M436333 五、新型說明: v 【新型所屬之技術領域】 本新型係關於食品容器,特別是有關於一種動物的飼料 容器。 【先前技術】 居家環境中盛裝食物的器皿眾多,例如杯、盤、碗、锅。 用於三餐中的食器於使用完畢後即可清洗晾乾。但是有些 φ 器皿被用來盛裝食物的時間比較久,容易引起環境衛生的 問題。 現代人養寵物者不在少數,所養的寵物諸如狗、貓、豬 等。人們養寵物原因各有不同,有的人是因為喜歡小動物, 有人是因為興趣,有的人是因為要排遣孤獨,有的人是為 了要寵物看門。各人也可能因為居住環境選擇將寵物養在 室内或室外的環境。但是養寵物者畢竟不會總是無時無刻 地伺候寵物飲食,所以比較多的情況是會將多於一餐的份 ® 量的食物倒入寵物的食物容器内。 這樣固然方便,但是由於食物的養分及氣味卻可能會招 來其它例如螞蟻等爬行的昆蟲來覓食,造成環境衛生問 題。其它小動物對食物的交叉接觸可能引起寵物感染其它 病菌的機會增加,也可能因為螞蟻等昆蟲成群的攻擊使寵 物退卻不敢食用食物。 目前有一些食物器孤,其設計包含有外圍溝槽,可以在 食器中間放乾糧等飼料,於外圍溝槽注入飲水以達到阻隔 4 M436333 爬蟲的目的。這樣的設計固然有其效用,但是容器上的水 分乾涸時即喪失阻隔作用,同時辉物於用餐時推動食器可 能使水淺出、波及乾糧或週遭地面。 另有,食物器服的設計中其容器外圍包含驅蟲劑或捕蟲 劑,用於驅趕或捕捉爬蟲。由於驅蟲劑或捕蟲劑是由化學 方法合成,與食物同時散發的氣味可能影響寵物嗅覺,亦 可能有影響寵物健康之虞。捕蟲劑於沾粘爬蟲後還需要人 工清理’亦為另一個衛生問題。 所以需要有一種方便飼主供應寵物食物的容器來處理 上述問題。 【新型内容】 本新型提出一種食物容器,包括殼體及隔離部件。上述 殼體包含殼體底部及殼體側壁。上述殼體底部的第一表面 用於盛裝食物。上述殼體側壁的至少一部分係從上述殻體 底部的邊緣往上述殼體底部的上方環繞延伸,與上述毅體 底部共同形成收容空間。上述隔離部件的第一表面用於結 合上述殼體侧壁,使上述隔離部件的至少—部分形成園繞 上述殼體側壁的環帶結構。上迷隔離部件的第二表面的摩 擦係數低於上述隔離部件的第一表面的 【實施方式】 以下說日种的各種實施方式中,食物㈣的殼體可以用 玻璃、陶Ή金料剛性較大的材料製成,或者,⑼用 塑膠等有彈性的材料製成。舉例來說,食物容器的製成方 5 M436333 式可以包含塑膠射出成型、模塑或金屬沖壓成型。或以手 ~工方式塑型玻璃、陶瓷等。 請參照圖1A,本新型的第一實施方式的食物容器100 由殼體構成,可以蛛置於平面上以盛裝食物,例如動物的 飼料。上述食物容器100的殼體包含殼體底部110及殼體 侧壁120。如圖1A所示,上述殼體底部110的第一表面 1101用於盛裝食物,上述殼體側壁120的組成部分121、 122及、123係從上述殼體底部110的邊緣往上述殼體底部 ® 110的上方及下方環繞延伸,並與上述殼體底部110共同 形成收容空間。 上述殼體底部110的上方係指從上述殼體底部110往上 述食物容器1〇〇的開口方向的一側,或上述第一表面1101 所面對的方向的一側。請參照圖1B,上述殼體底部110的 下方與上方相對,係指從上述殼體底部110往上述食物容 器100用於接觸放置平面的底部方向的一側,或上述殼體 φ 底部110的第二表面1102所面對的方向的一側。 圖1B顯示上述殼體底部110的第二表面1102。上述殼 體底部110的第二表面1102與上述第一表面1101相對, 上述殼體内壁(包含側壁組成部分121、122及、123)的第 二表面1212及1222連接上述殼體底部的第二表面1102。 圖1C及1D分別顯示上述食物容器100的側視圖及上 視圖。圖1E為圖1D中上述食物容器100沿著線段AA的 截面圖。 6 料允333 上述殼體側壁120包含殼體内壁及辱 内壁包含側壁組成部分12卜122及123 —壁。上述殼體 部1H)的邊緣往上述殼體底部110的上方^從上述殼體底 迷殼體底部11G共同形成收容空間。上二繞延伸,與上 即形成上述食物容器100的上緣。上二二二内壁的上緣 έΒ 〇·、A 4 Λ又體外壁包含側壁 且成部分124,係從上述殼體内壁的 U0的第二表面的下方環繞延伸,並且;^體底4 及彀體底部110的邊緣。上述殼體外 ::容器議的下緣。上述殼體外_壁= 度场及下緣的垂直高度差即形成上述食物容器謂的高 如圖1Ε所示’上述側壁組成部分123與124的截面夾 質上小於或等於90度。上述側壁組成部分⑵與上述 109的平行方向所維持的角度實質上小於或等於45度。 2側壁組成部分124與上述轴1〇9的平行方向所維持的 角度實質上小於或等於Μ度。 參照圖1Ε,上述侧壁組成部分121從上述殼體底部ιι〇 上緣,沿著平行上述食物容器1〇〇的中心軸109的方向 彺上述中心軸109所指的方向(即上述食物容器100的 —方)環繞延伸’形成單向開Π的第-柱筒結構m。該第 —桂筒結構121的外半徑為Η,高度為hb 上述側壁組成部分122從上述第一柱筒結構i2i的開口 緣’沿著平行上述食物容器1〇〇的中心軸!的的方向上, 往上述中心軸1〇9所指的方向(即上述食物容器的上方) 7 M436333 環繞延伸,形成單向開口的第二柱筒結構122。該第二柱 '筒結構122的内半徑為r2,高度為h2。該第一柱筒結構121 與該第二柱筒結構122的中心軸同為該轴109。由於該第 二柱筒結構122的内半徑大於該第一柱筒結構121的内半 徑,使該第一柱筒結構121與該第二柱筒結構122連接的 部分形成階梯結構125。該階梯結構125包含該第一柱筒 結構121與該第二柱筒結構122與環形平面126。上述環 形平面126為上述階梯結構125的水平面結構。 • · 上述第一柱筒結構121的外表面與上述軸109的距離rl 等於或略小於上述第二柱筒結構122的内表面與上述軸 109的距離r2。 上述側壁組成部分122為第二柱筒結構,且上述第二柱 筒結構122的高度h2小於上述第一柱筒結構121的高度 hi。由於上述第一柱筒結構121的外壁與上述第一柱筒結 構的軸109的距離rl略小於或等於上述第二柱筒結構122 φ 的内壁與上述第二柱筒結構的軸109的距離r2,使上述食 物容器的上述第一柱筒結構易於與上述食物容器形狀相同 的另一個容器相結合。圖1F及1G顯示上述食物容器100 與形狀相同的另一個容器l〇〇a相結合的組合物10的不同 視角的立體爆炸圖,其中上述隔離部件130的第一表面 1301用於結合上述第一柱筒結構121的第二表面1212(如 圖1B所示),使上述隔離部件130的至少一部分形成圍繞 上述殼體側壁的環帶結構,上述隔離部件130的第二表面 8 m的摩擦係數低於上述隔離部件13G的第—表面的摩擦 —η圖1Η及II顯示上述食物容器1〇〇與形狀相@的另一個 合斋100一a相結合的組合物1〇的不同視角的立體示意圖。 圖1J顯不上述組合物10的上視圖。圖1K顯示圖u中的 ,合物10沿線段ΒΒ的截面圖。上述第一柱筒結構I〕〗與 第—柱筒結構122的高度差大於或等於上述隔離部件1如 的寬度,使上述隔離部件13〇能組合在上述第一杈筒結構 121的外表面1212。上述第一柱筒結構121的外表面up 也結合於容器l〇〇a的第二柱筒結構122a的内表面。上述 殼體底部110的外表面1102結合於連接第一柱筒結構da 與第二柱筒結構122a的環形階梯結構i25a。上述環形階梯 結構125a用以限制容器1〇〇與1〇〇a在其轴向上的相對位 置。 上述隔離部件130可以是由長條帶狀的物體頭尾相接 構成的’例如膠帶。或者,上述隔離部件130可以是模塑 形成的二面開口柱筒結構或環帶結構。 上述隔離部件130若由高剛性的材質構成則其内圓周 長要等於或略大於第一柱筒結構121的外圓周長,若由彈 性的材質構成則其内圓周長可以略小於、等於或略大於第 一柱筒結構121的外圓周長。 上述隔離部件130的第二表面1302係由氟碳化物高分 子(Fluoropolymers)、鑽石薄膜、石墨、或硫化鉬構成。氟 碳化物高分子的材料例如鐵氟龍(Teflon TM)。 M436333 上述食物容器100若要用於防止螞蟻等爬行的昆蟲從 上述食物容器100的放置平面進入上述食物容器1〇〇盛裝 食物的表面,則上述第二柱筒結構與上述第—柱筒結構的 鬲度差hl-h2大於上述食物容器1〇〇的關鍵尺寸,並且上 述隔離部件130的高度(即上述環帶結構的寬度)大於上述 食物谷盗100的關鍵尺寸。上述關鍵尺寸係為上述食物容 器100的預設使用環境中的防止爬蟲跨越所需的距離。 • uot其它!^施方式中’上述食物容器⑽的上述殼體底部 形成曲面或半球面以消除易藏污蜗垢的邊角。 第二實施方式: 請參照圖2A,食物容器2〇〇由私, 平而F W成壯人仏 盗200由双體構成,可以放置於 千面上以盛裝食物’例如動物的飼料 的殼體包含殼體底部210及於㈣勿谷器200 υ及喊體側壁220 〇如圖2八及2B 所不,上述殼體底部210的笛 * ^ ?1Λ1 ,的第一表面21〇1用於盛裝食物, 上L側壁22〇的組成部&奶及 •部的邊緣往上述殼體底部21〇的上方及下體: 與上述殼體底部210共同形成收容空間。^ 述食上物的2Γ上方係指從上述殼體底物往上 == 方向的-侧,或上述第-表面歷 所面對的方向的一侧。請兔 ^ -p ^ , …圖2Β,上述殼體底部210的 方/、方相對,係指從上述殼體底部 器200用於接觸放置平在上述食物谷 、闕織+面的底部方向的 2102所面對的方向的 W-表面 M436333 圖2B顯不上迷彀體底部210的第二表面2102。上述殼 體底4 210的第〜表面2102與上述第-表面2101相對。 上述殼體内壁包含倒壁組成部分 221、222 及、223。上述 侧土,且成。P刀221包含第二表面2212,而上述側壁組成部 分222包含第二表面2222。 圖2C及2D分別顯示上述食物容器2〇〇的側視圖及上 視圖目2E為圖2D中上述食物容器200沿著線段CC的 截面圖。 上述殼體侧壁θ A + 22〇包含咸體内壁及殼體外壁。上述殼體 :壁包含側壁組成部分22卜222及223,係從上述殼體底 p 〇的邊緣往上逮殼體底部2lG的上下方環繞延伸與 上述殼體底部210共同形成收容空間。上述殼體外壁包含 侧壁:且成α卩刀224 ’係從上述殼體内壁的上邊緣往上述殼 & P G的下方環繞延伸,並且遠離上述殼體内壁及殼 =部210的邊緣。上述殼體内壁的上緣即形成上述食物 Μ 200的上緣。上述殼料壁的下緣即形成上述食物容 器200的下緣。上述殼體外壁(侧壁組成部》224)的上緣及 下緣的垂直高度差即形成上述食物容器2〇〇的高度。 參照圖2Ε’上述侧壁組成部分221從上述殼體底部21〇 的邊緣往平行上述食物容器200的中心軸2〇9的反方向(即 上述食物容器200的殼體底部210下方)環繞延伸,形成單 向開口的第一柱筒結構221。該第一柱筒結構221的外半 徑為rl,高度為hl。上述側壁組成部分222從上述第一枉 筒、構221的封閉端邊緣,也是上述殼體底部210的邊緣 M436333 沿著平行上述食物容器200的中心轴209的方向上,往中 • 心轴209的方向上(即上述食物容器200的上方)環繞延 伸,形成單向開口的第二柱筒結構222。該第二柱筒結構 222的内半徑為r2,高度為h2。該第一柱筒結構221與該 第二柱筒結構222的中心轴同為該軸209。該第二柱筒結 構222與上述殼體底部210連接的部分形成折角結構225。 該折角結構225包含該第二柱筒結構222與上述殼體底部 210的邊緣。 ^ 第一柱筒結構221的外表面與第一柱筒結構221的軸 209的距離rl等於或略小於第二柱筒結構222的内表面與 第二柱筒結構222的軸的距離r2。上述食物容器200的殼 體可以用玻璃、陶瓷或金屬等剛性較大的材料製成。或者, 上述食物容器200可以用塑膠等有彈性的材料製成。當上 述食物容器200用塑膠等有彈性的材料製成,第一柱筒結 構221的外表面與軸209的距離rl可以等於或略大於第二 φ 柱筒結構222的内表面與軸2〇9的距離r2。 上述侧壁組成部分222為第二柱筒結構,且上述第二柱 筒結構222的高度h2小於上述第一柱筒結構221的高度 hi。由於上述第一柱筒結構221的外壁與其軸209的距離 rl略小於或等於上述第二柱筒結構222的内壁與其軸209 的距離r2,使上述食物容器的上述第一柱筒結構易於與上 述食物容器200形狀相同的另一個容器相結合。圖2F及 2G顯示上述食物容器200與形狀相同的另一個容器200a 相結合的組合物20的不同視角的立體爆炸圖,其中上述隔 12 M436333 離部件130的第一表面1301用於結合上述第一柱筒結構 • 221的第二表面2212(如圖2B所示),使上述隔離部件130 的至少一部分形成圍繞上述殼體側壁的環帶結構,上述隔 離部件130的第二表面1302的摩擦係數低於上述隔離部件 130的第一表面的摩擦係數。 圖2H及21顯示上述食物容器200與形狀相同的另一個 容器200a相結合的組合物20的不同視角的立體示意圖。 圖2J顯示上述組合物20的上視圖。圖2K顯示圖2J中的 ^ 組合物20沿線段DD的截面圖。上述第一柱筒結構221與 第二柱筒結構222的高度差大於或等於上述隔離部件130 的寬度,使上述隔離部件130能組合在上述第一柱筒結構 221的外表面2212。上述第一柱筒結構221的外表面2212 也結合於容器200a的第二柱筒結構222a的内表面。上述 第一柱筒結構221的下方開口邊緣於食物容器200及200a 結合狀態中置於連接第一柱筒結構221a與第二柱筒結構 φ 222a的折角結構225a。上述折角結構225a用以限制容器 200與200a在其軸向上的相對位置。 上述隔離部件130若由高剛性的材質構成則其内圓周 長要等於或略大於第一柱筒結構221的外圓周長,若由彈 性的材質構成則其内圓周長可以略小於、等於或略大於第 一柱筒結構221的外圓周長。 上述食物容器200若要用於防止螞蟻等爬行的昆蟲從 上述食物容器200的放置平面進入上述食物容器200盛裝 食物的表面,則上述第二柱筒結構與上述第一柱筒結構的 13 M436333 高度hl-h2差大於上述食物容器200的關鍵尺寸,並且上 述隔離部件130的高度(即上述環帶結構的寬度)大於上述 食物容器200的關鍵尺寸。 圖2L及2M顯示上述食物容器第二實施方式的變化實 施方式中食物容器200b的侧視圖及上視圖。上述食物容器 200b與上述食物容器200的差異僅在於上述食物容器2〇% 的外壁224b的垂直高度較小,使上述食物容器2〇〇b的第 一柱筒結構221的下緣作為底座,可以接觸用於放置上述 食物容器200b的平面。圖2N顯示為圖2M中上述食物容 器200b沿著線段EE的截面圖。上述食物容器2〇%的外 壁224的下緣與上述食物容器2〇%的第一柱筒結構221的 下緣在其轴向上的高度差異h3需大於上述食物容器 200b 的關鍵尺寸。上述食物容器2〇〇b的第一柱筒結構22ι的外 表面用於結合上述隔離部件130。 第三實施方式 圖3A顯示上述食物容器的第三實施方式食物容器3〇〇 ’、隔離部件130相結合的組合物3〇 #立體爆炸圖。