8の間に分離された苗41を挾んで
繰り出せるようにする。そして、一対のベルト
5,7はプーリー11,12により回転されるよ
うにし、その軸9,10には同一歯数の図示しな
い平歯車がはめ込まれて噛み合つており、ベルト
5,7は互いに反対方向に同一周速で回転し、そ
の周速はローラー1,2の外周速よりは5割程度
速い速度で回転するようにする。 また、軸3と軸9が一体であり軸4と軸10が
一体で、かつ軸3と軸4の距離と軸9と軸10の
距離が変わらないようにして、ローラー1および
ベルト5とローラー2およびベルト7とが交互に
一対のベルト5,7の苗41の搬送方向である縦
に整列苗40の苗列の一列ピツチ分よりやや少な
い所定距離だけ出入りするようにする。 ローラー1,2の前端より左右には、一対のベ
ルト5,7とほぼ同一高さで整列苗40の縦方向
の位置を規制する苗規制体13,14を設け、ロ
ーラー1,2の出入りに対応して同時に出入りす
るようにする。 ローラー1,2の前方には、一対のベルト5,
7の苗41の搬送方向に直交する方向の横方向に
往復移動する横移動機構20を設ける。そして、
横移動機構20上には整列苗40を載せて分離部
に分離される苗41aを横方向から供給する。 横移動機構20には、平面視略長方形の横移動
機構枠21を設け、横移動機構枠21の左右上方
には整列苗40の幅よりやや広い間隔で縦方向に
長い一対の苗案内体22を設け、横移動機構枠2
1の下方には横移動機構20の移動方向に長く同
一高さで2本の軸23,24を設け、横移動機構
枠21にこの軸23,24がはめ込まれそれに沿
つて移動するようにする。また、軸23には図示
しないが田植機等で公知の往溝と復溝とが無端交
叉状に形成した円筒カムが刻まれており、横移動
機構枠21に設けた図示しない突起と噛み合つて
いて、軸23が回転することにより横移動機構枠
21が横方向に連続的に往復移動するようになつ
ており、その移動速度はローラー1,2の外周速
より遅くし、実施例ではその約1/3としている。 横移動機構20の横移動機構枠21には、一対
のベルト5,7の苗41の搬送方向の縦方向に移
動する縦移動機構30を設ける。そして、縦移動
機構30上には整列苗40を載せて横移動機構2
0の移動端で縦方向に間欠的に移動させるように
する。 縦移動機構30には、横移動機構枠21内に横
移動機構20の移動方向に長く同一高さでローラ
ー1,2より遠い側にプーリー32を設け、同じ
くローラー1,2に近い側にプーリー33の2本
のプーリー32,33を設ける。2本のプーリー
32,33の間には、横移動機構枠21の幅より
やや狭い幅のベルト31を掛け渡す。そして、プ
ーリー32には横移動機構枠21が横方向に移動
しても軸24の回転が伝導されるようにし、横移
動機構20の移動端で整列苗40の苗列の一列分
だけローラー1,2の方向に縦に移動させるよう
に軸24が回転するようにする。 つぎに、作動を説明する。 苗分離装置の横移動機構20は所定のその移動
端とし、整列苗40を横移動機構20上の縦移動
機構30としてのベルト31上に載せ、その整列
苗40の前端が第1図における第1の回転体とし
てのローラー1側の苗規制体13に接する位置ま
で送り込む。 このとき、第1の回転体としてのローラー1の
前端は整列苗40の最前列の前端に接する位置と
し、第2の回転体としてのローラー2の前端は整
列苗40の第2列の前端とほぼ同一位置とする。 適宜な手段により軸3,4や軸9,10および
軸23が回転すると、ローラー1,2や一対のベ
ルト5,7が回転し横移動機構枠21が横方向に
移動する。このことにより、整列苗40の移動側
面としての最前列は順次第1の回転体としてのロ
ーラー1の前端に接する。このとき、第1の回転
体としてのローラー1の回転方向は整列苗40の
移動方向に正転して同一であり、その外周速は整
列苗40の移動速度より速くしているから、分離
される苗41aは後続する苗列41cとローラー
1との間に挾まれて転動され、転がりながら整列
苗40の移動速度よりも速い速度で動かされるこ
とにより、順次分離される苗の次の苗41bや後
続する苗列41cとの連結部を剥されて無理なく
分離される。また、分離される苗41aはローラ
ー1の回転方向と反対方向に転動されるので、ま
ず分離される苗の次の苗41bの連結部の一端か
ら剥され、分離される苗の次の苗41bはその次
の苗や後続する苗列41cと連結されているの
で、分離される苗の次の苗41bは分離される苗
41aに連結したまま引き出されることはない。 ローラー1により分離されて繰り出された苗4
1は、続いて分離される苗41aの移動前方に設
けた第2の回転体としてのローラー2に接触し、
ローラー2はローラー1とは反対方向に回転して
いるので、ローラー1とローラー2との間から挾
まれて繰り出され整列苗40からより離される。 また、万一ローラー1により分離されなかつた
分離される苗41aも、ローラー2によりローラ
ー1とは逆方向に転動されて分離される。 そして、ローラー1,2により挾まれて繰り出
された苗41は、そのまま直ちに一対のベルト
5,7のスポンジ体6,8により挾まれてより遠
くに繰り出される。 このため、分離された苗41と整列苗40との
間に葉絡みや根絡みがあつても、それを引き離す
だけ充分に遠くに分離された姿勢を保つたまま繰
り出され、分離が確実となる。 整列苗40の最前列の分離が全て終り、横移動
機構20が移動端に達すると、第2図に示すよう
に、縦移動機構30により整列苗40は苗列の一
列分だけ縦方向に移動し、同時にローラー1およ
びベルト5とローラー2およびベルト7が出入り
して、同時にローラー1およびベルト5とローラ
ー2およびベルト7が出入りして、第1の回転体
と第2の回転体の役割を切り替え、ローラー2が
第1の回転体となりローラー1が第2の回転体と
なつて、横移動機構20は今までと反対方向に整
列苗40を横移動させて次の列の分離が開始され
る。 以上の実施例では、整列苗40として紙筒によ
る育苗容器42のものを示したが、育苗培地その
ものが育苗容器を形成している無機物繊維や高分
子化合物によるものでも、個々の苗41に分離可
能に整然と連結されているものであれば良い。 また、第1の回転体と第2の回転体としてスポ
ンジ体のローラー1,2によるものを示したが、
片側あるいは両側をベルト状にしても良く、両側
をベルト状にした場合には第1の回転体と第2の
回転体のみで、分離された苗41と整列苗40と
の間に葉絡みや根絡みがあつても、それを引き離
すだけ充分に遠くに繰り出せる。また、紙筒苗を
例示したためスポンジ体を示したが、合成樹脂等
の剛体のローラーに突起を多数設けたものやゴム
等の弾性体を用いても良い。 また、第2の回転体が第1の回転体と同一周速
で反対方向に回転する例を示したが、第2の回転
体は第1の回転体と反対方向に回転していれば良
く、異なる周速で回転するようにしても良い。 また、横移動機構20の移動端で、第1の回転
体と第2の回転体を出入りさせてその役割を切り
替えて連続的に分離する例を示したが、往復それ
ぞれ専用の分離装置を設けて横移動機構20の移
動端でそれを切り替えるようにしても良いし、整
列苗40を複数用意して順次入れ替えて連続的に
分離するようにしても良い。 また、整列苗40を立垂状態から横方向に移動
させて分離する例を示したが、整列苗40は斜め
状態や倒置状態でも良く、移動方向も横方向に限
定されるものではない。 また、第1の回転体1と第2の回転体2の間に
挾んで繰り出された苗41を一対のベルト5,7
の間に挾んで繰り出す例を示したが、第1の回転
体1と第2の回転体2の間に挾んで繰り出された
苗41をそのまま樋などに落下させても良いし、
倒置させてからベルトの上に載せて搬送しても良
い。
