M377859 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種供水管線之結構;特別係指一種能 將供水直接引導至栽植物根部,以獲致可自動供水、給水 均勻以及節省水資源等功效,同時能有效減少長苔、滋生 蟲菌之情形的供水管線之改良結構。 【先前技術】 牧’水是植物M377859 V. New description: [New technical field] This creation relates to the structure of a water supply pipeline; in particular, it refers to a way to direct the water supply directly to the root of the plant to achieve automatic water supply, uniform water supply and water conservation. The improved structure of the water supply pipeline which is effective and can effectively reduce the condition of long moss and worms. [Prior Art] Animal husbandry is a plant
一 /久观77 ,—驭但初體内的含水 :約為60〜90% ’因此必需透過適當給水,方能保持植物 體内的水分平衡與生理活動。 〇人一般係透過人力浩速& 斗、 au, ^ . 边禮八刀麂灌的方式,對花木進行給水, 惟此種方式卻存有以下弊端: 、利用人力進行澆灌, 過量或是供水不足的情形,亦 類進行精確適量之給水。 費時費力,且常會發生供水 無法針對每盆植物及不同種I / Jiuguan 77, 驭 but the initial water content: about 60~90% ‘ Therefore, it is necessary to maintain the water balance and physiological activities in the plant through proper water supply. Deaf people usually use water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water Insufficient circumstances, and also the precise amount of water supply. Time-consuming and laborious, and often water supply is not possible for each pot of plants and different species
行供水^ …用逢水壺或水管等器具直接進 在荦子的:ΓΓ被植物根部吸收,剩餘之供水會積存 甘果于的表層,或是直接由 ^ 形中造成水次裁培,1質表層或底部流失,無 ,成水貝源的浪費,對缺水地區更是雪上加霜。 —、由於每一盆株之用水量不同 ,且均勻的供水,供應水量過少的盆株容易、:進仃 情形。 怀令易造成枯死的 盆株之用水量不同,以 ’供應水量過多的盆株 四、由於每一 適量且均勻的供水 及無法逐盆進行 容易造成根部缺 3 、葉上或是栽培介質的 邊生蟲菌等情形,對植 氧而腐爛,·且多餘供水會積存在莖 表層,與外界接觸後易產生長苔、 物生長造成損害。 有鑑於此,本案創作人遂本著多年從事相關領域 針對前述之缺线人㈣,並依料之需求積極 哥求解決之道,經禍+ Α _ 左過長期努力之研究與測試 成本創作。 ,,、於凡 【新型内容】 爰是’本創作之主要目 良結構,以期栽種植物時, ’俾達到自動給水、給水均 此避免栽植物發生乾枯、長 情形。 的,係提供一種供水管線之改 能將供水直接引導至植物根部 勻與節省水資源等效益,並藉 台、滋生蟲菌、腐爛及壞死等 依據上述之目的,本創作供水管線之改良結構,主要 包含: 供水管線,其上設有至少一個插接孔。 支管,係接設於供水管線的插接孔,該支管末端設有 滴頭。 則述支管係透過接頭而接設至插接孔,藉由接頭迫緊 插接孔周緣形成防漏效用。 前述支管之滴頭,可為一利用具有細孔之材質製成之 滴頭以產生毛細持水能力’使支管的水於滴頭得產生一 負壓現象。 本創作可將水直接引導至栽植物根部,因此水分不會 M377859 故能有效減 ’本創作得 毛細作用, 吸取裁培介 ’具有省時 積存在栽植物外部的莖、葉上並與外界接觸, 少栽植物長苔、滋生蟲菌及腐爛等情形;再者 透過細孔材質滴頭與栽植物之栽培介質的連續 自動吸取支管的水分,再藉由栽植物根部自行 質的水分’無須透過人力或動力方式進行給水 、省力的效益。 本創作係利用「滴灌」方式直接對栽植物根部供水,Water supply ^ ... with a kettle or water pipe directly into the scorpion: ΓΓ is absorbed by the roots of the plant, the remaining water supply will accumulate the surface of the fruit, or directly from the shape of the water to cut, 1 quality The surface layer or the bottom is lost, no, the waste of the water source is even worse for the water-deficient areas. —Because the water consumption of each pot is different and the water supply is uniform, it is easy to supply the potted plants with too little water. The water consumption of the dead pots caused by Huaiyin is different, and the 'pots that supply too much water are four. Because of the proper amount and uniform water supply and the inability to basine the roots, it is easy to cause the roots to be missing 3, on the leaves or on the side of the cultivation medium. In the case of insects, etc., it will rot due to oxygenation, and the excess water supply will accumulate in the surface layer of the stem. When it comes into contact with the outside, it will easily cause damage to the long moss and the growth of the material. In view of this, the creators of this case have been engaged in related fields for many years. In response to the above-mentioned lack of people (4), and relying on the demand for active brothers to seek solutions, the disaster + Α _ left long-term efforts to research