200932102 九、發明說明: 【發明所屬之技術領域】 本發明係有關一種餵食器,特別是關於一種手動或自 .動之餃食器,可依據養殖生物之特性,精準控制傲食量, . 並且可避免銀食物受潮。 【先前技術】 傳統養瘦錢廣泛利料具有天然水源供應之陸地盘 海2。但是由於缺乏完善的環境規劃,使得環境中之生物 群落逐漸改變,並且可能因此為周遭的生態系統帶來嚴重 的污染及傷害。 近年來’各式水產品養殖已於多數家庭或養殖廠中飼 養。但往往由於工作繁忙及外出期間等人為疏失,使得所 養殖^水產品因無法獲得餵食物,或因過多的銀食物破壞 f殖環境之平衡而造㈣亂的養輯境,而最後被迫面臨 棄養或死亡之情況。 G 目前市面上現有之餵養裝置,品質良莠不齊。有些餵 養^置具備精密電子儀器設備,成本可能非常昂貴;如選 擇饧格便宜之餵食器,可能僅將所盛裝之飼料落下,並無 =到準確歧時定量餵奴效果。而有魏養裝置仍須 =合其他複數控制裝置,則需另提供複數控制裝置之能 f,頗耗費能源。再者,有些餵養裝置之餵食物甚至因為 =觸到養殖池水或水氣受潮而腐敗,輕者造成儀食物之浪 ^ 嚴重者可能造成養殖環境混濁。此外,一般餵養裝置 白未月b達到精準分配之餵食量,而使消費者與使用者無從 200932102 選擇。 有鑑於上述,本發明係提供一種新穎之餵食器,可解 決上述之習知問題,達到精確控制餵食物之進出量,以節 •省餌料,並且可穩定養殖水質環境以方便管理。 【發明内容】 在此,本發明將詳細地敘述一些實施例。然而,值得 注意的是除了這些明確之敘述外,本發明可以實施在盆他 廣泛範圍之實施例中,並且本發明之範圍不受限於上述實 施例,其當視後述之專利申請範圍而定。 本發明之一優點係在於提供一種餵食器,可精準控制 傲食物體積以節省㈣,及穩定養殖水質環境以方便管理。 本發明之另一優點係在於提供一種餵食器,可使養殖 生物健康且快速成長,以達到最大經濟效益。 本發月之又一優點係在於提供一種銀食器,可使傲食 物槽不與養殖池水或水氣直接或間接接觸而,以 U 餵食物受潮。 免 本發明係揭露一種餵食器,包含:殼體;轉軸,係配 置於殼體之中心轴線上;容納體,具有複數中空孔貫穿, 且可依據轉軸旋轉,以利食物通過;及進料單元與出料單 疋’配置於容納體兩侧,其中餵食器可藉由轉轴驅動容納 體俾使依所疋方式分配食物以利傲食。其中進料單元與 出料單元之穿孔係交錯配置。 【實施方式】 在下列敘述中’各式特定細節係用以提供本發明實施 200932102 钱l盤了解。本發明將配合其較佳實施例與後附之圖式 L ^ ;下應理解者為本發財所有之較佳實施例僅為例 :之用’並非用以限制本發明。熟知該項技術者亦應理解, 本發明之實施不須-或多特定細節,或其他特定方法、組 成物或材料等。 值得注意的{,本發明所附之圖式係僅用卩說明本發 明,並非用以限定本發明,因此圖式中之元件並未依照實 際尺寸或比例繪製。 ❺ 參考第一圖,係為根據本發明之餵食器1〇之透視示意 圖。本發明係揭露一種餵食器10,包含外殼u、進料單^ 2谷洎體14、出料單元16、轉軸18、旋轉軸19及基座 30。在一較佳實施例中,基座3〇可耦合至各式水產養殖箱 網或缸之上方或周圍,並且本發明之餵食器1〇可藉由底端 ^基座3G’使假食器中之餵食物不會直接與養殖池水或水 氣接觸’進而可達到防潮之效果。 ❹ 外殼11係用以容納進料單元12、容納體14、出料單 元16及轉軸18,並且利用轉軸18依序耦合進料單元12、 容納體14及出料單元16。當轉軸18轉動時會驅動攪拌棒 19轉動,而使餵食物依序通過進料單元12、容納體“及 出料單元16,可依照所需將餵食物均勻分配以利餵食。 在一實施例中,上述外殼U係為一圓筒狀,以利容納 上述進料單元12、容納體14、出料單元16及轉軸18。 根據本發明之一觀點,進料單元12可為平面體之形式 或錐形體之形式。第二A圖係為根據本發明之平面體進料 200932102 單=之不意圖。進料單元12包含複數孔形成於其上。 ,料單元12之中央位置配置一孔13,並且孔13之直徑係 、勺略大於轉轴18之直徑,以利轉軸18通過與轉動。在— 實轭例中,進料單元12係固定於外殼11,可使進料單元 12不會因為轉軸18之轉動而改變進料之方向。 進料單元12之周圍位置配置複數幾何形孔2〇,例如 扇幵/孔作為進料位置,,以利银食物通過。在一實施例中, 幾何形孔20包含’但不限定於,四邊形孔,如矩形、梯形 等以利餵食物通過,較佳的係為扇形孔。舉例而言,上述 複數4何形孔20係以孔13為中心,而對稱配置於進料單 元12上。在一實施例中,進料單元12具有兩對稱配置之 幾何形孔20。較佳的,幾何形孔2()之尺寸係以進料單元 12之圓心為中心起算約略呈65。至乃。,最佳為7〇。,將 有助於假食物通過。在一實施例中,上述平面體進料單元 12係為一圓形平板,將有助於轉軸18之轉動。 ❹ 第二B圖係為根據本發明之錐狀體進料單元21之示 意圖。錐狀體進料單7C 21具有複數孔配置於其上。進料單 元21之中央位置配置孔13,以利轉車由18通過。並且進料 單元之周圍位置配置複數幾何形孔2〇,以利傲食物通 過。在此,省略相似元件之敘述,以避免模糊本發明。 參考第三圖’係為根據本發明之容納體14之透視干音 圖。容納體Η具有複數中空孔15形成於其中且貫穿容: 體!4,以利容納餵食物,並且其中央位置具有—孔π# 過容納體14,以利轉軸18通過。容納體14之直徑係略小 200932102 於外殼11之直押,并n + + 單元12(或進料t _並且中空孔15之直徑係約略小於進料 ,早70 21)之寬度。在一實施例中,中空孔15 ^ '丄工之圓桎體’並且為對稱配置之複數中空孔15。 牛,I!而。奋納體14較佳具有四個中空孔15,且兩兩分 別對稱配置。 叩刀 田轉軸18轉動時,餵食物經由外殼u上方 與攪拌棒19之攪挑鈾邮$ a A 日田置力 、隹粗品枯 透過進料單元12之幾何形孔20 ❹ 進料’而填入對向之兩φ介^丨κ 棘# Q〇。 之兩中二孔15。待填滿後,將轉軸ι8 轉動,此時遂將填滿餵食物之兩對向中空孔15轉 而使另-垂直對向之財空孔15對準進料單元12之轉幾~何 物= 進:進料。然後, 〜叩訂向中玉孔15 ’透過出料單元 4何形孔22,例如㈣孔,騎 轉動-圈,將定量輸出兩中空孔15體積之银:18母 =為根據本發明之^料單元16之示意圖。出料 單7〇 1 ό匕g複數孔22 ,以利健+你 食物通過。出料單元16之 發明中:::轉軸18通過。值得注意的是,本 嗌月中之出枓早兀16與進料單 在此省略相似元件之街、f v ^ 為相似凡件’因此 錢即7G件之敘述,以避免模糊本發明。 在一較佳實施例中,進 平行排列,且配置於容納體14端、料單元16係為 u中餵食物之進料與出料。舉例之而控制容納體 何形孔(扇形孔)20與出料單元16 〒|二12之幾 兩者係為互相交錯且非直接貫穿孔(扇形孔阳 換s之,進料單元12 9 200932102 ::者=:與_“之幾何,形 當中空孔15之 形孔)20日寺,傲食物可透過進料單元η之幾==(扇 孔)20填入容納體14之令空孔⑴而中空孔c =出料單元16所擋住,因此所填裝 二:端 中空孔15而不會露出。 了確實填入 ,第五圖係為根據本發明之容納體"與轉軸 透視示意圖。在一較佳眘浐為 之、、且s 19且配置於丄 ㈣18係輕合_棒 二且配置於轉軸18之上端,用以轉動 : 輔助轉㈣之轉動,及協助授㈣食物, :於 至容納體14。 J 1凌填为配 動作2實rj中,轉軸18由可程式化控職置所控制其 作與否。舉例而言,可程式化控制裝置可為具有可程式 化裝置之個人或筆記型電腦。使用者可將所需條件鱼設^ 輸入可程式化控制裝置’藉以自動控制餵食器,以利依照 使用者之需求而驅動餵食器。 ±第六圖係為根據本發明之餵食器10之整體示意圖。外 殼11之上半部係為餵食物24之容納位置, 食物24進出料之位置。在-實施例中,飯食物2^ = 枓。舉例而言,餵食物24可為魚、蝦、蟹、貝類等水生動 物之飼料。值得注意的是,本發明所述之進料單元12與出 料單元16之幾何形孔20與22、中空孔15及攪拌棒19之 尺寸,可依照餵食物24之不同及使用者之不同需求而作變 200932102 更。 參考第七圖,係為根據本發明之餵食物24進入餵食器 10之運作示意圖。