Hereinafter, one embodiment of the present invention will be described with reference to the drawings. A seedling growing container 42 made of a paper cylinder is shown as a seedling growing container 42 connected to individual seedlings 41 in an orderly manner so that they can be separated. This paper tube seedling raising container 42 is made up of paper tubes that are open at the top and bottom in the shape of a hexagonal column when unfolded, and are neatly glued together with water-soluble glue.When the paper tubes are filled with soil and seeds are sown to raise seedlings, the seedlings grow and line up. The seedlings have grown into seedlings 40, and the water-soluble glue is gradually dissolved by watering, and the paper tubes are gradually bonded to each other as the rot progresses, so that appropriate connection strength is maintained at the time of transplantation. However, when seedlings 40 are arranged using paper tubes, the paper rots during the seedling-raising period, and the strength of the paper tube decreases, making it easy to tear, or the paper tubes become too tightly connected to each other, making it difficult to separate them. It may happen. Next, a separation device for separating the aligned seedlings 40 into individual seedlings 41 will be described. In FIG. 1, 1 is a sponge roller as a first rotating body, and 2 is a sponge roller as a second rotating body. The rollers 1 and 2 are fitted above and below rotating shafts 3 and 4 provided in a vertical direction, and the shafts 3 and 4 are provided so that the closest parts of the rollers 1 and 2 are spaced narrower than the diameter of the seedling 41. , the separated seedlings 41 are held between rollers 1 and 2 so that they can be fed out. Further, the roller 1 as the first rotating body is in contact with the moving side surface of the seedlings 41a from which the aligned seedlings 40 are separated,
Seedling 4 from which roller 2 as a second rotating body is separated
The distance between the shafts 3 and 4 of the rollers 1 and 2 and the diameter of the rollers 1 and 2 are such that the seedlings 40 are arranged so that the seedlings 40 are almost in contact with the sides of the seedling row 41c that follows the seedlings 41a that are separated in front of the movement of the seedlings 1a. It must be determined appropriately depending on the size of the 41. In this embodiment, the diameter of the seedling 41 is about 2 cm, and the diameter of the rollers 1 and 2 is about twice that.
The distance between axes 3 and 4 was approximately 2.5 times that distance. Moreover, spur gears (not shown) having the same number of teeth are fitted into the shafts 3 and 4 of the rollers 1 and 2 and mesh with each other, so that the rollers 1 and 2 rotate at the same circumferential speed in opposite directions. Shafts 9 and 10 are provided parallel to the shafts 3 and 4 at the same spacing as the shafts 3 and 4, and pulleys 11 and 12 are fitted into the shafts 9 and 10, respectively.
A pair of belts 5 and 7 are provided, which are stretched between the belt 12 and a pulley (not shown) provided between the pulleys 1 and 2 above and below the shafts 3 and 4. Sponge bodies 6 and 8 are attached to the surfaces of the pair of belts 5 and 7, and the distance between the facing surfaces of the sponge bodies 6 and 8 is narrower than the diameter of the seedling 41. , 7, the separated seedlings 41 are held between the sponge bodies 6 and 8 so that they can be drawn out. The pair of belts 5 and 7 are rotated by pulleys 11 and 12, and spur gears (not shown) having the same number of teeth are fitted into the shafts 9 and 10 and mesh with each other. The rollers rotate in