圖犯 矣c顯不上述食物容器3〇〇與上述隔離部件相結合的 ^合物30的不同視角的組合示意圖。其中上述隔離部件 的第―表面ncn用於結合上述第一柱筒結構321的表 私^12’使上述祕部件13G的至少—部分形繞上述 二:壁的環帶結構’上述隔離部件13〇的第二表面13〇2 數摩擦係數低於上述_部件13G的第—表面的摩擦係 M436333 食物容器300的側壁320包含側壁組成部分323及上述 第—柱筒結構32卜㈣3B及3C所示,上述食物容器則 的殼體底部3丨0包含第一表面31〇1及第二表面31〇2。 圖3D及3E顯示上述食物容器的第三實施方式中的食 物容器綱關額及上視圖。圖3F顯示為圖3E中食物 容器址合物3 0沿著線段F F _面圖。上述第—柱筒結構 321形成於上述食物容器3〇〇的殼體外壁。上述食物容哭 3〇〇的殼體外壁包含階梯結構325,用於在上述組合物二 的軸309的方向上限制上述隔離部件請肖上述 3〇〇結合的相對位置。上述階梯結構325具有與上述轴%: 垂直的水平®結構’用於抵頂上述隔離料⑽的 並連接上述階梯結構325的二個垂直面結構 構325的二個垂直面結構的外表面分別與上述轴 離差大體上等於上述隔離部件m的厚度。 結構321的高度及上述隔離部件⑽的寬"需 = 食物容器300的關鍵尺寸。 大於上述 圖3G顯示上述食物容器的第三實施方 :=隔離:件13。相結合的—== 結合㈣物7人容Λ3,上述隔離部件1勒 ^ 的組合不意圖。其中上述隔離邱杜 :第一表面1301用於結合上述第-柱筒結構321:的外表 面3212a,使上述隔離部件_的至少-部分形卜表 述殼體側壁的環帶結構,上述 =圍:上 1302的摩擦係數低於上 係數。 述隔離部件 130的第一表面的摩擦 方^ 器第三實施方式的變化實施 顯示為Q 中卜了組合物3如的侧視圖及上視圖。圖3Κ 面圖# _^物—段如的截 的殼二 結構如形成於上述食物容器施 件13〇 ^述第一柱筒結構321的高度及上述隔離部 的寬度皆需大於上述食物容器遍的關鍵尺寸。 弟四實施方式 平面月參照圖4A ’食物容器侧由殼體構成,可以放置於 士上以盛裝食物’例如動物的飼料。上述食物容器4〇〇M436333 V. New description: v [New technical field] This new type relates to food containers, especially to animal feed containers. [Prior Art] There are many utensils for food in the home environment, such as cups, plates, bowls, and pots. The food for the three meals can be washed and dried after use. However, some φ vessels are used for food for a long time and are prone to environmental hygiene problems. Modern people have a small number of pets, such as dogs, cats, and pigs. People have different reasons for pets. Some people like small animals, some people are interested, some people are because they want to be lonely, and some people want to watch pets. Individuals may also choose to keep their pets indoors or outdoors because of their living environment. But pet owners don't always wait for pets to eat at all times, so there are more cases where more than one serving of food is poured into the pet's food container. This is convenient, but the nutrients and odors of the food may attract other insects such as ants to feed, causing environmental health problems. The cross-contact of other small animals with food may increase the chances of the pet infecting other germs, or it may be due to the attack of insects such as ants, which makes the pets retreat and does not dare to eat food. At present, there are some food devices that are isolated. The design includes peripheral grooves. The food can be placed in the middle of the food container, and the drinking water can be injected into the peripheral groove to block the 4 M436333 reptile. While such a design has its utility, the water on the container loses its barrier when it is dry, and the sifting of the food during the meal can cause the water to flow out, spread to dry food or the surrounding ground. In addition, food containers are designed to contain insect repellents or insecticides on the periphery of the container to drive or catch reptiles. Since insect repellents or insecticides are chemically synthesized, the odor emitted at the same time as the food may affect the smell of the pet and may also affect the health of the pet. Insecticides also require manual cleansing after reptiles are also another health problem. Therefore, there is a need for a container that is convenient for the owner to supply pet food to deal with the above problems. [New content] The present invention proposes a food container comprising a casing and a partition member. The housing includes a housing bottom and a housing sidewall. The first surface of the bottom of the housing is used to hold food. At least a portion of the side wall of the casing extends from the edge of the bottom of the casing to the upper portion of the bottom of the casing, and forms a receiving space together with the bottom of the body. The first surface of the spacer member is adapted to engage the side wall of the housing such that at least a portion of the spacer member forms an endless belt structure that surrounds the side wall of the housing. The friction coefficient of the second surface of the upper isolation member is lower than the first surface of the isolation member. [Embodiment] In various embodiments of the above-mentioned various types of food, the housing of the food (four) may be made of glass or ceramic enamel. Made of large materials, or (9) made of flexible materials such as plastic. For example, the manufacturer of the food container 5 M436333 can include plastic injection molding, molding or metal stamping. Or mold glass, ceramics, etc. by hand. Referring to Fig. 1A, the food container 100 of the first embodiment of the present invention is constructed of a casing which can be placed on a plane to hold food, such as animal feed. The housing of the food container 100 described above includes a housing bottom 110 and a housing side wall 120. As shown in FIG. 1A, the first surface 1101 of the bottom portion 110 of the housing is used for containing food. The components 121, 122, and 123 of the side wall 120 of the housing are from the edge of the bottom portion 110 of the housing toward the bottom of the housing. The upper and lower sides of the 110 extend around and form a receiving space together with the bottom portion 110 of the casing. The upper portion of the bottom portion 110 of the casing refers to one side from the casing bottom portion 110 to the opening direction of the food container 1〇〇, or one side in the direction in which the first surface 1101 faces. Referring to FIG. 1B, the lower portion of the bottom portion 110 of the housing is opposite to the upper portion, and refers to a side from the bottom portion 110 of the housing to the bottom of the food container 100 for contacting the placement plane, or the bottom portion of the housing φ bottom 110. One side of the direction facing the surface 1102. FIG. 1B shows the second surface 1102 of the housing bottom 110 described above. The second surface 1102 of the bottom portion 110 of the housing is opposite to the first surface 1101, and the second surfaces 1212 and 1222 of the inner wall of the housing (including the sidewall components 121, 122, and 123) are connected to the second surface of the bottom of the housing. 1102. 