M408934 五、新型說明: 【新型所屬之技街領域】 本創作係關於-種植物裁培器,特別是一種能夠使植 物吸收到濃度均勾之營養液而提升生長率之植物栽培器。 【先前技術】 植物營養液係所有可能影響植物生長元素物質之統 稱’具有促進植物生長發育、提升植物養分吸收率及免疫 力、改善土壤環境等功能。 為避免-次供應過多的營養液而造成植物發育之負 擔,-般都會在盆栽底部額外設置一容置空間以裝盛營養 液,使營養液與-部分的栽培介質接觸,透過毛細現象由 植物根部逐漸吸收該營養液。 惟,植物營養液通常係由兩種以上的成分調和而成, 因此在靜置-段時間後’營養液f會發生濃度不均的現 象,而降低植物對該營養液之特定成分的吸收率,以 響該營養液之功效。 / 【新型内容】 本創作之主要目的係提供一種植物栽培器,係可適時 地獅營養液’使植物能吸收到濃度均勻之營養液者。 為達到前述目的’本創作所運用之技術内容包含有: 一種植物栽培H,係包含:—栽植盆,具有—端開放 之一容槽;-承載座,設置於該栽植盆中,該承載座具有 一下承盤一隔板、-上承盤及—支稽部,賴板設置於 該下承盤與上承盤之間,該隔板將該栽植盆之容槽分隔成 —3 M408934 第-腔至與-第—腔室,該上承盤設有連通該第二腔室 之一谷置口及一注液口,該支撐部係連接設置於該下承盤 與上承盤之周緣;-介質容器,設置於該上承盤之容置口 中;及一氣泵’設置於該栽植盆之第-腔室中,該氣泵-端穿過該隔板而連通至該第二腔室。 【實施方式】 為讓本創作之上述及其他目的、特徵及優點能更明顯 易懂’下文特舉本創作之較佳實施例,並配合所附圖式, 作詳細說明如下: 月> 、第1、2圖,係為本創作較佳實施例之立體分 解圖及,,且σ』視圖。在本實施例中,該植物栽培器包含一 栽植盆^、—承載座2、—介質容器3及-氣泵4,該承載 座2及氣系4均5史置於該栽植盆j中該介質容器3則設 置於該承載座2中。 該栽植盆1具有—端呈開放狀之-容槽11,且該栽植 Ϊ可=有:液位視窗12 ’以檢視該容槽11中的液體餘 里 栽植盆1還可以設有-封蓋13,該封蓋13 地蓋合於該栽植盆i以封閉該容槽^,且該封蓋U 之-表面設有—環凸部131,該環 於該承_2底部之最大寬度。 度大 -下座2係設置於該栽植盆1中,該承載座2具有 承盤21、一隔板22、一上承盤23及一支撐部 =承盤21為該承載座2之底盤,用以 ^ 傾倒。該隔板22之一端係設置於該下承盤21頂=: --I. M408934 板22可將§亥栽植盆!之容槽^分隔成不連通之第一腔室 111與第二腔室112 (請參閱第2圖)。該上承盤23則與該 隔板22之另一端相接,使該隔板22設置於該下承盤21 :、上承盤23之間;該上承盤23設有一容置口 231及一注 ,口 232,該容置口 231及注液口 232均連通至該第二腔 至112,該注液口 232係用以供營養液注入,使營養液可 裳盛於該帛二腔室m巾。該支撐部%係設置於該下承盤 21與上承盤23之間,並連接該下承盤21與上承盤幻之 周緣。 在本實施例中,該隔板22與該下承盤21及上承盤23 之間,還可以设有數個強化件221,該數個強化件221與 〇支樓24具有相同效用,可增加該承載座2之結構強 ,使該承載座2之承重能力變強,並可避免該承載座2 ,形三此外,該上承盤23沿該容置口 231周緣可以設有至 )—定位件233 ’且該定位件233可樞轉。該上承盤幻之 液口 232中則可以設有一據網234,以防該栽植盆上之 第一腔至112中孳生蚊蟲。又,該上承盤23對位於該第一 腔至111頂部處,還可以設置-壓板235,且該壓板235 可相對於該上承盤23樞轉。 該上承盤23還可以設有可樞轉之一提把说,該提把 说係供使用者將整個承載座2提起,以便更換營養液或 清洗該栽植盆1。其中,為避免提起該承载座2時將第 二腔室112中的營養液—倂帶出而麵環境,造成清理上 的,擾二該下承盤21之最大寬度可設置為小於該栽植盆ι 之最大寬度’使兩者之間存在有—適當寬度的缝隙,令由 *5 — M408934 營養液可由該缝隙流出;或於該下承盤21設置至少一開 孔’令由營養液可直接向下滲流。 請配合參照第3圖,即使大部分的營養液已被留在該 第二腔室112巾’從該栽植盆〗中取出的承載座2,仍會 帶有-些營養液’故使用者可將料載座2承置於該封蓋 13之環凸部131中,避免營養液參流或_到環境中的癖 污0 該介質容器3係設置於該上承盤23之容置口 231中; 在本實施例中,該介質容器3包含一凸緣31及一杯體仏 該凸緣31伽彡成霞杯體32頂緣。該杯體32中容裝有栽 培介質(例如:土壤、細石或水苔等)及植株,且該杯體 32具有數個穿孔321。該杯體%之最大寬度係、略小於該上 h 23之合置口 23卜使該杯體32可穿過該容置口 231 2置入該第,腔室112中,令該杯體32中的栽培介質及植 :吸收該第—腔至112中的營養液。該介質容器3以該 般t合於該上承盤23頂面,且該凸緣31可被該上承 置口 2^1疋中^233轉卡合,使該介質容器3不易由該容 5該氣泵4可設置於該裁植盆1之第-腔室出中,該 ^栗4具有依序接設之一按壓部41、一虔縮部42、一止逆 哕莖及連^ 44 ’且該連管44穿過該隔板22而連通至 琢第二腔室112。 隔板St:可:T於該裁植盆]、該下承盤21或該 位於該苐一腔室in之表面;亦可在該裁植盆J、 Μ承盤21或該隔板22位於該第一腔冑⑴之表面上設 M408934 置炎板,以供該氣泵4欲卡固定。其結合定位方式本創 作並不加以限制,而本實施例之圖式係以該氣泵4黏合於 該下承盤21表面表示。 又,該氣泵4之按壓部41係可以凸出於該上承盤23, 供使用者按壓該按壓部41以操作該氣泵4 ;或使該氣泵4 之按壓部41及壓縮部42均裸露於該上承盤23頂端,由使 用者直接擠壓該壓縮部42以操作該氣泵4。亦可如圖所 示,基於美觀考量,將該氣泵4完全設置於該栽植盆!之 第一腔室111中,並使該氣泵4之按壓部41與該上承盤 23之壓板235相連接,令使用者可透過按壓該壓板235以 操作該氣泵4。 凊參閱第4、5、6圖,在本實施例中,使用者可由該 上承盤23按壓該壓板235,使該壓板235產生樞轉以向下 擠壓該氣泵4之按壓部41,從而致使該氣泵4之壓縮部42 被壓縮,以將氣體通過該連管44輸送至該第二腔室112, 產生如第5圖所示之氣流擾動以攪拌營養液;並於該壓縮 部42恢復未壓縮狀態時,透過該止逆闕43堵住該壓縮部 42末端的開口,避免營養液逆向流入該壓縮部42中。 是以’使用者可藉由適時地反覆按壓該壓板235,使 該氣泵4持續雜第二腔室112中的營養液打氣,造成營 養液在該第二腔室112中產生流動,使具複方成分之營養 液可充分混合’以麵該介纽$ 3巾各祕所吸收到的 營養液濃度均勻’從而發揮該營養液之最大效用。 知上所述’本創作之植物栽培器係可適時地擾拌營養 液’使植祕吸收到濃度均勻之營養液,具有提升植物對 M408934 營養液之吸收效率的功效,從而促進植物之生長發育。 雖然本創作已利用上述較佳實施例揭示,然其並非用 以限定本創作’任何熟習此技藝者在不脫離本創^之精神 和範圍之内’域上述實關精各歡軸修改仍屬本 創作所保護之技術料,目此本創作之賴翻#視後附 之申請專利範圍所界定者為準。 【圖式簡單說明】 第1圖:本創作較佳實施例之立體分解圖。 第2圖:本創作較佳實施例之組合剖視圖。 第3圖:本創作將承载座承置於封蓋之實施示意圖。 第4圖:本創作進行打氣動作之實施示意圖。 第5圖:第4® 5_5線之剖視圖,揭示氣流循環示意。 第6圖.本創作完成打氣動作之實施示意圖。 【主要元件符號說明】 1 栽植盆 11 容槽 111第一腔室 112 第二腔室 12液位視窗 13 封蓋 131環凸部 2 承载座 21 下承盤 22隔板 221 強化件 23上承盤 231 容置口 232注游nr ___ 233 定位件 —8 — M408934 234 濾網 235 壓板 236 提把 24 支撐部 3 介質容器 31 凸緣 32 杯體 321 穿孔 4 氣泵 41 按壓部 42 壓縮部 43 止逆閥 44 連管M408934 V. New Description: [New Technology Street Area] This creation is about plant-cutting devices, especially a plant grower that can increase the growth rate by absorbing nutrients from the plant. [Prior Art] Plant nutrient solution is a general term for all substances that may affect plant growth elements. It has functions such as promoting plant growth and development, increasing plant nutrient