opposite directions at the same circumferential speed, and the circumferential speed is about 50% faster than the outer circumferential speed of the rollers 1 and 2. Further, the shafts 3 and 9 are integrated, the shafts 4 and 10 are integrated, and the distances between the shafts 3 and 4 and the distances between the shafts 9 and 10 do not change, and the rollers 1 and belt 5 are connected to the rollers. The pair of belts 5 and 7 alternately move in and out by a predetermined distance slightly smaller than the length of one row pitch of the seedling rows of the seedlings 40 arranged vertically, which is the conveyance direction of the seedlings 41 of the pair of belts 5 and 7. Seedling regulating bodies 13 and 14 are provided on the left and right sides of the front ends of the rollers 1 and 2 to regulate the vertical position of the aligned seedlings 40 at approximately the same height as the pair of belts 5 and 7, and are arranged to prevent the rollers 1 and 2 from entering and exiting. Correspondingly, make sure to enter and exit at the same time. In front of the rollers 1 and 2, a pair of belts 5,
A lateral movement mechanism 20 is provided that reciprocates in the lateral direction perpendicular to the direction in which the seedlings 41 of No. 7 are transported. and,
The aligned seedlings 40 are placed on the lateral movement mechanism 20, and the seedlings 41a to be separated into separation sections are fed from the lateral direction. The lateral movement mechanism 20 is provided with a lateral movement mechanism frame 21 that is substantially rectangular in plan view, and on the left and right upper sides of the lateral movement mechanism frame 21, a pair of vertically long seedling guide bodies 22 are arranged at intervals slightly wider than the width of the lined seedlings 40. , and the lateral movement mechanism frame 2
Two shafts 23 and 24 are provided below 1 and are long and at the same height in the direction of movement of the lateral movement mechanism 20, and these shafts 23 and 24 are fitted into the lateral movement mechanism frame 21 and moved along it. . In addition, although not shown, a cylindrical cam is carved into the shaft 23, which is formed by an endless intersecting forward groove and backward groove, which is known in rice transplanters, etc., and engages with a projection (not shown) provided on the lateral movement mechanism frame 21. As the shaft 23 rotates, the lateral movement mechanism frame 21 moves back and forth continuously in the lateral direction, and the movement speed is slower than the outer circumferential speed of the rollers 1 and 2. It is approximately 1/3 of that. The lateral movement mechanism frame 21 of the lateral movement mechanism 20 is provided with a vertical movement mechanism 30 that moves in the vertical direction of the conveyance direction of the seedlings 41 of the pair of belts 5 and 7. Then, the aligned seedlings 40 are placed on the vertical movement mechanism 30 and the horizontal movement mechanism 2