為了確保餵食物24進:: 2發4=食…有斜角25與彎角— 住或剪碎動或往水平方向移動’可使歸物24不易被卡 ,—較佳實施例中,平面體進料單元12或錐形體進料 η;容斜角25之設計,使得位於進料單元 球 赴 艮物24顆粒間之接觸,有如撞球桿與 以二力2觸’而非面接觸’可減少其間之接觸與摩擦,、 θ加餵食器操作之順暢度。 ” :、内體14之圓柱狀中空孔。上方亦配 之设计。變腳26設計係…Μ15 二角6 口且直徑略大於圓柱狀中空孔之尺寸,亦即將置中為 〇 兩曲且平滑之設計,以利餘食物24:過。 根據本發明之一觀點,本 人重複多次實驗所得之技術内容,並且撼係經過申請 其誤差值均小於1%,實驗結果說明如下根:實果可知 本發明之實驗結果係僅用侍注思的是’ 發明。 用^明本發明’並非用以限定本 制3次、電子控㈣方式分成手動控 每種變因均重覆至少欠 圈專二種方式,並且 人實驗。所有測試結果之標準偏差 200932102 均小於O.lg ’偏差率小 10效果十分精準。實驗 於1/〇,因此可知本發明之飯食 數據如下表: 器200932102 IX. Description of the invention: [Technical field of the invention] The present invention relates to a feeder, in particular to a manual or self-propelled dumpling, which can accurately control the amount of food according to the characteristics of the cultured organism, and can be avoided. Silver food is damp. [Prior Art] The traditional thin-growing money has a wide range of natural land supply. However, due to the lack of sound environmental planning, the biological community in the environment is gradually changing, and may cause serious pollution and damage to the surrounding ecosystem. In recent years, various aquatic products have been raised in most households or farms. However, due to the heavy workload and the loss of man-made during the outing period, the cultured water products are not able to obtain food, or because of the balance of the excessive silver food, the (four) chaotic environment, and finally forced to face Abandonment or death. G The current feeding devices on the market are of mixed quality. Some feeding devices are equipped with sophisticated electronic equipment, which can be very expensive; if you choose a cheaper feeder, you may only drop the contained food, and there is no = accurate feeding effect. However, there is still a need for the Wei control device to be combined with other complex control devices. In addition, the feeding of some feeding devices is even corrupted because of the exposure to the water in the culture pond or the moisture of the water, and the light causes the waves of food. In severe cases, the breeding environment may be turbid. In addition, the general feeding device has reached the accurately distributed feeding amount, and the consumers and users have no choice from 200932102. In view of the above, the present invention provides a novel feeder which solves the above-mentioned conventional problems and achieves precise control of the amount of food fed in and out, to save the bait, and to stably culture the water quality environment for management. SUMMARY OF THE INVENTION Herein, the present invention will describe some embodiments in detail. However, it is to be noted that the present invention may be practiced in a wide range of embodiments, and the scope of the present invention is not limited to the above-described embodiments, which are determined by the scope of the patent application described hereinafter. . One of the advantages of the present invention is to provide a feeder that can accurately control the volume of food to save (4) and stabilize the culture environment to facilitate management. Another advantage of the present invention is to provide a feeder that allows the culture organism to grow healthily and rapidly to achieve maximum economic benefit. Another advantage of this month is that it provides a silverware device that allows the food container to be in direct or indirect contact with the water or moisture of the culture pond, and to feed the food with U. The present invention discloses a feeding device comprising: a housing; a rotating shaft disposed on a central axis of the housing; a receiving body having