1C and 1D show a side view and a top view, respectively, of the food container 100 described above. Figure 1E is a cross-sectional view of the food container 100 of Figure 1D taken along line AA. 6 The material housing 333 includes the inner wall of the casing and the inner wall of the casing including the side wall components 12 and 122. The edge of the casing portion 1H) is formed above the casing bottom portion 110 to form a receiving space from the casing bottom portion 11G. The upper two windings extend and form the upper edge of the food container 100 above. The upper edge of the inner wall of the upper 22nd έΒ 、, A 4 Λ and the outer wall of the outer wall comprises a side wall and a portion 124 extending from the lower surface of the second surface of the U0 of the inner wall of the casing, and the bottom 4 and the raft The edge of the body bottom 110. Outside the housing: the lower edge of the container. The difference between the outer wall of the outer wall and the vertical height of the lower edge is the height of the food container. As shown in Fig. 1, the cross-section of the side wall members 123 and 124 is less than or equal to 90 degrees. The angle at which the side wall component (2) is maintained in the parallel direction of the above 109 is substantially less than or equal to 45 degrees. The angle at which the side wall component 124 is maintained in the parallel direction of the above-mentioned axis 1〇9 is substantially less than or equal to the twist. Referring to FIG. 1A, the side wall component 121 is in the direction indicated by the central axis 109 from the upper edge of the bottom of the casing, in a direction parallel to the central axis 109 of the food container 1 (ie, the food container 100 described above). The - square) surrounds the extension to form a unidirectionally open first-column structure m. The first crucible structure 121 has an outer radius of Η and a height hb. The side wall component 122 is parallel to the central axis of the food container 1 from the opening edge of the first column structure i2i! In the direction of the center axis 1〇9 (i.e., above the food container), 7 M436333 extends around to form a second cylindrical structure 122 with a one-way opening. The second column 'tube structure 122 has an inner radius r2 and a height h2. The first column structure 121 is the same as the central axis of the second column structure 122. Since the inner radius of the second cylindrical structure 122 is larger than the inner radius of the first cylindrical structure 121, the portion of the first cylindrical structure 121 that is connected to the second cylindrical structure 122 forms a stepped structure 125. The stepped structure 125 includes the first cylindrical structure 121 and the second cylindrical structure 122 and an annular plane 126. The above-mentioned annular plane 126 is a horizontal plane structure of the above-described stepped structure 125. • The distance rl between the outer surface of the first cylindrical structure 121 and the shaft 109 is equal to or slightly smaller than the distance r2 between the inner surface of the second cylindrical structure 122 and the shaft 109. The side wall component 122 is a second column structure, and the height h2 of the second column structure 122 is smaller than the height hi of the first column structure 121. The distance rl between the outer wall of the first cylindrical structure 121 and the shaft 109 of the first cylindrical structure is slightly smaller than or equal to the distance r2 between the inner wall of the second cylindrical structure 122 φ and the axis 109 of the second cylindrical structure. The first cylindrical structure of the food container described above is easily combined with another container having the same shape as the food container described above. 1F and 1G show perspective exploded views of different viewing angles of the above-described food container 100 in combination with another container 10a of the same shape, wherein the first surface 1301 of the spacer member 130 is used to incorporate the first The second surface 1212 of the cylindrical structure 121 (shown in FIG. 1B) causes at least a portion of the spacer member 130 to form an annular band structure surrounding the sidewall of the housing, and the second surface 8 m of the spacer member 130 has a low coefficient of friction The friction - η of the first surface of the above-mentioned partition member 13G is shown in a perspective view of the composition 1 结合 of the food container 1 〇〇 and the other phase 100 of the shape phase. Figure 1J shows a top view of the above composition 10. Figure 1K shows a cross-sectional view of the compound 10 along the line ΒΒ in Figure u. The height difference between the first column structure I and the first column structure 122 is greater than or equal to the width of the spacer member 1, such that the spacer member 13 can be combined on the outer surface 1212 of the first barrel structure 121. . The outer surface up of the first cylindrical structure 121 described above is also bonded to the inner surface of the second cylindrical structure 122a of the container 10a. The outer surface 1102 of the above-described housing bottom portion 110 is coupled to the annular stepped structure i25a that connects the first column structure da and the second column structure 122a. The above-mentioned annular stepped structure 125a serves to limit the relative positions of the containers 1〇〇 and 1〇〇a in the axial direction thereof. The spacer member 130 may be formed of a strip-shaped object that is connected end to end, such as a tape. Alternatively, the spacer member 130 may be a molded double-sided open cylindrical structure or an endless belt structure. If the spacer member 130 is made of a highly rigid material, the inner circumference of the spacer member 130 is equal to or slightly longer than the outer circumference of the first column structure 121. If the material is made of an elastic material, the inner circumference may be slightly smaller, equal, or slightly smaller. It is larger than the outer circumference of the first column structure 121. The second surface 1302 of the spacer member 130 is made of fluorocarbon polymer, diamond film, graphite, or molybdenum sulfide. A material of a fluorocarbon polymer such as TeflonTM. M436333 if the food container 100 is used to prevent insects such as ants from crawling from the placement plane of the food container 100 into the surface of the food container 1 containing the food, the second column structure and the first column structure The twist difference hl-h2 is larger than the critical size of the above-mentioned food container 1〇〇, and the height of the above-mentioned