It is made to move intermittently in the vertical direction at the moving end of 0. In the vertical movement mechanism 30, a pulley 32 is provided in the horizontal movement mechanism frame 21, long in the movement direction of the horizontal movement mechanism 20, and at the same height on the side farther from the rollers 1 and 2, and a pulley 32 on the side closer to the rollers 1 and 2. Two pulleys 32 and 33 are provided. A belt 31 having a width slightly narrower than the width of the lateral movement mechanism frame 21 is stretched between the two pulleys 32 and 33. The rotation of the shaft 24 is transmitted to the pulley 32 even if the lateral movement mechanism frame 21 moves in the lateral direction, and at the moving end of the lateral movement mechanism 20, the roller 1 is moved by one row of the aligned seedlings 40. . Next, the operation will be explained. The lateral movement mechanism 20 of the seedling separation device has a predetermined moving end, and the aligned seedlings 40 are placed on a belt 31 serving as a vertical movement mechanism 30 on the lateral movement mechanism 20, and the front end of the aligned seedlings 40 is set at a predetermined moving end. The seedling regulating body 13 is fed to a position on the side of the roller 1 serving as a rotating body. At this time, the front end of the roller 1 as a first rotating body is in contact with the front end of the foremost row of sorted seedlings 40, and the front end of the roller 2 as a second rotating body is in contact with the front end of the second row of sorted seedlings 40. Almost the same position. When the shafts 3, 4, 9, 10, and 23 are rotated by appropriate means, the rollers 1, 2 and the pair of belts 5, 7 are rotated, and the lateral movement mechanism frame 21 is moved in the lateral direction. As a result, the frontmost row of the aligned seedlings 40 as a moving side surface sequentially comes into contact with the front end of the roller 1 as one rotating body. At this time, the rotational direction of the roller 1 as the first rotating body is forward rotation and the same as the moving direction of the aligned seedlings 40, and its outer circumferential speed is faster than the moving speed of the aligned seedlings 40, so that no separation occurs. The seedlings 41a are sandwiched between the following seedling row 41c and the roller 1 and rolled, and are moved at a speed faster than the moving speed of the aligned seedlings 40 while rolling, so that the seedlings next to the seedlings to be separated are separated one after another. 41b and the following seedling row 41c are peeled off and separated easily. Also, since the seedlings 41a to be separated are rolled in the opposite direction to the rotating direction of the roller 1, the seedlings 41b next to the seedlings to be separated are first peeled off from one end of the connecting part, and the seedlings next to the seedlings to be separated are separated. Since the seedling 41b is connected to the next seedling or the succeeding seedling row 41c, the seedling 41b following the seedling to be separated is not pulled out while being connected to the seedling 41a to be separated. Seedlings 4 separated and fed out by roller 1
1 comes into contact with a roller 2 as a second rotating body provided in front of the movement of the seedling 41a to be subsequently separated,
Since the roller 2 is rotating in the opposite direction to the roller 1, it is held between the rollers 1 and 2, and is drawn out and further away from the aligned seedlings 40. Furthermore, even in the event that the seedlings 41a that are not separated by the roller 1 are separated, the seedlings 41a are rolled by the roller 2 in the opposite direction to the roller 1 and separated. Then, the seedling 41 that has been picked up by the rollers 1 and 2 is immediately picked up by the sponge bodies 6 and 8 of the pair of belts 5 and 7 and sent out further. Therefore, even if there is entangled leaves or entangled roots between the separated seedlings 