and test cost creation. ,,,, Yu Fan [New content] 爰 is the main purpose structure of this creation. When planting plants, 自动 俾 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动 自动The improvement of the water supply pipeline is based on the above-mentioned purpose of providing a water supply pipeline to directly guide the water supply to the root of the plant and to save water resources, and to improve the structure of the water supply pipeline according to the above purpose. Mainly comprises: a water supply pipeline with at least one insertion hole. The branch pipe is connected to the insertion hole of the water supply pipe, and the pipe end is provided with a dripper. The branch pipe is connected to the insertion hole through the joint, and the joint is pressed to the periphery of the insertion hole to form a leakage preventing effect. The dripper of the branch pipe may be a dripper made of a material having a fine hole to generate a capillary water holding capacity, so that the water of the branch pipe produces a negative pressure in the dripper. This creation can direct the water directly to the roots of the plant, so the water will not be M377859, so it can effectively reduce the capillary effect of the creation, and the absorbing and cutting media has the time-saving accumulation on the stems and leaves outside the plant and is in contact with the outside world. Planting long moss, worming and rot, etc.; further, continuously absorbing the moisture of the branch pipe through the fine-pore material dripper and the cultivation medium of the planting plant, and then by the plant roots, the water of the plant itself is not required to pass through Human or power mode for water supply and labor saving benefits. This creation department uses the "drip irrigation" method to directly supply water to the roots of planted plants.
而非以澆灌方式實施,故能避免水逕由栽培介質表層流失 ,進而節省大量的水資源’㈣能夠防止水分及肥料滲入 周遭環境造成之污染。 ~ 【實施方式】 為期使對於本創作之目的、功效以及構造特徵能有更 詳細明確的瞭解’兹配合圖式將本創作之較佳實施例詳細 說明如下’惟此等說明僅係用來說明本㈣,而非對本創 作的權利範圍作任何的限制。 "月參閱第圖,其係揭示本創作第一實施例之立體示 意圖。 . 本創作供水管線之改良結構,主要包含有一供水管線 1,以及複數條設於該供水管線i上的支管2,其中: 供水s線1,為一延接於供水設備與貯水設備之間的 密封管線’主要係以硬質塑性材料所製成者該供水管線 1上係設有數個插接孔1 〇。 支管2,其係透過一接頭2 0而插置在供水管線1的 插接孔1 Q ’藉由接頭2 0迫緊插接孔1 Q周緣形成防漏 5 M377859 效用,並令支管2與供水管線1形成連通態樣,支管2末 端6又有侍分散出水量的滴頭2丄;其中,該支管2係以軟 貝塑丨生材料所製成者,支管2之預設長度可依據設計需求 而調整。 明參閱第二圖與第三圖,其中,第二圖係揭示本創作 第一實施例之實施態樣示意圖;第三圖係揭示本創作第一 實施例之供水示意圖。 第一實施例係應用於大型的盆器5,由於盆器5體積 較大,搬運不易,供水管線丄不便置於盆器5底下,因此 第一實施例係以長度較長的支管2進行實施;所述盆器5 内裝有栽植物4與栽培介質5 〇。 實施時,將供水管線1置 水管線1的支管2插置在鄰於 〇中’使支管2的滴頭2 1直 管線1 一端係設置有一與置於 控制閥6 0 ’另一端則係連接 7及其調郎閥7 0,據此結構 物4的滴灌系統。 於大型盆器5鄰側,並將供 栽植物4根部的栽培介質5 接置於栽植物4根部;供水 較低位置之供水源相連接的 一置於較高位置的貯水設備 ’俾形成-可適時供水栽植 欲供水栽植物4 ’先開啟控制閥6 〇與調節閥7 〇, 並依據栽植物4的種類以及給水頻率,ώ似, ^ ^由供水源施予正遷 ’以驅使適量的水經由控制閥6 〇進入供水管線丄 入貯水設備”;待貯水設備7的水量達至;設水位再: 充滿供水管線1及其支管2後,即可關閉控制閥6〇,, 過貝τ水設備7置於較向位所產生.之水廢,财aInstead of watering, it can avoid the loss of water surface from the surface of the cultivation medium, and save a lot of water resources. (4) It can prevent the water and fertilizer from infiltrating into the surrounding environment. ~ [Embodiment] In order to make a more detailed and clear understanding of the purpose, function and structural features of this creation, the preferred embodiment of the present invention will be described in detail below. However, these descriptions are only for illustration. This (4) is not intended to limit the scope of the rights of this creation. "Month Referring to the drawings, which is a perspective view of the first embodiment