partition member 130 (i.e., the width of the above-described endless belt structure) is larger than the critical size of the above-mentioned food grain 100. The above critical dimensions are the distances required to prevent the reptile from spanning in the preset use environment of the food container 100 described above. • uot other! In the embodiment, the bottom of the casing of the food container (10) is formed into a curved surface or a hemispherical surface to eliminate the corners of the dirt-prone scum. Second Embodiment: Referring to FIG. 2A, the food container 2 is made up of a private body, and the FW is made up of a double body. The housing can be placed on a thousand sides to hold food, such as animal feed. The bottom portion 210 of the casing and the (4) the bottom of the bowl 200 and the side wall 220 of the body are not shown in Figs. 2 and 2B. The first surface 21〇1 of the bottom of the casing 210 is used for food. The upper portion of the upper side wall 22 & and the edge of the milk and the portion are directed upward and downward of the bottom portion 21 of the casing: a housing space is formed together with the bottom portion 210 of the casing. ^ The top of the top of the food refers to the side from the above-mentioned shell substrate to the == direction, or the side of the direction in which the above-mentioned first surface is faced. Please rabbit ^ -p ^ , ... Fig. 2Β, the square/the square of the bottom portion 210 of the above-mentioned housing means that the bottom plate 200 of the housing is used for contacting and placing the bottom direction of the food valley, the woven fabric + the surface. W-surface M436333 in the direction of 2102 facing Figure 2B shows the second surface 2102 of the bottom portion 210 of the body. The first surface 2102 of the shell bottom 4 210 is opposed to the first surface 2101. The inner wall of the housing includes the inverted wall components 221, 222 and 223. The above-mentioned side soils are formed. The P-knife 221 includes a second surface 2212, and the sidewall assembly portion 222 includes a second surface 2222. 2C and 2D respectively show a side view of the food container 2's and a top view of the food container 200 taken along the line CC in Fig. 2D. The casing side wall θ A + 22〇 includes a slab inner wall and a casing outer wall. The housing: the wall includes side wall components 22, 222 and 223 extending from the edge of the bottom of the housing to the upper and lower sides of the upper housing bottom portion 21G to form a receiving space. The outer wall of the housing includes a side wall: and the α knives 224 ′ extend from the upper edge of the inner wall of the housing to the lower side of the shell & P G and away from the inner wall of the housing and the edge of the shell portion 210. The upper edge of the inner wall of the casing forms the upper edge of the food crucible 200. The lower edge of the above-mentioned shell wall forms the lower edge of the food container 200 described above. The difference in vertical height between the upper edge and the lower edge of the outer wall (side wall component portion 224) of the casing is the height of the food container 2''''''' Referring to FIG. 2A, the side wall component portion 221 extends from the edge of the bottom portion 21 of the casing toward the opposite direction of the central axis 2〇9 of the food container 200 (ie, below the bottom portion 210 of the food container 200). A first cylindrical structure 221 is formed that is unidirectionally open. The first cylinder structure 221 has an outer radius rl and a height hl. The side wall component 222 is from the closed end edge of the first cylinder, the structure 221, and the edge M436333 of the bottom portion 210 of the casing is along the direction parallel to the central axis 209 of the food container 200, toward the center axis 209. The direction (i.e., above the food container 200) extends circumferentially to form a second cylindrical structure 222 that is unidirectionally open. The second cylindrical structure 222 has an inner radius r2 and a height h2. The first column structure 221 is the same as the central axis of the second column structure 222. The portion of the second pillar structure 222 that is coupled to the housing bottom 210 described above forms a chamfered structure 225. The angled structure 225 includes the second cylindrical structure 222 and the edge of the housing bottom 210. The distance rl of the outer surface of the first cylindrical structure 221 from the axis 209 of the first cylindrical structure 221 is equal to or slightly smaller than the distance r2 between the inner surface of the second cylindrical structure 222 and the axis of the second cylindrical structure 222. The casing of the food container 200 described above may be made of a relatively rigid material such as glass, ceramic or metal. Alternatively, the above food container 200 may be made of a resilient material such as plastic. When the food container 200 is made of a resilient material such as plastic, the distance rl between the outer surface of the first cylindrical structure 221 and the shaft 209 may be equal to or slightly larger than the inner surface of the second φ cylinder structure 222 and the shaft 2〇9 The distance r2. The sidewall component 222 is a second pillar structure, and the height h2 of the second pillar structure 222 is smaller than the height hi of the first pillar structure 221. Since the distance rl of the outer wall of the first column structure 221 from the shaft 209 is slightly smaller than or equal to the distance r2 between the inner wall of the second column structure 222 and the shaft 209, the first column structure of the food container is easy to be The food container 200 is combined with another container of the same shape. Figures 2F and 2G show perspective exploded views of the different viewing angles of the composition 20 of the food container 200 in combination with another container 200a of the same shape, wherein the first surface 1301 of the spacer 130 is used to bond the first surface 1301 The second surface 2212 of the cylindrical structure 221 (shown in FIG. 2B) causes at least a portion of the spacer member 130 to form an annulus structure surrounding the sidewall of the housing, the second surface 1302 of the spacer member 130 having a low coefficient of friction The coefficient of friction of the first surface of the spacer member 130 described above. 