41 and the aligned seedlings 40, the separated seedlings 41 and the aligned seedlings 40 are fed out far enough to separate them while maintaining the separated posture, ensuring separation. . When the separation of the front row of the lined seedlings 40 is completed and the horizontal movement mechanism 20 reaches the moving end, the lined seedlings 40 are moved in the vertical direction by one row of seedlings by the vertical movement mechanism 30, as shown in FIG. At the same time, roller 1 and belt 5 and roller 2 and belt 7 move in and out, and at the same time, roller 1 and belt 5 and roller 2 and belt 7 move in and out, playing the roles of the first rotating body and the second rotating body. After switching, the roller 2 becomes the first rotating body and the roller 1 becomes the second rotating body, and the lateral movement mechanism 20 moves the aligned seedlings 40 laterally in the opposite direction to start separating the next row. Ru. In the above embodiment, the seedling growing container 42 made of a paper tube was used as the aligned seedlings 40, but even if the seedling growing medium itself is made of inorganic fibers or polymeric compounds forming the seedling growing container, the seedlings 41 may be separated into individual seedlings. It is sufficient if they are connected as orderly as possible. In addition, although sponge rollers 1 and 2 are used as the first and second rotating bodies,
One side or both sides may be shaped like a belt. If both sides are shaped like a belt, only the first rotating body and the second rotating body are used to prevent leaves from getting entangled between the separated seedlings 41 and the aligned seedlings 40. Even if there is a root tangle, it can be pushed far enough to separate it. Moreover, although a sponge body is shown to illustrate paper tube seedlings, a rigid roller made of synthetic resin or the like with many protrusions or an elastic body such as rubber may also be used. In addition, although an example was shown in which the second rotating body rotates in the opposite direction at the same circumferential speed as the first rotating body, it is sufficient that the second rotating body rotates in the opposite direction to the first rotating body. , may be rotated at different circumferential speeds. Furthermore, although an example has been shown in which the first rotating body and the second rotating body are moved in and out at the moving end of the lateral movement mechanism 20 to switch their roles and are continuously separated, a separating device dedicated to each reciprocation is provided. Alternatively, a plurality of aligned seedlings 40 may be prepared, and the seedlings may be replaced one after another to be continuously separated. Further, although an example has been shown in which the aligned seedlings 40 are moved from a vertical state to a horizontal direction and separated, the aligned seedlings 40 may be in an inclined state or an inverted state, and the direction of movement is not limited to the horizontal direction. Further, the seedlings 41 that have been fed out between the first rotating body 1 and the second rotating body 2 are transferred to a pair of belts 5 and 7.
Although an example has been shown in which the seedlings 41 are fed out while being held between the first rotating body 1 and the second rotating body 2, the seedlings 41 may be allowed to fall directly into a gutter etc.
It may also be conveyed by placing it upside down and then placing it on a belt.

