M442016 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種水耕栽培裝置,尤旨一種達到定位以 及空氣對流功效之水耕栽培定植結構。 【先前技術】 按,傳統之大型培植場一般皆使用開放式平面土耕農 地,因此需要廣大面積,且易受天候影響,導致產量不穩定, *且有遭外來生物污染之虞,傳統的土耕方式並不適合居住在 城裡的現代人。而且土耕有其瑕疵存在的現象,例如,其一, 該習用之栽培種植農作物的方式,由於必須利用人工或機器 進行鬆土、翻土、挖洞、播種、施肥等工作,因此工作上既 費時且費工,實無法獲致降低生產之成本者;其二,該習用 之栽培種植農作物的方式,如果所挖的小洞分佈不均,或所 挖小洞的深度不一,或在各小洞中所放置之種子數量不一, 結果都將影響農作物之生長發育,會因生長環境過渡密集、 籲擁擠造成植物成長發育緩慢受到限制,致而使得收成困難。 因此,水耕種植的作法近年來也廣受歡迎,可以讓大多 受限於居住環境而無多餘空間的人們利用家中的一角來種植 蔬菜,一來可以避免吃到市售具有農藥殘留的蔬菜,二來可 以在享受種植樂趣之餘減少許多娛樂開銷。農作物培植主要 利用相關設備控制光照、水、空氣等農作物所賴以生長之能 量來源,以期能獲得穩定、品質較高的收穫物,藉以提高穫 物的產值,儘管水耕栽培的空間利用較傳統土耕來得簡便, 3 D耕做到讓水耕植根部浸潤得到培養液 及作用,促進植物體内的物質和能量 代謝,疋植物生命的存活條件及健康考量。 接淒於斯’本案創作人乃經詳思細索,並積多年從事各 培種植經驗,幾經試作與試種,終而得開創出 的生活習性、生長發育規律等特性,控制植物 農作物衣農作物栽種技術水耕栽培的方式供栽培種植 【新型内容】 有鐘於此’本_即在提供—種水耕栽培定植結構其係 -種達到定位以及空氣對流功效,為其主要目的者。 2達上揭目的,本創作之水耕栽培定植結構其至少包含 有-疋植板及-分隔板’其中定植板係為—體成型之板體, 該定植板係具有複數齊狀定植孔以設置蔬菜幼苗,而分隔 板形成有複數容置部供幼苗根部生長空間並防止纏根,而該 定植板一側設有複數凹部,且該凹部鄰設有凸部,又該複數 凹部係相對於該齊列定植孔以抵置,而該分隔板係由複數同 高度侧板所構成,並形成複數容置部,且該複數容置部係相 對該複數定植孔以抵設,又複數凸部係抵設於該複數侧板, 以使定植板平穩固定於分隔板之目的。 使用時’定植板及分隔板配合一盤體,該盤體係以容置 該定植板及分隔板,且盤體内置培養液汲水以提供植物生長 所需水分及養分,而定植板藉由凸部抵設分隔板,而使凹部 與分隔板間形成複數氣流通道,俾達到空氣對流之功效,可 M42016 保持有最佳之濕潤度及透氣性之另一目的。 上述主要結構特徵,所述該定植孔料i:峻办心 供蔬菜幼苗設置,達到穩定幼苗成長位置之目=線貝通孔 錄Ϊ據上述主要結構特徵’所述該定植孔係 乂供蔬菜幼苗設置,達到敎幼苗成長位置之目^縮貝通孔 以徂Ϊ據上述主要結構特徵,所述該定植孔係為渐 从供蔬菜幼苗設置,達到穩定幼料長位置之目^擴貝通孔 依據上述主要結構特徵,所述該定植孔係為方 依據上述主要結構特徵,所述該定植孔係為圓型孔。 依據上述主要結構特徵,所述該定植孔係為多角型孔。 【實施方式】 而 ^創作之_,可參閱本案圖式及實施例之詳細說明 獲伸清楚地瞭解。 如第-圖及第二圖所示’本創作之水耕栽培定植結構其 至^由一定植板10及一分隔板20所構成;其中, 、 該定植板10其係為一體成型之板體,而該定植板1〇係具 有複數穿透定植孔11並呈齊列設置,且該定植板1〇一侧設^ 數凹u卩12,而該凹部12鄰設有凸部13,又該複數凹部12係 相詞'於該排列定植孔11以設置; 、該分隔板20係抵設該定植板10下方,而該分隔板2〇係由 $數同高度側板21所構成,並形成複數容置部22,且該複數 $置部22係相對該複數定植孔1丨以抵設,又複數凸部13係抵 設於該複數侧板21,而使凹部12與分隔板20間形成氣流通道 5 M442016 據以實際實施,如第三圖及第四圖所示,最佳定植板l〇 係設有150〜240個定植孔11以供植入幼苗3〇,而定植板10與 分隔板20組合固定,主要藉由複數凸部13係抵設於該複數側 板21,以使定植板10平穩架設於分隔板2〇,該定植板1〇係藉 由複數齊列之定植孔11以設置幼苗3〇,且該複數容置部22抵 設該複數定植孔11而相對,以提供幼苗3〇根部生長空間並防 止纏根,定植板10及分隔板2〇配合一盤體4〇使用,將定植板 10及分隔板20置入盤體40内,且盤體4〇内盛置有培養液及 水,以使幼苗30根、莖部生長於盆體甲,令幼苗3〇可均勻吸 收,充分得到成長所需水分及養分之效果,利用凸部13抿設 分隔板20’而使凹部12與分隔板2㈣形成複數氣流通道i2i, 俾達到工氣n之功效’可保持有最佳之關度及透氣性。 再者,定她_由魏齊狀定植孔lux設置蔬菜幼 ^- 苗收體31所包覆’而該吸收體31可 為-海棉,藉由吸收體31可輔助幼苗3〇固定於M442016 V. New description: [New technical field] This creation is about a hydroponic cultivation device, especially for a hydroponic cultivation planting structure that achieves positioning and air convection. [Prior Art] According to the traditional large-scale cultivation farms, open-planned soil-cultivated farmland is generally used, so it requires a large area and is susceptible to weather, resulting in unstable production, and there is a tendency to be contaminated by foreign organisms. The farming method is not suitable for modern people living in the city. Moreover, soil cultivation has its own phenomenon, for example, the method of cultivation and cultivation of crops in the past, because it is necessary to use manual or machine for loosening, tumbling, digging, sowing, fertilizing, etc. Time-consuming and labor-intensive, it is impossible to reduce the cost of production; Second, the method of cultivation and cultivation of crops is not uniform, or the depth of the holes to be dug is different, or in small The number of seeds placed in the cave is different. As a result, the growth and development of crops will be affected. Due to the intensive growth of the growing environment and the constrained crowding, the growth and development of plants will be limited, which will make the harvest difficult. Therefore, the practice of hydroponic cultivation has also become popular in recent years, allowing people who are mostly restricted to the living environment without extra space to use the corner of the home to grow vegetables, and to avoid eating vegetables with pesticide residues. Second, you can reduce the entertainment expenses while enjoying the fun of planting. Crop cultivation mainly uses related equipment to control the energy sources on which crops such as light, water and air are grown, so as to obtain stable and high-quality harvests, so as to increase the output value of the obtained materials, although the space utilization of hydroponic cultivation is more traditional. The soil is easy to be cultivated, and the 3 D tillage can make the roots of the water tillage infiltrate to obtain the culture liquid and the role, promote the