of the present invention. The improved structure of the water supply pipeline of the present invention mainly comprises a water supply pipeline 1 and a plurality of branch pipes 2 disposed on the water supply pipeline i, wherein: the water supply s line 1 is an extension between the water supply equipment and the water storage equipment. The sealed line 'is mainly made of a hard plastic material. The water supply line 1 is provided with a plurality of insertion holes 1 〇. The branch pipe 2 is inserted into the insertion hole 1 Q ' of the water supply line 1 through a joint 20, and the leakage effect of the plug hole 1 Q is formed by the joint 20 to form a leakage prevention 5 M377859, and the branch pipe 2 and the water supply are provided. The pipeline 1 forms a connected state, and the end 6 of the branch pipe 2 has a dripper 2 侍 which disperses the amount of water; wherein the branch 2 is made of soft shell plastic material, and the preset length of the branch pipe 2 can be designed according to the design. Adjusted for demand. Referring to the second and third figures, wherein the second drawing reveals a schematic view of the first embodiment of the present invention; the third figure discloses the water supply schematic of the first embodiment of the present creation. The first embodiment is applied to a large pot 5, and since the pot 5 is large in size, handling is not easy, and the water supply line is inconvenient to be placed under the pot 5, the first embodiment is implemented by the branch tube 2 having a long length. The pot 5 is provided with a plant 4 and a cultivation medium 5 〇. In the implementation, the branch pipe 2 of the water supply line 1 of the water supply line 1 is inserted in the vicinity of the crucible. The dripper 2 of the branch pipe 2 is provided at one end of the straight line 1 and is connected to the other end of the control valve 60. 7 and its lang valve 70, according to the drip irrigation system of the structure 4. On the adjacent side of the large pot 5, the cultivation medium 5 of the four roots of the plant is placed in the four roots of the plant; the water supply device connected to the water source in the lower position of the water supply is connected to the water storage device. Water supply can be planted in a timely manner to plant water plants 4 'Open the control valve 6 〇 and adjust the valve 7 〇, and according to the type of plant 4 and the frequency of water supply, similar to ^ ^ by the source of water to promote the right to drive the right amount The water enters the water supply pipeline and enters the water storage device via the control valve 6; the water volume of the water storage device 7 reaches; the water level is again: after the water supply pipeline 1 and its branch pipe 2 are filled, the control valve 6〇 can be closed, Water equipment 7 is placed in a more horizontal position.
®匕合調節閥7 C M377859 的啟閉’得以適時推送供水管線1的水,使其經由滴頭2 1排出至栽培介質5 〇中,以直接對栽植物4根部進行給 水0 由於本創作係採以密閉式的滴灌系統進行供水,而非 使用開放之庚4方式,因此水分不會積存在栽植物4外部 的莖、葉的表層,或是逕由栽培介質5〇表層流失,能夠 防止水分及肥料滲入周遭環境造成之污染,同時避免裁植 物4外部發生長苔、滋生蟲菌與腐爛等情形。 續請參閱第四圖與第五圖,其分別係揭示本創作第— 實施例較佳之供水示意圖(一)、(二)。 於第一實施例中,所述供水管線1的滴頭21,係可 置換成一利用具有細孔之材質所製成的滴頭2 2,以產生 毛細持水此力’使支管2的水於滴頭2 2處得形成 現象。 、 實施時,係將供水管線1一端連接—置於較高位置的 供水設備6 ’供水設備6與供水管線i之間,並設有一控 制閥6 0,供水營綠1 s . ’ 一鈿則係連接—置於較低位置的 貯水設備7 〇 欲供水栽植物4,|„ 先開啟供水設備6的控制閥6 0, 使水經由供水管線1 & ,續輸入貯水設備7中,並透過供 水設備6置於較高位所 其 之水壓,排出供水管線1與支 s 2内口Ρ之空氣,同時拖换古其。 擠支Β 2的水經由滴頭2 2滲出 ,藉以先行沾濕栽植物4 μ & 执人哲"… 物4根。Ρ的栽培介質5 〇,以利於栽 。