2H and 21 are perspective views showing different perspectives of the composition 20 in which the above food container 200 is combined with another container 200a of the same shape. 2J shows a top view of the above composition 20. Figure 2K shows a cross-sectional view of the composition 20 of Figure 2J along line segment DD. The height difference between the first column structure 221 and the second column structure 222 is greater than or equal to the width of the partition member 130, so that the partition member 130 can be combined with the outer surface 2212 of the first column structure 221 . The outer surface 2212 of the first cylindrical structure 221 described above is also bonded to the inner surface of the second cylindrical structure 222a of the container 200a. The lower opening edge of the first cylindrical structure 221 is placed in a folded state 225a connecting the first cylindrical structure 221a and the second cylindrical structure φ 222a in the combined state of the food containers 200 and 200a. The above-mentioned angled structure 225a serves to limit the relative positions of the containers 200 and 200a in their axial directions. When the spacer member 130 is made of a highly rigid material, the inner circumference is equal to or slightly longer than the outer circumference of the first column structure 221, and if it is made of an elastic material, the inner circumference may be slightly smaller, equal or slightly longer. It is larger than the outer circumference of the first column structure 221 . If the food container 200 is used to prevent insects such as ants from crawling from the placement plane of the food container 200 into the surface of the food container 200 containing the food, the height of the second column structure and the first column structure is 13 M436333. The difference in hl-h2 is greater than the critical dimensions of the food container 200 described above, and the height of the spacer member 130 (i.e., the width of the annulus structure described above) is greater than the critical dimensions of the food container 200 described above. 2L and 2M show a side view and a top view of the food container 200b in the modified embodiment of the second embodiment of the food container. The difference between the food container 200b and the food container 200 is that the vertical height of the outer wall 224b of the food container is less than 2%, so that the lower edge of the first column structure 221 of the food container 2b is used as a base. The plane for placing the food container 200b described above is contacted. Figure 2N is a cross-sectional view of the food container 200b of Figure 2M taken along line EE. The height difference h3 in the axial direction of the lower edge of the outer wall 224 of the above food container and the lower edge of the first column structure 221 of the food container 2% is larger than the critical size of the food container 200b. The outer surface of the first column structure 22i of the food container 2b is used to join the above-described spacer member 130. THIRD EMBODIMENT Fig. 3A shows a composition 3 立体 ′ of a food container 3 〇〇 ' and a partition member 130 of a third embodiment of the food container described above. The figure 组合c shows a combination of different viewing angles of the above-mentioned food container 3 combined with the above-mentioned spacer member. The first surface ncn of the spacer member is used to combine the surface of the first pillar structure 321 to form at least a portion of the secret member 13G around the two-wall annular belt structure 'the above-mentioned partition member 13' The second surface 13〇2 has a friction coefficient lower than that of the first surface of the above-mentioned _part 13G. The side wall 320 of the food container 300 includes a side wall component 323 and the above-mentioned first column structure 32 (4) 3B and 3C. The bottom portion 3丨0 of the food container includes a first surface 31〇1 and a second surface 31〇2. Figures 3D and 3E show the food container outline and top view in the third embodiment of the above food container. Figure 3F is a cross-sectional view of the food container address compound 30 in Figure 3E along the line F F _. The first columnar structure 321 is formed on the outer wall of the casing of the food container 3''. The outer wall of the casing for containing the above-mentioned food contains a stepped structure 325 for restricting the relative position of the above-mentioned partition member in the direction of the shaft 309 of the above-mentioned composition two. The stepped structure 325 has a horizontal level structure perpendicular to the axis %: perpendicular to the outer surface of the two vertical surface structures 325 for abutting the spacer (10) and connecting the two vertical surface structures 325 of the step structure 325, respectively The above-described axial dispersion is substantially equal to the thickness of the above-described spacer member m. The height of the structure 321 and the width of the above-described spacer member (10) are required to be the critical dimensions of the food container 300. Greater than the above Figure 3G shows a third embodiment of the above food container: = Isolation: member 13. The combination of -== combined with (four) material 7 people Λ 3, the above-mentioned isolation component 1 ^ ^ combination is not intended. Wherein the above-mentioned isolated Qiu Du: the first surface 1301 is used for combining the outer surface 3212a of the first-column structure 321 : such that at least a portion of the partition member _ is shaped to represent the annular belt structure of the side wall of the casing, the above-mentioned: The coefficient of friction of the upper 1302 is lower than the upper coefficient. A variation of the third embodiment of the friction member of the first member of the spacer member 130 is shown in a side view and a top view of the composition 3 in the Q. Figure 3 Κ 图 # 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段 段The key size. The fourth embodiment of the plane is referred to Fig. 4A. The food container side is constituted by a casing, and can be placed on a person to hold food, such as animal feed. The above food container 4〇〇