a plurality of hollow holes penetrating and rotating according to the rotating shaft to facilitate food passage; and a feeding unit And the discharge unit 疋' is disposed on both sides of the accommodating body, wherein the feeder can drive the accommodating body by the rotating shaft to distribute the food in a manner suitable for the food. The perforations of the feeding unit and the discharging unit are alternately arranged. [Embodiment] In the following description, the specific details of each formula are used to provide an implementation of the present invention. The present invention will be described in conjunction with the preferred embodiments and the appended claims. It is also understood by those skilled in the art that the practice of the invention does not require any particular details, or other specific methods, compositions or materials. It is to be understood that the drawings are not intended to limit the invention, and the elements in the drawings are not drawn to the actual size or scale. ❺ Referring to the first figure, it is a perspective schematic view of a feeder 1 according to the present invention. The present invention discloses a feeder 10 comprising a housing u, a feed unit 2, a discharge unit 16, a rotating shaft 18, a rotating shaft 19 and a base 30. In a preferred embodiment, the base 3 can be coupled to or around various aquaculture tank nets or cylinders, and the feeder 1 of the present invention can be used in the fake food device by the bottom end 3G' Feeding food will not directly contact the water or water of the culture pond to further achieve the effect of moisture. The outer casing 11 is for accommodating the feeding unit 12, the accommodating body 14, the discharging unit 16, and the rotating shaft 18, and the feeding unit 12, the accommodating body 14, and the discharging unit 16 are sequentially coupled by the rotating shaft 18. When the rotating shaft 18 rotates, the stirring rod 19 is driven to rotate, and the feeding food is sequentially passed through the feeding unit 12, the receiving body "and the discharging unit 16, and the feeding food can be evenly distributed as needed to facilitate feeding. In an embodiment The outer casing U is cylindrical in shape to accommodate the feeding unit 12, the receiving body 14, the discharging unit 16, and the rotating shaft 18. According to one aspect of the invention, the feeding unit 12 may be in the form of a flat body or The form of the cone. The second A is a schematic diagram of the planar body feed 200932102 according to the present invention. The feed unit 12 includes a plurality of holes formed therein. A hole 13 is disposed at a central position of the material unit 12, And the diameter of the hole 13 is slightly larger than the diameter of the rotating shaft 18 to facilitate the rotation and rotation of the rotating shaft 18. In the example of the solid yoke, the feeding unit 12 is fixed to the outer casing 11, so that the feeding unit 12 can be prevented from being The rotation of the shaft 18 changes the direction of the feed. The surrounding position of the feed unit 12 is provided with a plurality of geometric holes 2, such as fan/holes as feed locations, for the passage of silver food. In one embodiment, geometry Shaped hole 20 contains 'but is not limited to, four Shaped holes, such as rectangular, trapezoidal, etc., for feeding food, preferably fan-shaped holes. For example, the plurality of four-shaped holes 20 are centered on the holes 13 and symmetrically disposed on the feeding unit 