^丨質5 0進行毛細作用.& 作用,俟供水管線1與支管2内部的 7 «77859 空氣全數排出而呈現充滿水的狀態,gp可關閉控制間6 〇 ’使供水設備6不再供水。 據由刚述之結構設計,置於盆器5内已沾濕的栽培介 質5 0會透過毛細作用,吸取保持在支管2滴頭2 2的水 分,並將水分佈到栽植物4的根部區域,當栽植物4需要 供水時,即會藉由植物根部自行吸取根部區域的水分使 栽培介質5 0漸漸呈現乾的狀態,而栽培介質5 〇會再次 吸取保持在支管2滴頭2 2的水分,以維持足量的水分。 由支管2滴頭2 2與栽培介質5 〇間形成之連續性毛 細作用可吸取水分,並會促使水分經由貯水設備7持續補 充。 當儲水設備7的供水不足時,可再次開啟控制閥6 〇 ,將供水設備6的水引入貯水設備7中,以備栽植物4之 供水。 在前述循環作用下,本創作能夠將水直接引導至栽植 物4根部的栽培介質5 0,藉由栽培介質5 〇之毛細作用 自行吸取支管2滴頭2 2的水分,因此不會供應過多或不 足的水分至栽培介質5 0 ’使栽植物4吸收時能夠得到均 勻、適當之水分,並可節省大量的水資源,且於貯水設備 7儲存有足量水的狀態下’無須透過人力或動力方式進行 給水’因此具有省水、省時、省力的效益。 此外’置於盆器5内的栽培介質5 〇會透過毛細作用 ’吸取保持在支管2滴頭2 2的水分,並將水分佈到栽植 物4的根部區域,當栽植物4需要供水時,即會自行吸取 M377859 根部區域的水分’而當栽植物4吸收水分致使栽培介質5 0漸漸呈現乾的狀態時,栽培介質5 〇會再次吸取保持在 支管2滴頭2 2的水分’以維持足量的水分,從而獲致自 動供水的效用。 請參閱第六圖,其係揭示本創作第二實施例之立體示 _ 意圖。 、. 於第二實施例,本創作所述供水管線之改良結構係採 用另一態樣的支管2a ,該支管2 a得以直接插置方式, _ 疋位於供水管線1的插接孔1 〇中,使支管2 a與供水管 線1形成連通態樣;該支管2 a係以硬質塑性材料所製成 者’支管2 a之預設長度可依據設計需求而調整。 請參閱第七圖與第八圖,其中,第七圖係揭示本創作 第二實施例之實施態樣示意圖;第八圖係揭示本創作第二 實施例之供水示意圖。 第二實施例係應用於小型的盆器5 a ,可利用一底側 φ '設有凹槽3〇的托座3將數個盆器5 3集中承置,再將供 '水官線1置於盆器5 a底側’並選用長度較短的支管2 a •,使其穿置托座3且伸入盆器5 a而作實施;所述盆器5 a内裝有栽植物4a與栽培介質5〇a,盆器5a下方並 設有一可供支管2 a穿置的底孔5丄。 實施方式係如同第一實施例所述:將支管2 a的滴頭 2 1 a直接置於栽植物4 a根部;供水管線丄一端係設置 與置於較低位置之供水源相連接的控制閥6 〇,另一端 則係連接-置於較高位置的貯水設備7及其調節閱7 ; 9 M377859 供水栽植物4 a時,先開啟控制閥6 〇與調節闊7 〇,並 依據栽植物4 a的種類以及給水頻率,由供水源施予正壓 ,以驅使適量的水注入貯水設備7中,待貯水設備7的水 量達至預設水位,並充滿供水管線1及其支管2 a後,即 可關閉控制閥6 〇,透過貯水設備7置於較高位所產生之 水壓,配合調節閥7 〇的啟閉,得以適時推送供水管線工 的水’使其經由滴頭2 1 a排出至栽培介質5 〇 a中,以 直接對栽植物4 a根部進行給水,因此水分不會積存在裁 植物4 a外部的莖、葉的表層’或是逕由栽培介質5 〇 a 表層流失,能夠防止水分及肥料滲入周遭環境造成之污染 ,同時避免栽植物4 a外部發生長苔、滋生蟲菌與腐爛等 情形。 再請參閱第九圖與第十圖,其分別係揭示本創作第二 實施例較佳之供水示意圖(一)、(二)。 於第二實施例中,所述供水管線丄的滴頭2工a,同 樣可置換成一利用具有細孔之材質所製成的滴頭2 2 a , 以產生毛細持水能力’ 4吏支管2 a於滴頭2 2 &處得 一負壓現象。The opening and closing of the coupling control valve 7 C M377859 can push the water of the water supply line 1 in a timely manner and discharge it into the cultivation medium 5 through the dripper 2 1 to directly feed the water to the root of the plant. Water is supplied by a closed drip irrigation system instead of using the open Geng 4 method. Therefore, water does not accumulate on the surface of stems and leaves outside the plant 4, or is lost from the surface of the cultivation medium. And the fertilizer infiltrates the pollution caused by the surrounding environment, and avoids the occurrence of long moss, worms and decay outside the plant 4. Continuation Please refer to the fourth and fifth figures, respectively, which show the preferred water supply schematics (1) and (2) of the first embodiment of the present invention. In the first embodiment, the dripper 21 of the water supply line 1 can be replaced with a dripper 2 2 made of a material having fine pores to generate capillary water holding force, so that the water of the branch pipe 2 is The formation of the dripper 2 2 is a phenomenon. When it is implemented, the water supply line 1 is connected at one end to a higher position water supply device 6' between the water supply device 6 and the water supply line i, and a control valve 60 is provided, and the water supply camp is green for 1 s. Connection - water storage equipment placed in a lower position 7 供水 water supply plant 4, | „ first open the control valve 60 of the water supply equipment 6, so that water is continuously fed into the water storage device 7 through the water supply line 1 & The water supply device 6 is placed at a higher water pressure, and the water in the water supply line 1 and the inner port of the s 2 is discharged, and the water is dragged at the same time. The water squeezing the sputum 2 oozes through the dripper 2 2, thereby dampening first. Planted plants 4 μ &执人哲"... 