【発明の効果】【Effect of the invention】

本発明によれば、分離される苗を回転体と後続
する苗列との間に挾んで転動させて分離するよう
にしたから、分離される苗は転がりながら整列苗
の移動速度よりも速い速度で動かされ、連結部を
順次剥されて無理なく分離される。 又、第1の回転体と、整列苗の分離される苗の
移動前方に第1の回転体とは反対方向に回転する
第2の回転体を設け、第1の回転体と第2の回転
体の間に分離された苗を挾んで繰り出すようにし
たから、整列苗から剥された苗が強制的にある程
度の距離だけ離されるから、葉絡みや根絡みがあ
つても確実に整列苗の姿勢を保つたまま分離され
る。また、万一第1の回転体で分離されなかつた
分離される苗も、第2の回転体により分離される
から、より確実な分離ができる。 さらに本発明によれば、第1の回転体と第2の
回転体をスポンジ体のローラーとし、それらのロ
ーラーの軸より掛け渡された一対のベルトの間に
分離された苗を挾んで繰り出すようにしたから、
最初の分離はスポンジ体のローラーで行われて紙
筒苗のように容易に分離し難い苗でも苗に無理な
力を加えないで分離できるし、分離された苗の整
列苗からの引き離しは一対のベルトにより行われ
るから、整列苗から引き離された苗が強制的に相
当の距離だけ離すことができるから、葉絡みや根
絡みがあつても確実に分離でき、スポンジ体のロ
ーラーと一対のベルトに周速差を設けることも可
能となる。
According to the present invention, since the seedlings to be separated are sandwiched between the rotating body and the following row of seedlings and rolled to separate them, the seedlings to be separated roll and move faster than the aligned seedlings. It is moved at high speed, and the connecting parts are sequentially peeled off and separated easily. In addition, a second rotating body that rotates in the opposite direction to the first rotating body is provided in front of the movement of the seedlings to be separated from the first rotating body, and the first rotating body and the second rotating body are provided. Since the separated seedlings are held between the bodies and fed out, the peeled seedlings are forcibly separated from the lined seedlings by a certain distance, so even if the leaves or roots are entangled, the lined seedlings can be reliably removed. They are separated while maintaining their posture. Furthermore, even if the seedlings are not separated by the first rotating body, they are separated by the second rotating body, so that more reliable separation can be achieved. Further, according to the present invention, the first rotary body and the second rotary body are sponge rollers, and the separated seedlings are held between a pair of belts stretched from the shafts of these rollers and fed out. Because I did it,
The initial separation is performed using a sponge roller, and even seedlings that are difficult to separate, such as paper tube seedlings, can be separated without applying excessive force to the seedlings. Because this is done by a belt, the seedlings that are separated from the aligned seedlings can be forcibly separated by a considerable distance, so even if leaves or roots are entangled, they can be separated reliably. It is also possible to provide a circumferential speed difference between the two.

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

第1図ないし第2図は本発明の整列苗の分離装
置の一実施例を示す平面図、第3図は同一部を切
り欠いた側面図である。 1……第1の回転体としてのローラー、2……
第2の回転体としてのローラー、3,4……軸、
5,7……ベルト、20……横移動機構、30…
…縦移動機構、40……整列苗、41……苗、4
1a……分離される苗、41c……後続する苗
列、42……育苗容器。
1 and 2 are plan views showing one embodiment of the apparatus for separating aligned seedlings of the present invention, and FIG. 3 is a side view with a portion of the same partially cut away. 1...Roller as a first rotating body, 2...
A roller as a second rotating body, 3, 4... shaft,
5, 7...belt, 20...lateral movement mechanism, 30...
... Vertical movement mechanism, 40 ... Aligned seedlings, 41 ... Seedlings, 4
1a... Seedlings to be separated, 41c... Successive seedling row, 42... Seedling raising container.

