JP2691462B2 - Seedling pot - Google Patents
Seedling potInfo
- Publication number
- JP2691462B2 JP2691462B2 JP2036997A JP3699790A JP2691462B2 JP 2691462 B2 JP2691462 B2 JP 2691462B2 JP 2036997 A JP2036997 A JP 2036997A JP 3699790 A JP3699790 A JP 3699790A JP 2691462 B2 JP2691462 B2 JP 2691462B2
- Authority
- JP
- Japan
- Prior art keywords
- pot
- fibers
- seedling
- rayon
- fiber
- 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
Links
Landscapes
- Cultivation Receptacles Or Flower-Pots, Or Pots For Seedlings (AREA)
Description
【発明の詳細な説明】 (産業上の利用分野) 本発明は野菜や草花、苗木等の育苗に利用する育苗ポ
ットに関するものである。TECHNICAL FIELD The present invention relates to a nursery pot used for raising vegetables, flowers, seedlings and the like.
(従来の技術) 野菜や草花の育苗、移植用の育苗ポットとしては、素
焼の鉢、ピートモス、紙、プラスチック製のポット等が
用いられ、灌水はポットの上部より、手作業又はスプリ
ンクラー等の機械的手段による上部よりの灌水で行われ
てきたが、灌水ムラが生じ易く、ひいては植物の生育に
不均一が生じる。(Prior art) As seedling raising pots for seeding and transplanting vegetables and flowers, unglazed pots, peat moss, paper, plastic pots, etc. are used, and irrigation is performed from the top of the pot by hand or by a sprinkler machine. Although watering has been carried out from above by means of artificial means, uneven watering is likely to occur, which in turn causes uneven plant growth.
施設栽培等における底面灌水法は灌水の合理化と、か
かる弊害を少くする方法として積極的に採用されてい
る。The bottom irrigation method in institutional cultivation has been actively adopted as a method of rationalizing irrigation and reducing such harmful effects.
一般的には底面灌水法は連結ポットの底面に、吸水性
の良いピートモス、セルロース、ウレタンフォーム、又
は嵩高不織布等の吸水マットが敷かれ、該吸水マットを
通じ底面より灌水を施している。現在この底面灌水法に
用いられている育苗ポットは、塩化ビニル、ポリエチレ
ン等のプラスチックの成型ポットの底面に吸水用の穴を
設けたものが用いられている。該プラスチック成型ポッ
トは柔軟さに欠けるため、吸水マットとのなじみが悪
く、均一な吸水が得られ難いという問題点がある。Generally, in the bottom surface watering method, a water absorbing mat such as peat moss, cellulose, urethane foam, or a bulky non-woven fabric having good water absorbability is laid on the bottom surface of the connection pot, and water is applied from the bottom surface through the water absorbing mat. As the seedling raising pot currently used for this bottom surface watering method, one having a hole for absorbing water on the bottom of a molding pot made of plastic such as vinyl chloride or polyethylene is used. Since the plastic molding pot lacks in flexibility, there is a problem that it is poorly compatible with the water absorbing mat and it is difficult to obtain uniform water absorption.
また育苗ポットで生育した苗は、通常はポットから苗
を抜き取り、露地又は植木鉢等に移植される。この時点
でポットは不用になり、次の育苗に再利用されるが、ポ
ットから苗を抜く時、根についている土を不用意に落し
たり、根を傷めたりする恐れがあり、ポット毎移植され
る場合が多い。In addition, seedlings grown in a nursery pot are usually extracted from the pot and transplanted to the open field or a flowerpot. At this point, the pot becomes useless and is reused for the next seedling raising, but when removing the seedling from the pot, there is a risk of carelessly dropping the soil attached to the root or damaging the root, and the pot is transplanted in each pot. Often.