metabolism of substances and energy in the plant body, the survival conditions and health considerations of the plant life. After the creators of this case, the creators of this case have carefully studied and accumulated many years of experience in planting and cultivation. After several trials and trials, they have to create the characteristics of living habits, growth and development, and control crops and crops. Planting technology, hydroponic cultivation, cultivation and planting [new content] There is a bell in this 'this _ is to provide a kind of hydroponic cultivation planting structure, its lineage to achieve positioning and air convection effect, its main purpose. 2 The purpose of the invention is that the hydroponic cultivation planting structure of the present invention comprises at least a planting plate and a partition plate, wherein the planting plate is a body-formed plate body, and the planting plate has a plurality of uniform shaped holes. The vegetable seedlings are arranged, and the partitioning plate is formed with a plurality of accommodating portions for the root growth space of the seedlings and preventing the rooting, and the plurality of concave portions are arranged on one side of the planting plate, and the concave portion is adjacent to the convex portion, and the plurality of concave portions are Corresponding to the aligned row of holes, the partition plate is composed of a plurality of the same height side plates, and forms a plurality of receiving portions, and the plurality of receiving portions are opposite to the plurality of planting holes, and A plurality of convex portions are abutted on the plurality of side plates for the purpose of smoothly fixing the planting plate to the partition plate. When used, the 'fixing plate and the dividing plate are combined with a plate body for accommodating the planting plate and the dividing plate, and the culture liquid is built in the plate body to provide water and nutrients for plant growth, and the planting plate borrows The partition plate is abutted by the convex portion, and a plurality of air flow passages are formed between the concave portion and the partition plate to achieve the effect of air convection, and the M42016 can maintain the other purpose of optimal wettability and gas permeability. The main structural features, the planting hole material i: the setting of the heart for the vegetable seedlings, to achieve stable seedling growth position of the target = line Betong hole recorded according to the above main structural features 'the planting hole system for vegetables The seedlings are set up to reach the position of the growth of the seedlings of the seedlings. According to the above main structural features, the planting hole system is gradually set from the seedlings for vegetable cultivation, and the purpose of stabilizing the long position of the young material is expanded. According to the above main structural features, the hole is in accordance with the main structural features, and the planting hole is a circular hole. According to the above main structural features, the colonization hole is a polygonal hole. [Embodiment] As for the creation of the _, the detailed description of the drawings and the examples can be clearly understood. As shown in the first and second figures, the hydroponic cultivation planting structure of the present invention is composed of a certain planting plate 10 and a partitioning plate 20; wherein, the planting plate 10 is an integrally formed plate. a body, and the planting plate 1 has a plurality of penetrating anchoring holes 11 and is arranged in a line, and the fixing plate 1 is provided with a concave u卩12 on one side, and the concave portion 12 is adjacent to the convex portion 13, and The plurality of recesses 12 are arranged to be arranged in the arrangement of the aggregating holes 11; the partitioning plate 20 is disposed below the ablation panel 10, and the partitioning plate 2 is composed of a number of the same height side plates 21, And forming a plurality of accommodating portions 22, and the plurality of locating portions 22 are opposite to the plurality of planting holes 1 ,, and the plurality of convex portions 13 are abutted against the plurality of side plates 21, and