4 sputum. The cultivation medium of sputum is 5 〇, in order to facilitate planting. 丨 5 5 进行 进行 毛 & & & & & & & & & 俟 俟 俟 俟 俟 俟 俟 俟 俟 俟 俟 俟 俟 俟«77859 Air is exhausted and full of water, gp can close the control room 6 〇' so that the water supply equipment 6 is no longer supplied with water. According to the structural design just described, the culture medium that has been wetted in the basin 5 is 50 Through the capillary action, the water retained in the dripper 2 2 of the branch pipe 2 is absorbed and the water is removed. When the planting plant 4 needs water supply, the plant roots 4 will absorb the water in the root zone to make the cultivation medium 50 gradually dry, and the cultivation medium 5 will be sucked again and kept. The water of the pipette 2 is dripped 2 to maintain a sufficient amount of water. The continuous capillary action formed by the pipette 2 of the branch pipe 2 and the cultivation medium 5 can absorb moisture and promote the water to be continuously replenished via the water storage device 7. When the water supply of the water storage device 7 is insufficient, the control valve 6 再次 can be opened again, and the water of the water supply device 6 can be introduced into the water storage device 7 to prepare the water supply of the plant 4. Under the aforementioned circulation, the creation can directly direct the water. The cultivation medium 50 that is guided to the four roots of the plant is used to absorb the water of the branch pipe 2 of the dripper 2 2 by the capillary action of the cultivation medium, so that no excessive or insufficient water is supplied to the cultivation medium 50 'plants 4 When it is absorbed, it can obtain uniform and appropriate water, and can save a lot of water resources, and in the state where the water storage device 7 stores sufficient water, it does not need to be given by human or power. 'Therefore, it has the effect of saving water, saving time and labor. In addition, the cultivation medium 5 placed in the pot 5 will absorb the water held by the dripper 2 2 of the branch pipe 2 by capillary action, and distribute the water to the plant. In the root region of 4, when the plant 4 needs water supply, it will absorb the moisture of the root region of M377859 by itself. When the plant 4 absorbs water and the cultivation medium 50 gradually becomes dry, the cultivation medium 5 will be sucked again. The moisture of the dripper 2 2 in the branch pipe 2 is maintained to maintain a sufficient amount of moisture, thereby achieving the effect of automatic water supply. Referring to the sixth figure, it is a perspective view of the second embodiment of the present invention. In the second embodiment, the improved structure of the water supply pipeline of the present invention adopts another branch pipe 2a, which is directly inserted, and the _ 疋 is located in the insertion hole 1 of the water supply pipeline 1. The branch pipe 2 a is connected to the water supply line 1; the branch pipe 2 a is made of a hard plastic material. The preset length of the branch pipe 2 a can be adjusted according to design requirements. Please refer to the seventh and eighth figures, wherein the seventh drawing reveals a schematic diagram of the implementation of the second embodiment of the present invention; and the eighth figure discloses the water supply schematic of the