然るに上記プラスチックポットに植えたまま移植する
場合は通気、透湿性がない為植物の育成に悪影響を及ぼ
し、生長が悪い等の問題点がある。またプラスチックポ
ットは安価であり大量に使われているが使い古されたも
のは産業廃棄物として焼却時に炉の傷みや、有害ガスが
発生する等の問題があり、各市町村ではその対策に苦慮
している。However, when transplanted while being planted in the above-mentioned plastic pot, there is a problem that the plant has a negative effect on growth of the plant due to lack of air permeability and moisture permeability and poor growth. Also, although plastic pots are inexpensive and used in large quantities, used ones have problems such as damage to the furnace when incinerated as industrial waste and generation of harmful gas, and each municipality is struggling to take measures against it. There is.
(課題を解決するための手段) 本発明は上記問題点に鑑みてなされたものであり、セ
ルロース系の天然繊維又は再生繊維、又は半合成繊維等
の繊維を単独或はこれらの混合繊維からなる繊維マット
に於ける繊維相互の交差、接触部を、セルロース含有キ
トサンを結合剤として付着させ、所要の形状に熱圧成型
して育苗用ポットを形成することにより、通気、透水性
にすぐれ、土壌中での分解消滅を可能として上記問題点
を解消したものである。(Means for Solving the Problems) The present invention has been made in view of the above problems, and is composed of natural fibers or regenerated fibers of cellulosic fibers, or fibers such as semi-synthetic fibers, alone or as a mixed fiber thereof. By attaching the cellulose-containing chitosan as a binder at the crossing points and contact points of the fibers in the fiber mat, and thermoforming it into the required shape to form a pot for raising seedlings, it has excellent ventilation, water permeability, and soil. The above problems are solved by enabling decomposition and disappearance inside.
即ち本発明は綿、レーヨン等のセルロース系繊維の不
織布マットを形成し、キトサンを主体とする結合剤を付
着せしめて熱圧成型したことにより、土中のバクテリア
により育苗ポットを分解する機能を保持せしめたことに
ある。That is, the present invention forms a non-woven fabric mat of cellulosic fibers such as cotton and rayon, and by attaching a binder mainly composed of chitosan and thermoforming, retains the function of decomposing the seedling pot by bacteria in the soil. There is something wrong.
本発明の構成に用いられる繊維はセルロース構造を有
する綿、麻等の天然繊維、又はポリノジックレーヨン、
キュプラレーヨン等の再生繊維、アセテート等の半合成
繊維であれば何れも良く、又これらの混合繊維でも差し
支えないが、好ましくは表面積の大きい多孔質レーヨン
繊維を使用することにより、土壌中での繊維の分解速度
を早めることができる。The fibers used in the constitution of the present invention are cotton having a cellulose structure, natural fibers such as hemp, or polynosic rayon,
Regenerated fibers such as cupra rayon and any semi-synthetic fibers such as acetate may be used, or mixed fibers thereof may be used, but it is preferable to use porous rayon fibers having a large surface area so that fibers in soil The decomposition rate of can be accelerated.
上記の繊維は公知のウェブ形成機を使用し、必要に応
じてニードルパンチ、ウォーターニードル等により繊維
を物理的に交絡させる。A known web forming machine is used for the above fibers, and the fibers are physically entangled with a needle punch, a water needle or the like, if necessary.
次に該交絡繊維マットは、直径1μm以下の微細セル
ロース繊維を混入したキトサン塩水溶液(乳酸、酢酸又
はクエン酸等の有機酸0.5〜1.0%水溶液中にキトサンを
0.5〜1.0%濃度となるよう溶解した)を、繊維100重量
部に対し、該結合剤2〜6重量部(固型分)の付着量と
なる様に調節し、湿潤状態又は乾燥後湿状状態で所要の
形状に熱圧成型を施して育苗ポットが形成される。Next, the entangled fiber mat is an aqueous chitosan salt solution containing fine cellulose fibers having a diameter of 1 μm or less (chitosan is added to an aqueous solution of 0.5 to 1.0% organic acid such as lactic acid, acetic acid or citric acid).