的叹體包含殼體底部41〇及殼體側壁42〇。如圖4A B 戶斤示 '、,上述殼體底部41〇的第一表面4101用於盛裴食物, ^逑戏體侧壁420的組成部分421、422及、423係從上述 叹體底部的邊緣往上述殼體底部41〇的上方及下方環繞延 伸。上述殼體底部.410共同形成收容空間。 、上述殼體底部410的上方係指從上述殼體底部41〇往上 、食物谷器400的開口方向的一侧,或上述第一表面“οι 所面對的方向的一侧。請參照圖4Β ’上述殼體底部41〇的 下方與上方相對,係指從上述殼體底部410往上述食物容 器400用於接觸放置平面的底部方向的一侧,或第二表面 4102所面對的方向的一侧。 圖4Β顯示上述殼體底部41〇的第二表面4102。上述殼 體底部410的第二表面41〇2與上述第一表面41〇1相對。 M436333 上述殼體外壁包含側壁組成部分421、422及、423。上述 侧壁組成部分421包含第二表面4212,而上述側壁組成部 分422包含第二表面4222。 圖4C及4D分別顯示上述食物容器4〇〇的側視圖及上 視圖。圖4E為圖4D中上述食物容器4〇〇沿著線段hh的 截面圖。 上述殼體側壁420包含殼體内壁及殼體外壁。上述殼體 #外壁包含側壁組成部分42卜422及423,係從上述殼體底 部410的邊緣往上述殼體底部41〇的上下方且遠離上述殼 體内壁及殼體底部410的邊緣。上述殼體内壁連接上述殼 體底部410的邊緣。在此實施方式中,上述殼體底部41〇 係成圓弧曲面,在其它實施方式中可以呈現平面,或各種 不同形狀。 參照圖4E,上述側壁組成部分421從上述殼體底部41〇 的邊緣沿著平行上述食物容器4〇〇的中心軸4〇9,往上述 _中心軸409的反方向(即上述食物容器働祕體底部41〇 下方)環繞延伸,形成單向開口的第一柱筒結構421。該第 一柱筒結構421的外半徑為r卜高度為上述側壁組成 邛为422從上述第一柱筒結構421的開口端邊緣,也是上 述第一柱筒結構421的下邊緣,平行於上述食物容器楊 的中心軸409,往上述中心轴4〇9的反方向(即上述食物容 ^锡的殼體底部410下方)環繞延伸,形成單向開口的第 -柱筒結構422。該第二枝筒結構422的内半徑為^,高 度為h2 °該第-柱筒結構421與該第二柱筒結構似的中 17 M436333 心轴同為該轴彻。該第二柱筒結構422與上述第一柱筒 結構似連接的部分形成折角結構425。該折角結構425 包含該第二柱筒結構422的上緣與上述第一柱筒結構421 的下邊緣。 筒結構421的外表面與第—柱筒結構421的軸 =心等於或略小於第二板筒結構似的内表面與 的轴4〇9的轉r2。上述食物容器權 上述:Γ、喊或金屬等剛性較大的材料製成。或者, 述食=!器彻可以用塑膠等有彈性的材料製成。當上 用塑料有彈性的材料製成的情況下,第 =構421的外表面與第—柱筒結構421的轴辦的 二以等於或略大於第二柱筒結構422的内表面與第 一柱靖結構422的軸409的距離r2。 筒社^側壁組成部分422為第二柱筒結構,且上述第二柱 hV了由422的高度h2小於上述第—柱筒結構421的高度 槿沾红於上述第—柱筒結構421的外壁與上述第一柱筒結 壁與卜的距離rl略小於或等於上述第二柱筒結構422的内 上述第述第r柱筒結構的軸的距離r2,使上述食物容器的 ^ 〇杈筒結構易於與上述食物容器形狀相同的另一個 ίΙΓί合三圖吓及4(}顯示上述食物容器働與形狀相 體爆另個容器4〇〇a相結合的組合物4〇的不同視角的立 人炸圖,其令上述隔離部件130的第一表面1301用於結 述第—柱筒結構421的第二表面4212,使上述隔離部 的至少一部分形成圍繞上述殼體侧壁的環帶結構, 18 M436333 上述隔離部件130的第二表面1302的摩擦係數低於上述隔 離部件130的第一表面uoi的摩擦係數。 圖4H及41顯示上述食物容器400與形狀相同的另一個 谷态400a相結合的組合物40的不同視角的立體示意圖。 圖4J顯示上述組合物40的上視圖。圖4K顯示圖4J中的 組合物40沿線段LL的截面圖。上述第一柱筒結構421與 第二柱筒結構422的高度差大於或等於上述隔離部件13〇 ^的寬度’使上述隔離部件130能組合在上述第一柱筒結構 421的外表面4212。上述第一柱筒結構421的外表面4212 也結合於容器400a的第二柱筒結構422a的内表面。上述 第一柱筒結構421的上邊緣於食物容器400及400a結合狀 態中置於連接第一柱筒結構421a與第二柱筒結構422a的 折角結構425a。上述折角結構425a用以限制容器400與 400a在其軸向上的相對位置。 上述隔離部件130可以是由長條帶狀的物體頭尾相接 #構成的,例如膠帶。或者,上述隔離部件130可以是模塑 形成的二面開口柱筒結構或環帶結構。上述隔離部件13〇 的第一表面1302係由氟碳化物高分子(Flu〇r〇p〇lymers)、石 墨或硫化钥構成。氟碳化物高分子的材料例如鐵氟龍 (Teflon TM)。上述隔離部件i3〇若由高剛性的材質構成則 其内圓周長要等於或略大於第一柱筒結構421的外圓周 長’若由彈性的材質構成則其内圓周長可以略小於、等於 或略大於第一板筒結構421的外圓周長。 19 M436333 上4食物容器_若要用於防 上述食物容器400的放置平面進…::爬仃的%蟲從 舍物的,… 十面進入上述食物容器400盛裝 :产hi: ’則上述第二桎筒結構與上述第-柱筒結構的 :度&h2差大於上述食物容器彻的關 =以130的高度(即上述環帶結構的寬度)也須大: 上述食物容器400的關鍵尺寸。 有關上述隔離部件130的實施方式請參照圖5A,sb,6aThe sling body includes a housing bottom 41〇 and a housing side wall 42〇. As shown in FIG. 4AB, the first surface 4101 of the bottom portion 41 of the casing is used to hold the food, and the components 421, 422, and 423 of the side wall 420 of the theater are from the bottom of the slap. The edge extends around the upper and lower sides of the bottom portion 41 of the casing. The bottom portion 410 of the housing together forms a receiving space. The upper portion of the bottom portion 410 of the casing refers to a side from the bottom of the casing 41, the side in the opening direction of the food bar 400, or one side in the direction in which the first surface "οι." 4Β 'the lower portion of the bottom portion 41 of the casing is opposite to the upper portion, and refers to the side from the bottom portion 410 of the casing to the bottom of the food container 400 for contacting the bottom of the placement plane, or the direction facing the second surface 4102. Figure 4A shows a second surface 4102 of the housing bottom 41. The second surface 41〇2 of the housing bottom 410 is opposite the first surface 41〇1. M436333 The outer wall of the housing includes a sidewall component 421. 422 and 423. The sidewall component 421 includes a second surface 4212, and the sidewall component 422 includes a second surface 4222. Figures 4C and 4D respectively show a side view and a top view of the food container 4''. 4E is a cross-sectional view of the food container 4〇〇 along the line segment hh in Fig. 4D. The housing side wall 420 includes an inner wall of the housing and an outer wall of the housing. The outer wall of the housing # includes side wall components 42 422 and 423, Above The edge of the body bottom 410 faces the upper and lower sides of the housing bottom 41〇 and away from the edge of the housing inner wall and the housing bottom 410. The housing inner wall connects the edge of the housing bottom 410. In this embodiment, the shell The bottom portion 41 of the body is formed into a curved surface, which may be in a flat shape or in various different shapes in other embodiments. Referring to Fig. 4E, the side wall forming portion 421 is parallel to the food container 4 from the edge of the bottom portion 41 of the casing. The central axis 4〇9 of the crucible extends around the opposite direction of the above-mentioned central axis 409 (ie, below the bottom 41〇 of the above-mentioned food container) to form a first cylindrical structure 421 with a one-way opening. The outer radius of the structure 421 is r, the height is the side wall composition 422 422 from the open end edge of the first column structure 421, and is also the lower edge of the first column structure 421, parallel to the central axis of the food container yang 409, extending toward the opposite direction of the central axis 4〇9 (ie, below the bottom 410 of the housing of the food container) to form a unidirectionally open first-column structure 422. The second branch structure 422 The inner radius is ^ and the height is h2 °. The first-column structure 421 is the same as the middle 17 M436333 mandrel similar to the second cylindrical structure. The second cylindrical structure 422 and the first cylindrical structure are The joined portion forms a chamfered structure 425. The chamfered structure 425 includes an upper edge of the second cylindrical structure 422 and a lower edge of the first cylindrical structure 421. The outer surface of the cylindrical structure 421 and the first cylindrical structure 421 The shaft = the core is equal to or slightly smaller than the inner surface of the second barrel structure and the rotation r2 of the shaft 4 〇 9. The food container described above is made of a material having a relatively large rigidity such as smashing, shouting or metal. Alternatively, the food can be made of a flexible material such as plastic. In the case where the plastic is made of a material having elasticity, the outer surface of the first structure 421 and the shaft of the first cylinder structure 421 are equal to or slightly larger than the inner surface of the second cylindrical structure 422 and the first The distance r2 of the shaft 409 of the column structure 422. The wall portion 422 is a second column structure, and the second column hV has a height h2 of 422 smaller than the height of the first column structure 421, and is stained with the outer wall of the first column structure 421. The distance rl between the wall of the first column and the pad is slightly smaller than or equal to the distance r2 of the axis of the second column structure of the second column structure 422, so that the structure of the food container is easy. The other shape of the food container is the same as that of the above-mentioned food container. 