absorption rate and immunity, and improving soil environment. In order to avoid the burden of plant development caused by the excessive supply of nutrient solution, an additional space is placed at the bottom of the pot to hold the nutrient solution, so that the nutrient solution is in contact with the part of the cultivation medium, and the plant is transmitted through the capillary phenomenon. The root gradually absorbs the nutrient solution. However, plant nutrient solution is usually made up of two or more components. Therefore, after the standing period, the nutrient solution f will have uneven concentration, and the plant will reduce the absorption rate of the specific component of the nutrient solution. To stimulate the efficacy of the nutrient solution. / [New content] The main purpose of this creation is to provide a plant grower, which is a timely lion nutrient solution that allows plants to absorb nutrients with a uniform concentration. In order to achieve the above objectives, the technical content of the present application includes: A plant cultivation H, comprising: a planting pot having a mouth opening; a bearing seat disposed in the planting pot, the bearing seat The utility model has a lower retaining plate, a upper retaining plate and a supporting branch, and the upper plate is disposed between the lower retaining plate and the upper retaining plate, and the partitioning plate divides the receiving groove of the planting basin into -3 M408934 - a cavity to the - the first chamber, the upper retaining plate is provided with a valley opening and a liquid filling port, the supporting portion is connected to the periphery of the lower retaining plate and the upper retaining plate; a medium container disposed in the receiving opening of the upper retaining disc; and an air pump 'disposed in the first chamber of the planting pot, the air pump end passing through the partition to communicate with the second chamber. [Embodiment] The above and other objects, features and advantages of the present invention will become more apparent. The following detailed description of the preferred embodiment of the present invention, together with the accompanying drawings, is explained in detail as follows: Month > Figures 1 and 2 are perspective exploded views of the preferred embodiment of the present invention, and σ" views. In this embodiment, the plant grower comprises a planting pot, a carrier 2, a medium container 3 and an air pump 4, and the carrier 2 and the gas system 4 are all placed in the planting basin j. The container 3 is placed in the carrier 2. The planting pot 1 has an open-shaped container 11 at the end, and the planting pot can have a liquid level window 12' to view the liquid remaining planting pot 1 in the tank 11 and can also be provided with a cap 13. The cover 13 is covered by the planting pot i to close the cavity, and the surface of the cover U is provided with a ring protrusion 131 having a maximum width at the bottom of the base. The large-lower seat 2 is disposed in the planting pot 1 having a retainer 21, a partition 22, an upper retainer 23 and a support portion = the retainer 21 is the chassis of the carrier 2 Used to ^ dump. One end of the partition 22 is disposed on the top of the lower retaining plate 21 =: --I. M408934 The plate 22 can be used to plant the pot! The cavity is divided into a first chamber 111 and a second chamber 112 that are not connected (see Fig. 2). The upper retaining plate 23 is connected to the other end of the partitioning plate 22, and the partitioning plate 22 is disposed between the lower retaining plate 21 and the upper retaining plate 23; the upper retaining plate 23 is provided with a receiving opening 231 and a mouth 232, the receiving port 231 and the liquid filling port 232 are both