Claims (1)

【特許請求の範囲】 1 個々の苗に分離可能に互いに接合連結され、
複数列に配置された整列苗を移動させて回転体に
当接させ、個々の苗に分離する装置において、上
記整列苗における分離される苗の移動方向側面に
当接し、該移動方向に正転する回転体を設け、上
記回転体の外周速を整列苗の移動速度よりも速く
し、上記分離される苗を、該苗に後続する次列の
苗と上記回転体との間に挟んで転動させつつ分離
することを特徴とする整理苗の分離装置。 2 個々の苗に分離可能に互いに接合連結され、
複数列に配置された整列苗を移動させて回転体に
当接させ、個々の苗に分離する装置において、上
記整列苗における分離される苗の移動方向側面に
当接し、該移動方向に正転する第1の回転体と、
分離される苗の移動方向前方に位置し、第1の回
転体と反対方向に回転する第2の回転体とを設
け、上記第1の回転体の外周速を整列苗の移動速
度よりも速くし、上記分離される苗を、該苗に後
続する次列の苗と第1の回転体との間に挟んで転
動させつつ分離し、分離された苗を第1の回転体
と第2の回転体の間に挟んで繰り出すようにした
ことを特徴とする整理苗の分離装置。 3 前記第1の回転体と第2の回転体がスポンジ
体のローラで形成されていることを特徴とする特
許請求の範囲2記載の整理苗の分離装置。
[Claims] 1 Separably connected to each other into individual seedlings,
In a device that moves aligned seedlings arranged in a plurality of rows and makes them come into contact with a rotating body to separate them into individual seedlings, the device makes contact with the side surface of the sorted seedlings in the direction of movement of the seedlings to be separated, and rotates normally in the direction of movement. A rotating body is provided, and the outer peripheral speed of the rotating body is set higher than the moving speed of the aligned seedlings, and the separated seedlings are sandwiched between the seedlings in the next row following the seedlings and the rotating body and rotated. A device for separating organized seedlings, which is characterized by separating the seedlings while moving them. 2 Separably connected to each other into individual seedlings,
In a device that moves aligned seedlings arranged in a plurality of rows and makes them come into contact with a rotating body to separate them into individual seedlings, the device makes contact with the side surface of the sorted seedlings in the direction of movement of the seedlings to be separated, and rotates normally in the direction of movement. a first rotating body that
A second rotating body is provided that is located in front of the moving direction of the seedlings to be separated and rotates in the opposite direction to the first rotating body, and the outer circumferential speed of the first rotating body is set to be faster than the moving speed of the aligned seedlings. Then, the seedlings to be separated are sandwiched between the seedlings in the next row following the seedlings and the first rotating body and separated while being rolled, and the separated seedlings are separated between the first rotating body and the second rotating body. A separating device for sorted seedlings, characterized in that the device is arranged to feed seedlings by sandwiching them between two rotary bodies. 3. The device for separating seedlings according to claim 2, wherein the first rotating body and the second rotating body are formed of sponge rollers.
JP19832990A 1990-07-25 1990-07-25 Device for separating aligned seedlings Granted JPH0484812A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP19832990A JPH0484812A (en) 1990-07-25 1990-07-25 Device for separating aligned seedlings

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP19832990A JPH0484812A (en) 1990-07-25 1990-07-25 Device for separating aligned seedlings

Publications (2)

Publication Number Publication Date
JPH0484812A JPH0484812A (en) 1992-03-18
JPH0551241B2 true JPH0551241B2 (en) 1993-08-02

Family

ID=16389301

Family Applications (1)

Application Number Title Priority Date Filing Date
JP19832990A Granted JPH0484812A (en) 1990-07-25 1990-07-25 Device for separating aligned seedlings

Country Status (1)

Country Link
JP (1) JPH0484812A (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5996513A (en) * 1997-08-26 1999-12-07 Nihon Tensaiseito Kabushiki Kaisha Machine for transplanting seedlings

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0410724Y2 (en) * 1985-01-25 1992-03-17

Also Published As

Publication number Publication date
JPH0484812A (en) 1992-03-18

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