12. In one embodiment, the feed unit 12 has two geometrically shaped apertures 20 that are symmetrically disposed. Preferably, the geometry apertures 2() are sized approximately 65 from the center of the feed unit 12. Preferably, it is 7 inches. It will help the passage of fake food. In one embodiment, the planar body feeding unit 12 is a circular plate which will facilitate the rotation of the rotating shaft 18. ❹ Figure B It is a schematic view of the cone feed unit 21 according to the present invention. The cone feed unit 7C 21 has a plurality of holes disposed thereon. The center of the feed unit 21 is provided with holes 13 for the passage of the transfer vehicle 18 . And a plurality of geometrical holes 2 are arranged around the feeding unit to pass the food of the proud food. Here, the description of the similar elements is omitted to avoid obscuring the present invention. Referring to the third figure, the housing 14 according to the present invention is used. Perspective dry sound map. The housing body has a plurality of hollow holes 15 Formed in and through: body! 4, in order to accommodate the feeding food, and its central position has a hole π# over the receiving body 14 to facilitate the passage of the shaft 18. The diameter of the receiving body 14 is slightly smaller 200932102 in the outer casing 11 Directly, and n + + unit 12 (or feed t _ and the diameter of the hollow hole 15 is about slightly smaller than the feed, early 70 21). In one embodiment, the hollow hole 15 ^ 'completed round 桎The body 'and is a plurality of hollow holes 15 arranged symmetrically. The cow, I. The Fenner body 14 preferably has four hollow holes 15, and the two are respectively symmetrically arranged. When the blade shaft 18 rotates, the food is fed through the outer casing. u above the stir bar 19 with the picking uranium mail $ a A Hita set, the crude product pass through the geometric hole 20 of the feeding unit 12 ❹ feed 'and fill in the opposite two φ 丨 丨 棘 # # Q Hey. Two of the two holes 15. After the filling is completed, the rotating shaft ι8 is rotated, at this time, the 遂 will fill the two pairs of feeding food to the hollow hole 15 and the other vertical-aligning financial hole 15 is aligned with the feeding unit 12 = In: Feed. Then, 叩 向 向 中 中 中 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' Schematic diagram of material unit 16. Discharge single 7〇 1 ό匕g plural holes 22, to Lee Jian + you food through. In the invention of the discharge unit 16, the following::: The rotary shaft 18 passes. It is worth noting that in the middle of the month, the 枓 枓 与 与 与 与 进 进 进 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 省略 。 。 。 。 。 。 In a preferred embodiment, the feeds are arranged in parallel and are disposed at the end of the containment body 14 and the feed unit 16 is fed and discharged for feeding food. For example, the control unit body shaped hole (sector hole) 20 and the discharge unit 16 〒 | two 12 are both interlaced and non-direct through holes (fan-shaped hole change s, feed unit 12 9 200932102 ::==: and _"Geometry, shaped as the hole of the hollow hole 15" 20th Temple, proud food can be filled into the accommodating body 14 through the feeding unit η == (fan hole) 20 (1) The hollow hole c = the discharge unit 16 is blocked, so that the two ends are filled with the hollow holes 15 and are not exposed. The first figure is filled in, and the fifth figure is a perspective view of the container body according to the present invention. In a preferred embodiment, and s 19 and