0.5 to 1.0% concentration) was adjusted so that the amount of the binder was 2 to 6 parts by weight (solid content) with respect to 100 parts by weight of the fiber, and the wet state or the wet state after drying was adjusted. The seedling raising pot is formed by hot-pressing the desired shape in this state.
また成型するポットは単体でもよいが、複数個連続し
た一体成型品も得ることができる。この様にして得られ
る育苗ポットの最適生分解速度は、植物の種類、育苗期
間により異なるが、一般的には1〜3ケ月が好ましく、
その調節は、使用する繊維の種類や、キトサンの付着量
により可能である。The pot to be molded may be a single unit, but a plurality of continuous molded products can be obtained. The optimum biodegradation rate of the seedling raising pot thus obtained varies depending on the type of plant and the seedling raising period, but is generally preferably 1 to 3 months,
The adjustment is possible depending on the type of fiber used and the amount of chitosan attached.
また本発明に於て繊維間結合剤として用いるキトサン
塩水溶液に直径1μm以下の微細セルロース繊維を混入
したのは、耐水強度を向上し、育苗用ポットとしての強
度を維持することができることによる。Further, the reason why the fine cellulose fibers having a diameter of 1 μm or less are mixed in the aqueous chitosan salt solution used as the interfiber binder in the present invention is that the water resistance strength can be improved and the strength as a pot for raising seedlings can be maintained.
この様にして構成される本発明の育苗ポットは土壌中
のバクテリアによる生分解機能を有し、廃棄時の公害を
解消するだけでなく、ポットごと移植しても土中で分解
し植物の生長を妨げることがない。The seedling-growing pot of the present invention thus constructed has a biodegradation function due to bacteria in the soil and not only eliminates pollution at the time of disposal but also decomposes in the soil even when transplanted with the pot to grow plants. Does not interfere.
(作用) 本発明による育苗ポットは生分解機能を有する多孔質
の不織布構造体であるため、適度の通気性、通水性を有
し、特に底面灌水法による植物の育成は、吸水マットか
らポットの底面全体で毛細管現象により吸水が行われ
る。またポット側面の適度な通気性はポット内部の土壌
中の酸素を豊富にし、何れも植物の生長を促進する。ま
た庭、畑等露地の土中にポット毎移植しても生分解性を
有するため土中で分解し、植物の生長を妨げることがな
い。(Function) Since the seedling-growing pot according to the present invention is a porous nonwoven fabric structure having a biodegradable function, it has appropriate air permeability and water permeability. Water is absorbed by the capillary phenomenon on the entire bottom surface. In addition, the proper air permeability on the side of the pot enriches the oxygen in the soil inside the pot, both of which promote the growth of plants. In addition, even if transplanted in pots in open soil such as gardens and fields, it is biodegradable, so it does not decompose in soil and does not interfere with plant growth.
また自然分解によるため廃棄物焼却の要なく、二次公
害が発生しない。Also, because it is naturally decomposed, there is no need to incinerate waste and no secondary pollution occurs.
以下本発明の1実施例を図面に基づいて説明する。 Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
(実施例1) レーヨン繊維2d×38mm 100%をウェブ形成機例えばラ
ンドウェッバー機により目付80g/m2のランダムウェブを
形成する。次に上記ウェブはニードルパンチ機により10
0P/cm2のニードルパンチを行ない、ウェブの繊維間相互
を部分的に交絡させ仮固定した繊維マットを形成する。Example 1 A random web having a basis weight of 80 g / m 2 is formed from a rayon fiber 2d × 38 mm 100% by a web forming machine such as a land webber machine. Next, the above web is 10
Needle punching of 0 P / cm 2 is performed to partially entangle the fibers of the web to form a temporarily fixed fiber mat.