second embodiment of the present creation. The second embodiment is applied to a small basin 5a, and a plurality of basins 5 3 can be centrally placed by a bracket 3 having a groove 3 底 on the bottom side, and then the water supply line 1 is provided. Placed on the bottom side of the pot 5 a and select the shorter length of the branch 2 a • to be placed through the bracket 3 and into the pot 5 a; the pot 5a is filled with the plant 4a And the cultivation medium 5〇a, below the basin 5a is provided with a bottom hole 5丄 through which the branch pipe 2a can be placed. The embodiment is as described in the first embodiment: the dripper 2 1 a of the branch pipe 2 a is directly placed on the root of the plant 4 a; the water supply pipe 丄 is provided with a control valve connected to the water supply source placed at a lower position. 6 〇, the other end is connected - the water storage device 7 placed in a higher position and its adjustment read 7; 9 M377859 water supply plant 4 a, first open the control valve 6 〇 and adjust the width of 7 〇, and according to the plant 4 The type of a and the frequency of water supply are positively pressurized by the water supply source to drive an appropriate amount of water into the water storage device 7, and the water volume of the water storage device 7 reaches a preset water level, and after filling the water supply line 1 and its branch pipe 2a, The control valve 6 关闭 can be closed, the water pressure generated by the water storage device 7 being placed at a higher position, and the opening and closing of the regulating valve 7 , can be timely pushed to push the water of the water supply line worker to be discharged through the dripper 2 1 a to In the cultivation medium 5 〇a, water is supplied directly to the root of the plant 4 a, so that the water does not accumulate in the surface of the stem or leaf outside the plant 4 a or the surface is lost from the surface layer of the cultivation medium 5 〇a, which can prevent Water and fertilizer infiltrate into the surrounding environment Pollution, while avoiding the occurrence of external plantings 4 a long moss, bacteria and insect breeding situation rot and the like. Referring to the ninth and tenth drawings, respectively, the water supply schematics (1) and (2) of the second embodiment of the present invention are disclosed. In the second embodiment, the dripper 2 of the water supply line 同样 can also be replaced with a dripper 2 2 a made of a material having pores to generate a capillary water holding capacity ' 4 吏 branch 2 a at the dripper 2 2 & a negative pressure phenomenon.
實施方式係如同第一實施例所述:將供水管線丄_端 連接置於&向位置的供水設備6,供水設備6與供水管 線1之間設有—控制閥6 Q ’供水管線1另-端則係連接 置於車乂低位置的貯水設備7 ;先開啟供水設備6之控制 閥6 0以供水至貯水設備7,藉以抽出供水管線1與支管 2 3内部之空氣’科推擠支管2 a的水經由滴頭2 2 I 10 ^出藉以先行沾濕栽植物4 a根部的栽培介質5 〇 a , 总1J於栽培介質5 0 a進行毛細作用;俟供水管線工與支 :2 a的空氣全數排出而呈現充滿水的狀態,㈣控制 6 0以停止供水。 置於盆器5 a内已沾濕 作用’吸取保持在支管2 a 分散佈到栽植物4 a的根部 ’即會自行吸取根部區域的 逐漸下降,而栽培介質5 〇 滴頭2 2 a的水分;據由前 以及省水、省時、省力等多 由栽培介質5 0 a表層流失 環境造成之污染’同時避免 生蟲菌與腐爛等情形。 的栽培介質5 0 a會透過毛細 滴頭2 2 a内的水分,並將水 區域’當栽植物4 a需要供水 水分’使栽培介質5 〇 a濕度 a會再次吸取保持在支管2 a 述動作之循環,達到自動供水 重效益,並能有效減少水分逕 ,俾防止水分及肥料滲入周遭 栽植物4 a外部發生長苔、滋 綜合以上所述,本創作可歸納有以下效益: -、本創作可係利用「滴灌」方式直接對栽植物根部 供水,而非以洗灌方式實施’故能避免水逕由栽谇介質表 層流失1而節省大量的水資源,同時能夠防止水分及肥 料滲入周遭環境造成之污染。 二、承上,本創作可將水直接引導至栽植物根部,因 此水分不會積存在栽植物外部的贫、整 二 茱上並與外界接觸, 故能有效減少栽植物長苔、滋生蟲菌及腐爛等情形。 與栽培介質之連續毛 栽•植物根部自行吸取 三、本創作可透過細孔材質滴頭 細作用自動吸取滴頭的水分,再藉由 M377859 栽培介質的水分,使裁植物得到均勻、適當之水分供應, 不會發生水分過多、過濕造成根部缺氧而腐爛,或是水分 不足造成栽植物枯死的問題。 