disposed on the 四 (4) 18 series light _ rod 2 and disposed on the upper end of the rotating shaft 18 for rotation: auxiliary rotation (four) rotation, and assist in the (four) food, : In the case of the container body 14. The J 1 is filled in the action 2, and the shaft 18 is controlled by the programmable control device. For example, the programmable control device can be a programmable device. Personal or notebook computer. Users can set the required condition to enter the programmable control device' to automatically control The feeder is made to drive the feeder according to the needs of the user. The sixth figure is an overall schematic view of the feeder 10 according to the present invention. The upper half of the outer casing 11 is the storage position for the food 24, food 24 In the embodiment, the food is 2^ = 枓. For example, the feeding food 24 may be a feed of aquatic animals such as fish, shrimp, crab, shellfish, etc. It is noted that the present invention The dimensions of the geometric holes 20 and 22, the hollow holes 15 and the stirring rod 19 of the feeding unit 12 and the discharging unit 16 can be changed according to the difference of the feeding food 24 and the different needs of the user. It is a schematic diagram of the operation of the feeding food 24 according to the present invention into the feeding device 10. To ensure that the feeding food is 24: 2, 4, 4, food, ... with an angle of 25 and a corner - live or shear or move horizontally 'It is not easy to get the return object 24 to be stuck, in the preferred embodiment, the plane body feed unit 12 or the cone feed η; the tolerance angle 25 is designed so that the ball is placed between the particles of the feed unit 24 Contact, like a cue stick with a two-force 2 touch 'not a face contact' Reduce friction during contact with the fed added θ ,, smoothness of operation ": the inner bore 14 of the hollow cylindrical body. The top is also equipped with a design. The design of the changing foot 26 is Μ15 two corners and the diameter is slightly larger than the size of the cylindrical hollow hole. It is also set to be a two-curved and smooth design to make the food 24: over. According to one aspect of the present invention, I repeat the technical content obtained by many experiments, and the error value of the tether is less than 1% after application. The experimental results indicate the following roots: the actual results show that the experimental results of the present invention are only used for thinking It is 'invention. The invention is not limited to three times, and the electronic control (four) method is divided into manual control. Each of the variables is repeated at least in two ways, and the experiment is performed. The standard deviation of all test results 200932102 is less than O.lg's small deviation rate 10 The effect is very accurate. Experiments were carried out at 1/〇, so it is known that the meals of the present invention are as follows:
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之拉Π月之優點係在於提供一餵食器,可依據養殖生物 :特性,精準控制餵食量(標準誤差綱,並且與可程式 之控制裝置’例如微電腦控制裝置’結合,設定餵食時 1、人數達到全自動餵食之功能。本發明之裝置具有可 節省域,穩定養殖水f環境,而且㈣方便,可使養殖 生物成長既健康且快速,達到最大經濟效益之特色。 本發明之另一優點係在於利用uj柱形中空孔15之體 積(/空孔15直徑X中空孔15高度)來控制餵食物24之出 料量,可達到誤差值小於1%之準確體積出料。並且,本 發明係採餵食物槽不與養殖池水或水氣有所接觸機會之間 接出料方式,因此亦可避免餵食物槽内的飼料受潮。 200932102 本發明之又一優點係在於本發明之俨 傲食裝置之前段部份,使用者可依照+ 亦了配置為 複數餵食器按照不同尺寸及比例配二不同條件,將 二置,而將_食器中所盛裝之银食; 可有效降低餵養成本。 養殖池,並且 本發明所述之餵食器10係 家用養殖池,可應用於家禽或寵物;:飼二 Γ:=、蟹、貝類、雞、鴨、鶴、鳥、狗或描二 養’亦可應用於其他各式之產業。 ❹ 本發明以較佳實施例說明如上,然其並非用以限 主張之專利權利範圍。其專利保護範圍當視後附之 y專利範圍及其等同領域㈣。