the concave portions 12 and the dividing plates are 20 forming airflow channels 5 M442016 According to the actual implementation, as shown in the third and fourth figures, the optimal planting plate is provided with 150~240 planting holes 11 for seedling seedlings, and the planting plate 10 is fixed in combination with the partitioning plate 20, and is mainly disposed on the plurality of side plates 21 by the plurality of convex portions 13 so that the planting plate 10 is stably erected on the partitioning plate 2, The planting plate 1 is provided with a plurality of seeding holes 11 to set the seedlings 3, and the plurality of receiving portions 22 are opposed to the plurality of planting holes 11 to provide a growth space of the roots of the seedlings 3 and prevent rooting. The planting plate 10 and the partitioning plate 2 are used together with a disk body 4, and the planting plate 10 and the partitioning plate 20 are placed in the disk body 40, and the culture liquid and water are placed in the disk body 4 to make the seedlings 30 roots and stems grow in the basin body, so that the seedlings can be uniformly absorbed, and the effect of growing water and nutrients can be fully obtained. The partitioning plate 20' is provided by the convex portion 13 to make the concave portion 12 and the partition plate 2 (4) Forming a plurality of airflow channels i2i, and achieving the effect of the work gas n can maintain the best degree of visibility and gas permeability. Furthermore, it is determined that the seedlings 31 are covered by the Weiqi-shaped planting hole lux, and the absorbent body 31 can be - sponge, and the absorbent body 31 can be used to assist the seedlings 3
及該吸收體31可吸收盆體内讲盖波s u 士 植LU U 且該定植孔= =養液及水有助於滋養幼苗3〇, 導向二:貫通孔,以提供幼苗3〇達到穩定成長 穩定成ίΐθ Ϊ孔11係為漸縮貫通孔’以提供幼苗達到 :苗=成;ί向該定植孔11係為漸擴貫通孔,以提供 置空間。或者,該定植孔型:提菜幼苗栽植設 植設置空間。或者,較植孔的自提供蔬菜幼苗栽 幼苗栽植設置空間。 j ^•孔,俾提供蔬菜 此外,該盤賴與該分隔⑽射—體成型。 6 M442016 綜上所述,本創作提供一較佳可行之水耕栽培定植結 構,爰依法提呈新型專利之申請;本創作之技術内容及技術 特點巳揭示如上,然而熟悉本項技術之人士仍可能基於本創 作之揭示而作各種不背離本案創作精神之替換及修飾。因 此,本創作之保護範圍應不限於實施例所揭示者,而應包括 各種不背離本創作之替換及修飾,並為以下之申請專利範圍 所涵蓋。 • 【圖式簡單說明】 第一圖係為本創作之結構分解圖。 第二圖係為本創作局部結構示意圖。 第三圖係為本創作之實施立體結構示意圖。 第四圖係為本創作之氣流通道之局部結構示意圖。 【主要元件符號說明】 t 侧板21 容置部22 幼苗30 吸收體31 盤體40 定植板10 定植孔11 凹部12 氣流通道121 凸部13 分隔板2 0 7And the absorbent body 31 can absorb the cover body of the sacred sac plant LU U and the planting hole = = nutrient and water help nourish the seedling 3 〇, guide two: through hole, to provide seedling 3 〇 to achieve stable growth Stabilizing into ΐ θ Ϊ Ϊ 11 is a tapered through hole 'to provide seedlings to reach: seedling = ing; ί to the planting hole 11 is a diverging through hole to provide space. Or, the planting hole type: planting seedling planting and planting space. Alternatively, the planting seedlings of the self-provided vegetable seedlings are planted to set a space. j ^• hole, 俾 provide vegetables In addition, the plate is molded with the separation (10). 6 M442016 In summary, this creation provides a better and feasible hydroponic cultivation and planting structure, and submits a new patent application according to law; the technical content and technical characteristics of this creation are disclosed above, but those familiar with the technology still It is possible to make various substitutions and modifications based on the disclosure of this creation without departing from the spirit of the creation of the case. Therefore, the scope of protection of this creation should not be limited to those disclosed in the examples, but should include various substitutions and modifications that do not depart from the present invention and are covered by the following patent application. • [Simple description of the diagram] The first diagram is an exploded view of the structure of the creation. The second picture is a schematic diagram of the partial structure of the creation. The third figure is a schematic diagram of the three-dimensional structure of the implementation of the creation. The fourth figure is a partial structure diagram of the airflow channel of the creation. [Main component symbol description] t side plate 21 accommodating portion 22 seedling 30 absorbent body 31 disk body 40 planting plate 10 planting hole 11 concave portion 12 air flow passage 121 convex portion 13 partition plate 2 0 7