上記繊維マットは次に下記に示す配合液で含浸処理を
行い 配合比 キトサン 2部 乳 酸 1部 微細セルロース 11部 水 240部 セルロース含有キトサン水溶液を、繊維に対して固型
分で4%付着せしめ、湿潤状態で金型により熱圧成型を
行ない、第1図に示す様に直径4cm、深さ4cmの育苗用ポ
ット(1)を形成した。この様に形成した成型育苗用ポ
ットは第2図の部分拡大断面図に示す如くセルロース系
レーヨン繊維(2)からなる繊維マットがニードルパン
チにより三次元交絡部(3)を所定間隔で有し、その繊
維が交差接触する部分をセルロース含有キトサン結合剤
(4)により接着された多孔質側壁(5)及び多孔質底
面(6)より構成されている。The above fiber mat is then impregnated with the following compounding solution: Mixing ratio Chitosan 2 parts Lactic acid 1 part Fine cellulose 11 parts Water 240 parts Cellulose-containing chitosan aqueous solution is applied to the fiber in a solid content of 4%. Then, hot pressing was performed with a mold in a wet state to form a seedling-growing pot (1) having a diameter of 4 cm and a depth of 4 cm as shown in FIG. The molded seedling-growing pot thus formed has a fiber mat made of cellulosic rayon fibers (2) having three-dimensional entangled portions (3) at predetermined intervals by needle punching, as shown in a partially enlarged sectional view of FIG. The portions where the fibers cross-contact each other are composed of a porous side wall (5) and a porous bottom surface (6) which are bonded by a cellulose-containing chitosan binder (4).
(実施例2) レーヨン繊維3d×38mmをランドウェッバー機により目
付100g/m2のランダムウェブを形成し、実施例1と同じ
配合の結合剤を繊維に対して固型分で4%付着せしめ、
湿潤状態で金型により熱圧成型を行って、第3図に示す
如く多数連結型の育苗ポット(7)を形成した。(Example 2) A rayon fiber 3d x 38 mm was formed into a random web having a basis weight of 100 g / m 2 by a land webber machine, and a binder having the same composition as in Example 1 was applied to the fiber in a solid content of 4%,
Heat-press molding was performed in a wet state using a mold to form a multi-connection type seedling raising pot (7) as shown in FIG.
(実施例3) 異形断面レーヨン繊維3d、50%、レーヨン2d、50%よ
りなる混合繊維をランドウェッバー機により目付80g/m2
のランダムウェブを形成する。(Example 3) Mixed fiber composed of rayon fiber 3d, 50% and rayon 2d, 50% having a modified cross section was weighted 80 g / m 2 by a land webber machine.
Forming a random web of.
配合比 キトサン 2部 乳 酸 1部 微細セルロース 6部 澱 粉 1部 水 240部 次に上記配合よりなるセルロース含有キトサン水溶液
を結合剤として繊維100部に対し固型分で6部付着さ
せ、湿潤状態で金型で熱圧成型を行ない実施例1と同じ
育苗用ポットを得た。Mixing ratio Chitosan 2 parts Lactic acid 1 part Fine cellulose 6 parts Starch 1 part Water 240 parts Next, using the cellulose-containing chitosan aqueous solution having the above composition as a binder, 100 parts of fibers are adhered to 6 parts in a solid form, and a wet state is applied. Then, hot pressing was carried out with a mold to obtain the same seedling raising pot as in Example 1.
比較例として、市販のポリエチレン製プラスチックポ
ットを用い、上記各実施例で得られたポットに夫夫百日
草を植え込み、底面灌水法によってその生育状態を調べ
た。As a comparative example, a commercially available polyethylene plastic pot was used, and herbs and pertussis were planted in the pot obtained in each of the above-mentioned examples, and the growth state was examined by the bottom surface irrigation method.
さらに2ヶ月後、夫夫のポットを露地にポット毎移植
し、以後植物の生長及びポットの分解状況を調べた結果
を下表に示した。Two months later, the husband and husband's pots were transplanted to the open field, and the results of examining the growth of plants and the state of decomposition of the pots are shown in the table below.