四、 於貯水設備儲存有足量水的狀態下,栽植物能夠 透過毛細作用自行吸取栽培介質的水分,無須透過人力或 動力方式進行給水,具有省時、省力的效益。 五、 本創作可令栽植物得到均勻充分的水分供應,並-能有效減少栽植物乾枯、長苔、滋生蟲菌、腐爛及壞死等- 情形’因此能令栽植物的生長發育狀況更佳優異,俾能提 籲 升產品賣相’增加產業價值。 本創作在同類領域中具有極佳之進步性及實用性,同 時查遍國内外關於此類架構之技術資料文獻,亦未發現有 相同近似之構造存在於先,應已符合『新穎性』、『進步 陡』、『合於產業利用性』以及『創作性』等專利要件, 爰依法之提出申請。 凡應用本專利說明書以及 法結構變化者,均屬可行 乂上所述者僅係本創作之較佳實施例而已,故舉 範圍内。 以及申請專利範圍所為之其他等效方 _ 可行,理應包含在本創作之申請專利 12 M377859 【圖式簡單說明】 第一圖係揭示本創作第一實施例之立體示意圖。 第二圖係揭示本創作第一實施例之實施態樣示意圖。 第三圖係揭示本創作第一實施例之供水示意圖。 第四圖係揭示本創作第一實施例較佳之供水示意圖(一)。 第五圖係揭示本創作第一實施例較佳之供水示意圖(二)。 第六圖係揭示本創作第二實施例之立體示意圖。 第七圖係揭示本創作第二實施例之實施態樣示意圖。 第八圖係揭示本創作第二實施例之供水示意圖。 第九圖係揭示本創作第二實施例較佳之供水示意圖(一)。 第十圖係揭示本創作第二實施例較佳之供水示意圖(二 【主要元件符號說明】 1 • • . •供水 管線 1 0 •插接 孔; 2 • •支管 2 a •支管 2 0 •接頭 2 1 •滴頭 2 1 a · •滴頭 2 2 • * •滴頭 2 2 a · •滴頭 3 •- •托座 3 0 « · •凹槽 .··.栽植物; 4 3 · · •栽植物; 5 • . * •盆器; 5 3 · · •盆器; 5 〇 ·. •栽培介質 5 0 a · •栽培介質 5 1 ·. •底孔; 6 • . . •供水設備 6 0 ·. •控制閥; 7 • . . •貯水設備 7 0 ·. •調節閥; 13The embodiment is as described in the first embodiment: the water supply line 丄_ end is connected to the water supply device 6 in the & position, and the water supply device 6 is provided between the water supply line 1 and the control valve 6 Q 'water supply line 1 - The end is connected to the water storage device 7 placed at a low position of the rut; the control valve 60 of the water supply device 6 is first opened to supply water to the water storage device 7, thereby extracting the air inside the water supply line 1 and the branch pipe 2 2 a of water was dripped through the dripper 2 2 I 10 ^ to first wet the planting medium 4 a root of the cultivation medium 5 〇a, total 1J in the cultivation medium 50 a for capillary action; 俟 water supply pipeline workers and branches: 2 a The air is completely discharged and appears to be filled with water. (4) Control 60 to stop the water supply. After being placed in the pot 5a, it has been wetted and 'sucked and kept in the branch 2 a dispersing cloth to the root of the plant 4 a' will gradually absorb the root area gradually, while the cultivation medium 5 〇 drip 2 2 a of water According to the previous and water saving, time saving, labor saving, etc., the pollution caused by the environmental loss of the surface of the cultivation medium 50 a is also avoided while the insects and decay are avoided. The cultivation medium 50 a will pass through the water inside the capillary dripper 2 2 a, and the water area 'when the plant 4 a needs water supply water', so that the cultivation medium 5 〇a humidity a will be sucked again and held in the branch pipe 2 a The cycle can achieve the benefits of automatic water supply, and can effectively reduce the water diameter. Prevent the infiltration of water and fertilizer into the surrounding plants. 4 a. The existing moss and nourishment are combined. The creation can be summarized as follows: - This creation It is possible to use the "drip irrigation" method to directly supply the roots of the planted plants instead of using the irrigation method. Therefore, it can avoid the loss of the water surface from the surface layer of the planting medium and save a lot of water resources. At the same time, it can prevent water and fertilizer from infiltrating into the surrounding environment. Caused by pollution. Second, the contract, the creation can direct the water directly to the roots of the plant, so the water will not accumulate on the poor and the whole scorpion outside the plant and contact with the outside, so it can effectively reduce the plant moss, growth and insects And rot and other situations. Continuously planting with the cultivation medium • The roots of the plants are self-absorbed. 