4 (} shows the different angles of view of the above-mentioned food container 働 and the composition of the shape body blasting another container 4 〇〇a. The first surface 1301 of the isolation member 130 is used to describe the second surface 4212 of the first cylindrical structure 421 such that at least a portion of the isolation portion forms an annular band structure surrounding the sidewall of the housing, 18 M436333 The coefficient of friction of the second surface 1302 of the spacer member 130 is lower than the coefficient of friction of the first surface uoi of the spacer member 130. Figures 4H and 41 show the combination 40 of the food container 400 described above in combination with another valley 400a of the same shape. s difference Fig. 4J shows a top view of the above composition 40. Fig. 4K shows a cross-sectional view of the composition 40 of Fig. 4J along the line segment LL. The difference in height between the first column structure 421 and the second column structure 422 The spacer member 130 can be combined with the outer surface 4212 of the first column structure 421. The outer surface 4212 of the first column structure 421 is also coupled to the container 400a. The inner surface of the two-column structure 422a. The upper edge of the first column structure 421 is placed in a folded state 425a connecting the first column structure 421a and the second column structure 422a in the combined state of the food containers 400 and 400a. The angled structure 425a is used to limit the relative positions of the containers 400 and 400a in their axial directions. The spacer member 130 may be formed by a long strip-shaped object, such as an adhesive tape. Alternatively, the spacer member 130 may be The two-sided open cylindrical structure or the annular band structure formed by molding. The first surface 1302 of the partition member 13 is composed of a fluorocarbon polymer, graphite or a vulcanization key. The material of the carbide polymer is, for example, Teflon(TM). If the spacer member i3 is made of a highly rigid material, the inner circumference is equal to or slightly larger than the outer circumference of the first column structure 421. The elastic material is constructed such that the inner circumference thereof may be slightly smaller than, equal to, or slightly larger than the outer circumference of the first plate structure 421. 19 M436333 Upper 4 food container _ If used to prevent the placement of the above food container 400 into the plane...: : % of the crawling worms from the house, ... into the food container 400 in the above tenth: production hi: 'The above second cylinder structure and the above-mentioned column-column structure: degree & h2 difference is greater than the above food container The clearness = the height of 130 (i.e., the width of the above-described annulus structure) must also be large: the critical dimensions of the food container 400 described above. For an embodiment of the above-described isolation member 130, please refer to FIG. 5A, sb, 6a.
6B。圖5A顯承隔離部件13〇的一種實施方式⑽的丄視 圖。圖5B顯示上述隔離部件㈣沿著線段龐的截面圖。 上述隔離部件130a包含基體131a、黏著劑ma、及隔離 材質133a。 圖6A顯示隔離部件13〇的另一種實施方式13〇b的上視 圖。圖6B顯示上述隔離部件130b沿著線段NN的截面圖。 上述隔離部件13〇b包含基體131b及隔離材質133b。 上述基體131a及131b可以由塑膠或金屬構成。上述隔 Φ離材質133a及133b氟碳化物高分子(Fluoropolymers)薄 膜、石墨薄膜、鑽石薄膜或硫化鉬薄膜構成。氟碳化物高 分子的材料例如鐵氟龍(Teflon TM)。隔離材質133a的上半 部133la可以與下半部1332a用不同的材質。同理,隔離 材質133b的上半部1331b可以與下半部1332b用不同的材 質。舉例來說,上半部1331a及1331b可以用粘膠來粘著 爬行的昆蟲,而下半部1332a及1332b可以用氟碳化物高 分子(Fluoropolymers)薄膜、石墨薄膜、鑽石薄膜或硫化 鉬薄膜構成。由於隔離部件的下半部是在昆蟲爬行的路徑 20 所以用低磨擦係數的表面材質可以避免 沾黏昆蟲而需要經常清理。 結論: 一因此’利用本發明的食物容器可以在1内放置飼料、祭 食物,由於具有隔離部件可以用於阻_亍 的昆&直接软容ϋ内部接觸食物。 計實例助7解本發㈣技術,但所舉設 專利範圍所界定者:準。明。本發明的範圍應以下列申請 【圖式簡單說明】 二:B、1C、1D顯示食物容器的第-實施方式的不同視 =顯示食物容器的第—實施方式的剖面意圖; 5|所社人2 食物容11的第—實施方式的二個食物容 器所合成組合物的爆炸示意圖; 二1、u顯示符合食物容器的第-實施方式的二個食物 谷抑所、、”成組合物的不同視角的示意圖; J 示符合食物容器的第一實施方式的二個食物容器所結 σ成組合物的剖面示意圖; 角的2b、2c、2D顯示食物容器的第二實施方式的不同視 圖迚顯示食物容器的第二實施方式的剖面意圖·’ 二!Γ!顯示符合食物容器的第二實施方式的二個食物容 口口所、.,〇合成組合物的爆炸示意圖; *。圖2H、21、2J顯示符合食物容器的第二實施方式的二個食物 谷辑結合成組合物的不同視角的示意圖; 圖2K顯示符合食物容器的第二實施方式的 二個食物容器所結 s成組合物的剖面示意圖; 圖2L及2M顯示食物容器的第三實施方式的不同視角的示意 回 · 圖, 圖2N顯示食物容器的第三實施方式的剖面意圖; 圖3A、3B、3C、3D、3E顯示食物容器的第四實施方式的不 同視角的示意圖; 圖3F顯示食物容器的第四實施方式的剖面意圖; —圖3G、3H、31、3J顯示食物容器的第五實施方式的不同視角 的示意圖; 圖张顯示食物容器的第五實施方式的剖面意圖;. 圖4A 4B 4C、4D顯示食物容器的第六實施方式的不同視 角的示意圖; 圖4E顯示食物容器的第六實施方式的剖面意圖; 时圖4F及4G顯示符合食物容器的第六實施方式的二個食物容 器所結合成組合物的爆炸示意圖; 圖4H、4!、4J顯示符合食物容器的第六實施方式的二個食物 容器所結合成組合物的不同視角的示意圖; 圖4K顯示符合食物容器的第六實施方式的二個食物容器所結 合成組合物的剖面示意圖; 圖5A顯示食物容器的隔離部件的第一實施方式的上視圖; 圖5B顯示食物容器的隔離部件的第一實施方式的剖面意圖·; 22 圖6A顯示食物容器的隔離部件的第二實施方式的上視圖; 圖犯顯不食物容器的隔離部件的第二實施方式的剖面意圖; 圖7顯示食物容器的隔離部件的第三實施方式的示意圖。 【主要元件符號說明】 Π6B. Figure 5A shows a perspective view of one embodiment (10) of the spacer member 13A. Figure 5B shows a cross-sectional view of the above-described spacer member (four) along the line segment. The spacer member 130a includes a base 131a, an adhesive ma, and an insulating material 133a. Fig. 6A shows a top view of another embodiment 13b of the spacer member 13A. Fig. 6B shows a cross-sectional view of the above-described spacer member 130b along the line segment NN. The spacer member 13b includes a base 131b and an insulating material 133b. The base bodies 131a and 131b may be made of plastic or metal. The above-mentioned spacers are composed of a material 133a and 133b of a fluorocarbon polymer film (Fluoropolymers), a graphite film, a diamond film or a molybdenum sulfide film. Fluorocarbon high molecular materials such as TeflonTM. The upper half 133la of the spacer material 133a may be made of a different material from the lower half 1332a. Similarly, the upper half 1331b of the spacer material 133b may be made of a different material than the lower half 1332b. For example, the upper half 1331a and 1331b may be adhered to the crawling insect with glue, and the lower half 1332a and 1332b may be formed of a fluorocarbon polymer