connected to the second cavity to 112, the liquid filling port 232 is used for injecting nutrient solution, so that the nutrient solution can be held in the second cavity Room m towel. The support portion is disposed between the lower retainer 21 and the upper retainer 23, and is connected to the periphery of the lower retainer 21 and the upper retainer. In this embodiment, between the partition plate 22 and the lower retaining plate 21 and the upper retaining plate 23, a plurality of reinforcing members 221 may be provided, and the plurality of reinforcing members 221 have the same utility as the truss floor 24, and may be added. The structure of the bearing base 2 is strong, so that the bearing capacity of the bearing base 2 is strong, and the bearing seat 2 can be avoided. In addition, the upper retaining plate 23 can be disposed along the circumference of the receiving opening 231. The piece 233' and the positioning piece 233 are pivotable. A net 234 may be provided in the upper reservoir 232 to prevent mosquitoes from being caught in the first chamber to 112 of the planting pot. Further, the pair of upper retaining discs 23 are located at the top of the first chamber to 111, and a presser plate 235 may be provided, and the presser plate 235 is pivotable relative to the upper retaining disc 23. The upper retaining disc 23 can also be provided with a pivotable handle which is for the user to lift the entire carrier 2 to replace the nutrient solution or to clean the planting pot 1. In order to avoid lifting the nutrient solution in the second chamber 112 when the carrier 2 is lifted, the environment is cleaned, and the maximum width of the lower tray 21 can be set to be smaller than the planting basin. The maximum width of ι is such that there is a gap of appropriate width between the two, so that the nutrient solution of *5 - M408934 can flow out from the gap; or at least one opening is provided in the lower retainer 21 to make the nutrient solution directly Seepage down. Please refer to Fig. 3, even if most of the nutrient solution has been left in the second chamber 112, the carrier 2 taken out from the planting pot will still carry some nutrient solution. The material carrier 2 is placed in the ring convex portion 131 of the cover 13 to prevent the nutrient solution from flowing or the contamination in the environment. The medium container 3 is disposed on the receiving port 231 of the upper retaining plate 23. In the present embodiment, the medium container 3 includes a flange 31 and a cup body 彡 彡 彡 into the top edge of the cup 32. The cup 32 contains a culture medium (e.g., soil, fine stone, or sphagnum moss) and a plant, and the cup 32 has a plurality of perforations 321 . The maximum width of the cup body is slightly smaller than the opening port 23 of the upper h 23 so that the cup body 32 can be inserted into the chamber 112 through the receiving opening 231 2 to make the cup 32 Cultivation medium and planting: absorbing the nutrient solution in the first cavity to 112. The medium container 3 is t-joined to the top surface of the upper retaining plate 23, and the flange 31 can be retracted by the upper receiving opening 2, so that the medium container 3 is not easily accommodated. 