凡熟悉此領域之技藝 超在不脫離本專利精神或範圍内,所作之更動或潤飾, 均於本發明所揭示精神下所完成之等效改變或設計,且 應包含在下述之申請專利範圍内。 【圖式簡單說明】 藉由參考下列詳細敘述,將可以更快地了解上述觀點 以及本發明之優點,並且藉由下面的描述以及附加圖式, 可以更容易了解本發明之精神。其中: 第一圖係為根據本發明之餵食器之透視示意圖。 第二A圖係為根據本發明之平面體進料單元之示意 圖。 第 B圖係為根據本發明之錐狀體進料單元之示意 13 e 200932102 圖。 意圖 意圖 第二圖係為根據本 ^ s ^ 心办肩體之透視示意圖。第五圖孫ί本發明之出料單元之示意圖。 第五圖係為根據本發明之容納體與轉軸之組合透視示 〇 =六圖係為根據本發明之餵食器之整體示意圖。 圖係為根據本發明之餵食物進入餵食器之運作示 〇 ο 【主要元件符號說明】 10餵食器 11外殼 12、21進料單元 U孔 14容納體 15中空孔 丄6出料單元 孔 18轉軸 19攪拌棒 20、22幾何形孔 23孔 24餵食物 25斜角 26彎角 30基座 14The advantage of Laiyue is that it provides a feeder that can accurately control the feeding amount according to the characteristics of the cultured organism: (standard error, and combined with a programmable control device such as a microcomputer control device to set the number of people at the time of feeding) The utility model achieves the function of automatic feeding. The device of the invention has the characteristics of saving the domain and stabilizing the aquaculture water environment, and (4) being convenient, and the breeding organism can be healthy and rapid, and achieving the maximum economic benefit. Another advantage of the invention is The volume of the uj cylindrical hollow hole 15 (/hole 15 diameter X hollow hole 15 height) is used to control the discharge amount of the feeding food 24, and an accurate volume discharge with an error value of less than 1% can be achieved. The feed trough does not have a contact with the culture pond water or the water vapor, so the feed in the feed trough can be avoided. 200932102 Another advantage of the present invention is that the present invention is in front of the food device. In the section, the user can configure the feeders according to the + and the two different conditions according to the different sizes and proportions, and the two will be placed in the food container. Silver food; can effectively reduce the feeding cost. The breeding pool, and the feeding device 10 of the present invention is a domestic breeding pool, can be applied to poultry or pets;: feeding two::, crab, shellfish, chicken, duck, crane, The bird, dog or tracing can also be applied to other various industries. ❹ The present invention is described above with reference to the preferred embodiments, but it is not intended to limit the scope of patent claims. The scope of the patents and the equivalents thereof (4). Any modifications or modifications made by those skilled in the art without departing from the spirit or scope of It is to be understood that the following claims are included in the following description of the drawings. The spirit of the present invention is readily understood. The first figure is a schematic perspective view of a feeder according to the present invention. The second A is a schematic view of a planar body feeding unit according to the present invention. Figure B is a schematic diagram of a cone feed unit according to the present invention 13 e 200932102. The intent is intended to be a perspective view of the shoulder according to the present invention. 5 is a schematic view of a combination of a container and a rotating shaft according to the present invention. The figure is a schematic view of the feeder according to the present invention. The figure is a feed feeding according to the present invention. Operation of the device ο [Main component symbol description] 10 feeder 11 housing 12, 21 feeding unit U hole 14 housing body 15 hollow hole 出 6 discharge unit hole 18 shaft 19 stirring rod 20, 22 geometric hole 23 hole 24 feeding food 25 bevel 26 corner 30 base 14