film, a graphite film, a diamond film or a molybdenum sulfide film. . Since the lower half of the spacer member is in the path of the insect crawling 20, the surface material with a low friction coefficient can avoid sticking to the insect and needs to be cleaned frequently. Conclusion: As a result, the food container of the present invention can be used to place feed and sacrifice food in one place, and because of having a partition member, it can be used to block the internal contact of the food. The example helps to solve the problem of the fourth (4) technology, but the scope defined by the scope of the patent: quasi. Bright. The scope of the present invention should be described in the following application [Simplified description of the drawings]. Two: B, 1C, 1D show different views of the first embodiment of the food container = the cross-sectional view of the first embodiment of the food container; 5| 2 exploded view of the composition of the two food containers of the first embodiment of the food container 11; ii, u shows the two food grains in accordance with the first embodiment of the food container, and the composition of the composition A schematic view of a viewing angle; J shows a cross-sectional view of a composition of two food containers conforming to the first embodiment of the food container; 2b, 2c, 2D of the corners show different views of the second embodiment of the food container, showing food The cross-sectional view of the second embodiment of the container is intended to show the explosion of the two food contents of the second embodiment of the food container, and the explosion of the synthetic composition of the composition; * Figure 2H, 21 2J shows a schematic view of two food grains in accordance with a second embodiment of the food container combined into different perspectives of the composition; FIG. 2K shows two food containers in accordance with the second embodiment of the food container 2A and 2M show schematic views of different perspectives of a third embodiment of a food container, and FIG. 2N shows a cross-sectional view of a third embodiment of a food container; FIGS. 3A, 3B, 3C 3D, 3E show schematic views of different perspectives of the fourth embodiment of the food container; FIG. 3F shows a cross-sectional view of the fourth embodiment of the food container; - FIGS. 3G, 3H, 31, 3J show the fifth embodiment of the food container Schematic diagram of a different perspective; the section shows a cross-sectional view of a fifth embodiment of the food container; Figure 4A 4B 4C, 4D shows a schematic view of a different perspective of the sixth embodiment of the food container; Figure 4E shows a sixth embodiment of the food container FIG. 4F and FIG. 4G show exploded views of the composition of the two food containers in accordance with the sixth embodiment of the food container; FIG. 4H, 4!, 4J show the second embodiment in accordance with the sixth embodiment of the food container. Schematic diagram of the different viewing angles of the food containers combined into a composition; Figure 4K shows the combination of two food containers in accordance with the sixth embodiment of the food container Figure 5A shows a top view of a first embodiment of a partition member of a food container; Figure 5B shows a cross-sectional view of a first embodiment of a partition member of a food container; 22 Figure 6A shows a partition member of a food container A top view of a second embodiment of the present invention; a cross-sectional view of a second embodiment of the partition member of the food container; Fig. 7 is a schematic view showing a third embodiment of the partition member of the food container.
柱肉結構的外半控 柱筒結構的高度為 距離 食物容器組合物 食物容器 中心轴The outer half of the column structure is the height of the column structure. Distance Food container composition Food container Central axis
殼體底部 殼體底部的第一表面 殼體底部的第二表面 殼體側壁 殼體侧壁的側壁組成部分 hl,h2 r2, h3 10 100, 100a 109 110 1101 1102 120 122、123、124、126、122a、123、 124、126 121 121a 122a 1212 1222 125, 125a 柱筒結構 第一柱筒結構 第二柱筒結構 侧壁組成部分的外表面 侧壁組成部分的外表面 階梯結構 23 M436333The second surface of the bottom of the first surface of the bottom of the housing, the second surface of the housing, the side wall of the side wall of the housing, the components hl, h2 r2, h3 10 100, 100a 109 110 1101 1102 120 122, 123, 124, 126 , 122a, 123, 124, 126 121 121a 122a 1212 1222 125, 125a column structure first column structure second column structure side wall component outer surface side wall component outer surface step structure 23 M436333
環形平面 126 隔離部件 130, 130a, 130b 隔離部件基體 131a, 131b 黏著劑 132a 隔離材質 133a,133b,1331a,1331b, 1332a, 1332b 隔離部件的第一表面 1301 隔離部件的第二表面 1302 食物容器組合物 20 食物容器 200, 200a, 200b 中心轴 209 殼體底部 210 殼體側壁 220 殼體底部的第一表面 2101 側壁組成部分 22 卜 222、223、224、224b、222a, 224b 折角結構 225, 225a 第一柱筒結構的第二表面 2212 側壁組成部分的第二表面 2222 食物容器組合物 30, 30a 食物容器 300, 300a 中心轴 309 24 M436333 殼體底部 310 殼體底部的第一表面 3101 殼體底部的第二表面 3102 第一柱筒結構 321,321a 第一柱筒結構的表面 3212,3212a 側壁 320 側壁組成部分 323 階梯結構 325 食物容器組合物 40 食物容器 400, 400a 中心轴 409 殼體底部 410 殼體側壁 420 殼體底部的第一表面 4101 殼體底部的第二表面 4102 側壁組成部分 421、422、423、421a,422a 折角結構 425,425a 第一柱筒結構的第二表面 4212 側壁組成部分的第二表面 4222 25Annular plane 126 Isolation member 130, 130a, 130b Isolation member base 131a, 131b Adhesive 132a Isolation material 133a, 133b, 1331a, 1331b, 1332a, 1332b Isolation member first surface 1301 Isolation member second surface 1302 Food container composition 20 food container 200, 200a, 200b central shaft 209 housing bottom 210 housing side wall 220 first surface of the housing bottom 2101 side wall component 22 222, 223, 224, 224b, 222a, 224b angled structure 225, 225a first Second surface 2212 of the cylindrical structure Second surface 2222 of the side wall component Food container composition 30, 30a Food container 300, 300a Central axis 309 24 M436333 Housing bottom 310 First surface of the housing bottom 3101 The bottom of the housing Two surfaces 3102 First cylindrical structure 321, 321a First cylindrical structure surface 3212, 3212a Side wall 320 Side wall component 323 Step structure 325 Food container composition 40 Food container 400, 400a Central shaft 409 Housing bottom 410 Housing side wall 420 First surface 4101 at the bottom of the housing second surface 4102 at the bottom of the housing 421, 422, 423, 421a, 422a angled structure 425, 425a second surface of the first cylindrical structure 4212 second surface of the side wall component 4222 25