3. This creation can automatically absorb the moisture of the dripper through the fine pores of the fine-pored material, and then use the moisture of the culture medium of M377859 to make the plants get uniform and proper moisture. Supply, there will be no problem of excessive water, excessive moisture causing hypoxia and decay of the roots, or water shortage causing plant plants to die. 4. In the state where the water storage equipment stores sufficient water, the plant can absorb the water of the cultivation medium by capillary action, and does not need to supply water by manpower or power, which has the effect of saving time and labor. 5. This creation can make the plants have a uniform and sufficient water supply, and can effectively reduce the dryness, long moss, worms, decay and necrosis of the plant - so that the plant can grow and develop better. , can not mention the product sales phase to increase the value of the industry. This creation has excellent progress and practicality in the same field. At the same time, it has searched the domestic and foreign technical literature on such architecture, and found that the structure with the same approximation exists first, and should have met the "novelty". The patent requirements such as "progressive steepness", "combined with industrial use" and "creative" are applied in accordance with the law. It is possible to apply the present specification and the changes in the legal structure. The above description is only the preferred embodiment of the present invention, and so is within the scope. And other equivalents of the scope of the patent application _ feasible, should be included in the patent application of this creation 12 M377859 [Simple description of the drawings] The first figure reveals a perspective view of the first embodiment of the present creation. The second figure reveals a schematic diagram of an implementation of the first embodiment of the present creation. The third figure reveals a schematic diagram of the water supply of the first embodiment of the present creation. The fourth figure discloses a preferred water supply schematic (1) of the first embodiment of the present creation. The fifth figure reveals a preferred water supply schematic (2) of the first embodiment of the present creation. The sixth figure discloses a perspective view of a second embodiment of the present creation. The seventh figure is a schematic view showing an embodiment of the second embodiment of the present creation. The eighth figure discloses a water supply schematic of the second embodiment of the present creation. The ninth drawing discloses a preferred water supply schematic (1) of the second embodiment of the present creation. The tenth figure discloses a preferred water supply schematic of the second embodiment of the present invention (two [main component symbol description] 1 • • . • water supply line 1 0 • plug hole; 2 • • branch pipe 2 a • branch pipe 2 0 • joint 2 1 • dripper 2 1 a • • dripper 2 2 • * • dripper 2 2 a • • dripper 3 •- • bracket 3 0 « · • groove...··. planting plants; 4 3 · · • Planting plants; 5 • . * • Pots; 5 3 · · • Pots; 5 〇·. • Cultivation medium 5 0 a • • Cultivation medium 5 1 ·. • Bottom hole; 6 • . . • Water supply equipment 6 0 ·. • Control valve; 7 • . . • Water storage equipment 7 0 ·. • Regulating valve; 13