5 The air pump 4 can be disposed in the first chamber of the cutting pot 1 , and the pump 4 has a pressing portion 41 , a contracting portion 42 , a stalking stem and a connecting body 44 . And the connecting pipe 44 passes through the partition 22 to communicate with the second chamber 112. a partition St: may be: T in the cutting bowl, the lower retaining plate 21 or the surface on the first chamber; or in the cutting bowl J, the bearing tray 21 or the partition 22 The surface of the first cavity (1) is provided with a M408934 argon plate for the air pump 4 to be fixed. The present invention is not limited in its combination, and the drawing of the present embodiment is represented by the air pump 4 being bonded to the surface of the lower retaining plate 21. Moreover, the pressing portion 41 of the air pump 4 can protrude from the upper retaining disk 23 for the user to press the pressing portion 41 to operate the air pump 4; or the pressing portion 41 and the compressing portion 42 of the air pump 4 are exposed to each other. The top end of the upper retaining plate 23 is directly pressed by the user to operate the air pump 4. As shown in the figure, the air pump 4 can be completely set in the planting basin based on aesthetic considerations! In the first chamber 111, the pressing portion 41 of the air pump 4 is connected to the pressing plate 235 of the upper retaining plate 23, so that the user can press the pressing plate 235 to operate the air pump 4. Referring to Figures 4, 5 and 6, in the present embodiment, the user can press the pressure plate 235 from the upper retaining plate 23 to cause the pressure plate 235 to pivot to press the pressing portion 41 of the air pump 4 downward, thereby Causing the compression portion 42 of the air pump 4 to be compressed to deliver gas through the connecting pipe 44 to the second chamber 112, generating a flow disturbance as shown in FIG. 5 to agitate the nutrient solution; and recovering at the compression portion 42 In the uncompressed state, the opening of the end of the compression portion 42 is blocked by the check valve 43 to prevent the nutrient solution from flowing backward into the compression portion 42. Therefore, the user can press the pressure plate 235 repeatedly to make the air pump 4 continue to inflate the nutrient solution in the second chamber 112, thereby causing the nutrient solution to flow in the second chamber 112, so that the compound has a compound The nutrient solution of the ingredients can be fully mixed to achieve the maximum effect of the nutrient solution by uniformly concentrating the nutrient solution absorbed by the secrets of the face. Knowing that the 'plant plant of this creation can disturb the nutrient solution in a timely manner', the plant secret is absorbed into the nutrient solution with uniform concentration, which has the effect of enhancing the absorption efficiency of the plant on the nutrient solution of M408934, thereby promoting the growth and development of the plant. . Although the present invention has been disclosed by the above-described preferred embodiments, it is not intended to limit the present invention. Anyone skilled in the art will not be able to deviate from the spirit and scope of the present invention. The technical materials protected by this creation shall be subject to the definition of the patent application scope attached to this creation. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective exploded view of a preferred embodiment of the present invention. Figure 2: A cross-sectional view of a combination of preferred embodiments of the present invention. Figure 3: This is a schematic diagram of the implementation of the carrier in the cover. Figure 4: Schematic diagram of the implementation of the pumping action. Figure 5: A cross-sectional view of line 4® 5_5, showing the airflow cycle. Figure 6. Schematic diagram of the implementation of the pumping action. [Main component symbol description] 1 Planting basin 11 Jar 111 First chamber 112 Second chamber 12 Liquid level window 13 Cover 131 Ring projection 2 Carrier seat 21 Lower tray 22 Separator 221 Reinforcement member 23 231 容 口 232 游 nr ___ 233 Locator - 8 - M408934 234 Filter 235 Platen 236 Grip 24 Support 3 Media container 31 Flange 32 Cup 321 Perforation 4 Air pump 41 Pressing part 42 Compression part 43 Check valve 44 coordinating