上記結果より明らかにされている如く、実施例1,2,3
の不織布ポットは、ドレープ性、柔軟性に優れる為、ポ
ット底面に位置する吸水マットとのなじみが非常に良
い。また吸水性、通気性が優れる為、吸水と通気はポッ
ト底面だけでなく、側面からも行なうことが出来る。従
って、連結ポット毎に育苗背丈のバラツキ、枯死本数が
少なくなる。 As is clear from the above results, Examples 1, 2, 3
Since the non-woven fabric pot of (1) has excellent drapeability and flexibility, it is very compatible with the water absorbing mat located on the bottom face of the pot. Further, since it has excellent water absorption and air permeability, water absorption and ventilation can be performed not only from the bottom surface of the pot but also from the side surface. Therefore, the variation of the height of raising seedlings and the number of dead seedlings are reduced for each connection pot.
また、繊維とバインダーが、微生物分解性素材である
為、ポット毎定植することが可能であった。Further, since the fiber and the binder are biodegradable materials, it was possible to plant them in each pot.
ポリエチレン製ポットは、風合いが硬く、通気性、吸
水性が殆どなく、底面に設けられた水抜孔のみから、通
気、吸水が行なわれない為、育苗背丈のバラツキ、枯死
本数が大きくなる。また、土壌中の微生物により分解さ
れない為、定植時、ポットを取り除く必要があり、手間
がかかった。The polyethylene pot has a hard texture, has almost no air permeability and water absorption, and since aeration and water absorption are not carried out only through the water drain holes provided on the bottom surface, variations in the height of seedling raising and the number of deaths are large. Moreover, since it is not decomposed by microorganisms in the soil, it is necessary to remove the pot during planting, which is troublesome.
(発明の効果) 本発明は上記の如く、成型ポット基材に、セルロース
系の天然繊維、再生繊維又はセルロース系の半合成繊維
からなる繊維マットを、セルロース含有キトサンを結合
剤とした不織布を供用する為、ドレープ性、吸水性、通
気性が優れる。従って、連結ポットを使用した底面灌水
法において、ポット毎の苗の生長のバラツキ、枯死本数
も少なく、品質の安定した底面灌水法による育成が行な
われる。(Effects of the Invention) As described above, the present invention provides a molded pot base material with a fiber mat made of natural cellulosic fibers, regenerated fibers or semi-synthetic cellulosic fibers, and a nonwoven fabric containing cellulose-containing chitosan as a binder. Therefore, it has excellent drape, water absorption and breathability. Therefore, in the bottom surface irrigation method using a connecting pot, the variation in the growth of seedlings and the number of dead seedlings in each pot are small, and the bottom surface irrigation method with stable quality is performed.
また、本発明の育苗ポットは、土壌中の微生物によっ
て分解する為、ポットを取り除く必要がなく、そのまま
定植出来る為、作業性が改善でき、また分解後、植物や
土壌を全く汚染しない等の種々の効果を有する優れた発
明である。Further, since the seedling raising pot of the present invention is decomposed by microorganisms in the soil, it is not necessary to remove the pot and can be planted as it is, so that workability can be improved, and after decomposition, various factors such as not contaminating plants or soil at all can be obtained. It is an excellent invention having the effect of.
第1図は、本発明の一実施例を示す育苗用ポットの正面
破断断面図、第2図は、第1図に示す育苗ポットのa部
拡大構成断面図、第3図は、同第1図の育苗用ポットを
連結した連結ポットの概略斜視図である。 (1)……育苗用ポット、(2)……セルロース系レー
ヨン繊維、(3)……三次元交絡部、(4)……セルロ
ース含有キトサン結合剤、(5)……多孔質側壁、
(6)……多孔質底面。FIG. 1 is a front cutaway sectional view of a seedling-growing pot showing an embodiment of the present invention, FIG. 2 is a sectional view showing an enlarged portion a of the seedling-growing pot shown in FIG. 1, and FIG. It is a schematic perspective view of the connection pot which connected the seedling raising pot of the figure. (1) ... pot for raising seedlings, (2) ... cellulosic rayon fiber, (3) ... three-dimensional entangled portion, (4) ... cellulose-containing chitosan binder, (5) ... porous side wall,
(6) ... Porous bottom surface.
───────────────────────────────────────────────────── フロントページの続き (72)発明者 吉原 一年 香川県高松市花の宮町2丁目3番3号 工業技術院四国工業技術試験所内 (72)発明者 中川 睦夫 兵庫県宝塚市売布1丁目21番15号 (72)発明者 和田 晴彦 大阪府箕面市粟生間谷西4丁目2―19― 305 (72)発明者 西田 雅昭 兵庫県尼崎市東難波町1丁目3番21号 審査官 坂田 誠 (56)参考文献 特開 平2−2303(JP,A) ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Issei Yoshihara 2-3-3 Hananomiyamachi, Takamatsu City, Kagawa Prefecture, Shikoku Institute of Industrial Technology, Industrial Technology Institute (72) Mutsuu Nakagawa, Takatsuka City, Hyogo 1 No. 21-15 (72) Inventor Haruhiko Wada 4-2-19-305 Aomagaya Nishi, Minoh City, Osaka Prefecture (72) Inventor Masaaki Nishida 1-3-2 Higashi-Namba-cho, Amagasaki-shi, Hyogo Makoto Sakata ( 56) References JP-A-2-2303 (JP, A)
Claims (4)
合成繊維を夫夫単独に又はこれらの複数の混合繊維から
成る繊維マットに於ける繊維相互の交差、接触部を、セ
ルロース含有キトサンを結合剤として付着させ、所要の
形状に熱圧成型してなることを特徴とする育苗用ポッ
ト。1. A cellulosic natural fiber, regenerated fiber or semi-synthetic fiber alone or in a fiber mat composed of a mixture of a plurality of these fibers, bonded to each other at the crossing points and contact points of the cellulose-containing chitosan. A seedling-growing pot, characterized in that it is attached as an agent and is hot-press molded into the required shape.
綿、ポリノジックレーヨン、キュプラレーヨン、異形断
面レーヨン、多孔質レーヨンである請求項1記載の育苗
用ポット。2. Cellulose-based natural fibers and regenerated fibers,
The pot for raising seedlings according to claim 1, which is cotton, polynosic rayon, cupra rayon, irregular cross-section rayon, or porous rayon.
に一体成型により形成してなることを特徴とする育苗用
ポット。3. A seedling-growing pot, characterized in that a plurality of seedling-growing pots according to claim 1 are integrally formed to be connected.
ン、澱粉を吸水剤、可塑剤として含有してなる請求項1
記載の育苗用ポット。4. A cellulose-containing chitosan containing glycerin and starch as a water absorbing agent and a plasticizer.
Seedling raising pot.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2036997A JP2691462B2 (en) | 1990-02-16 | 1990-02-16 | Seedling pot |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2036997A JP2691462B2 (en) | 1990-02-16 | 1990-02-16 | Seedling pot |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH03240417A JPH03240417A (en) | 1991-10-25 |
| JP2691462B2 true JP2691462B2 (en) | 1997-12-17 |
Family
ID=12485374
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2036997A Expired - Fee Related JP2691462B2 (en) | 1990-02-16 | 1990-02-16 | Seedling pot |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP2691462B2 (en) |
Families Citing this family (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH0537044U (en) * | 1991-10-23 | 1993-05-21 | 金井 宏之 | Plant pathogen infection protective seedling container |
| JPH0576252U (en) * | 1992-03-25 | 1993-10-19 | ユニチカ株式会社 | Transplant pot |
| JPH07177822A (en) * | 1993-12-22 | 1995-07-18 | Kanai Juyo Kogyo Co Ltd | Vegetation sheet od nonwoven fabric |
| FR2720222B1 (en) * | 1994-05-24 | 1996-07-05 | Joel Palluet | Container for growing plants and its manufacturing process. |
-
1990
- 1990-02-16 JP JP2036997A patent/JP2691462B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JPH03240417A (en) | 1991-10-25 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| R250 | Receipt of annual fees |
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| R250 | Receipt of annual fees |
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| LAPS | Cancellation because of no payment of annual fees |