玖、發明說明: 發明背景 本發明係有關於一種製冰機或冰塊製造機且,特別是 有關於一種具有可分離水箱之製冰機。 冰塊製造機,特別是具有垂直型蒸發器之冰塊製造機 是已知的。這些冰塊製造機具有一放置在該蒸發器下方且 可收容欲轉變成冰之水的内儲存桶,該水可以經由—傳送 泵運送至一流動控制裝置,而該流動控制裝置將這水分配 在該蒸發器之表面上以形成冰塊。 在這種製冰機中,供欲轉變成冰之水用之儲存桶以永 久之方式連接機架而成為該機架之單件式一體構件,且即 使將該製冰機之外殼拆除亦難以接近。此外,在一段時間 後,髒污將形成在該儲存桶中,且由於在包含在水中之石 灰之不斷沈積與堆積而增厚,並且水中細菌與藻類生長且 大里繁殖。因此,必須改善水儲存桶之清潔與衛生。 廷些目前之儲存桶之清潔工作係利用操作傳送泵,使 消毒劑在贿存财《來達成,依此方式來達成該儲存 桶之清理與清潔無法制令人滿意之程度,因為無法或極 難以進行檢視與目視檢查,它無法對所得到之結果提供絕 對的保證。料,這些桶在與該㈣毒雜觸的部= 完全沒有消毒。 习 因此,本發明之技術問題係欲製造一具有一蒸發哭之 冰塊製造機’且該冰塊製造機可消除先前技術之技術缺點。 【屬h明内溶1】 發明概要 關於這技術問題,本發明提供—種具有一蒸發器之冰 塊製造機,其中該冰塊製造機可完全且小心地清潔與消毒 供製造冰塊之水用的健存桶。 本發明亦提供一種具有一蒸發器之冰塊製造機,其中 該冰塊製造機可以-非常簡單且快速之方式清潔與消毒供 製造冰塊之水用的儲存桶。 本發明提供一種具有一蒸發器之冰塊製造機,其中該 冰塊製造機可以在不必完全取出冰塊之情形下清潔與消毒 供製造冰塊之水用的儲存桶。該技術問題係藉由提供一種 冰塊製造機來解決,且該冰塊製造機含有藉一水流動裝置 供應水以形成冰塊之蒸發器。該水係由一再循環泵由一儲 存桶中抽出,且該儲存桶係被一支持元件支持在該蒸發器 下方,而且在該儲存桶與該支持元件係可分離地連接著。 本發明之一特徵係提供一種製冰機,該製冰機包含一 瘵發裔、一支持元件與一供欲形成冰之水用的儲存桶。該 儲存桶係可分義連接該支持元件,該儲_可在兩不同 之方向移動以與該支持元件可分離地連接。該蒸發器亦可 與該支持元件連接,且可以設置在該儲存桶上方。該製冰 機可再包含一流動控制裝置與一泵,該流動控制裝置可與 該蒸發器及該泵㈣性地連通,且該泵可讀該流動控制 裝置及該儲麵讀丨i地連通。該流純職置將水分配 至該蒸發s,且該紐料叹—垂直㈣發器,而該流 動控制裝置可以是一灑水器。 〜該製冰機可更包含第一與第二連接結構,該等第一與 第-連接結構可用以使該料桶與該支持元件可分離地連 接mi第二連接結射以設置在賴存桶與該支 持元件之相對表面上,該儲存桶與該支持元件之相對表面 可$是平面的。前述至少兩方向可以是第一與第二方向, 該第一方向可以在-垂直於勒對表面之平®上,且該第 方向可以在—平行於該等相對表面之平面上,而該第二 方向亦可位在一沿著相對垂直方向傾斜之轴線上。該製冰 機亦可具有一外殼,且該蒸發器、儲存桶與支持元件可設 置在該外殼中。該外殼亦可分成多數隔室,且該支持元件 亦可用來將該外殼分成多數隔室。該製冰機亦可具有一大 致分隔該蒸發器與該泵之壁,該壁可以相對該蒸發器樞轉。 該第一連接結構可以是一錨定齒且該第二連接結構可 以是一對應之錨定座,且該第一連接結構亦可是一具有一 頭部之結合螺絲,且該第二連接結構可以是一具有一溝槽 之槽孔’使得該頭部可以選擇性地鉤入該溝槽中。該製冰 機可更包含一外殼,其中該等第一與第二連接結構係設置 在該館存桶與該外殼之相對表面上。該儲存桶與該外殼之 相對表面可以是該儲存桶之橫向平面與該外殼之相對平 面’且該等第一與第二連接結構之任一者或兩者亦可以手 動控制。該水儲存桶可以是一水槽,且該水儲存桶亦可以 疋一收集來自該蒸發器之廢水且將它再循環回到一水流分 200420860 配裝置的桶。該支持元件可以是該外殼之一或多個側壁與 該外殼之-或多#1分隔I,且該水槽係與該等側壁與分隔 壁可分離地連接。 本發明之另-特徵係提供一種用以可分離地連接一儲 5存桶與一支持元件之方法,且該儲存桶係在一具有一蒸發 器之冰塊製造機中供製冰之水用者,該方法之步驟包含使 該儲存桶相對該支持凡件朝一第一方向移動且接著相對該 支持元件朝一第二方向移動,藉此連接或分離該儲存桶與 該支持元件,且該第一方向與該第二方向可以互相呈9〇度 10或90度以上。該方法可更包含使該儲存桶之橫向平面與該 冰塊製造機之外殼之相對平面可分離地連接或分離的步 〇 本發明之其他特徵與優點應可由本發明之較佳但非唯 —之實施例的說明而更加清楚,且該較佳實施例係在附圖 15中顯示以便於了解且不會造成任何限制,其中: 圖式簡單說明 第1圖顯示本發明之一冰塊製造機之前部的立體圖,其 外殼已部份移除以顯示内部組件; 第2a圖顯示具有連接結構之第一較佳實施例之第1圖 20之儲存桶之立體圖; 第2b圖顯示第1圖之儲存桶與支持元件之分解立體圖; 第3a圖顯示具有該連接結構之第二實施例之儲存桶的 立體圖;及 第3b圖顯示第3&圖之儲存桶與第1圖之支持元件的分 8 200420860 解立體圖。 I:實施方式3 本發明之詳細說明 請參閱圖式,其中顧示一冰塊製造機或製冰機且大致 5 以標號1表示之,該製冰機1包含一平行於該製冰機1之前側 設置的垂直型蒸發器(圖未示,因為它被對應之可水平樞轉 壁或蓋3)。雖然本發明顯示一垂直型蒸發器,但是本發明 亦可使用其他種類與結構之蒸發器。該製冰機1更包含一在 這實施例中為一喷灑裝置之流動控制裝置5,該喷灑裝置5 10 以水供應或喷灑該蒸發器以形成冰塊。該水係利用一再循 環泵7供應至該喷灑裝置5,且該泵7與一儲存桶或水槽9流 體性地連通且將水由其中抽出,又,該泵7透過一管路13與 該喷灑裝置5流體性地連通,該儲存桶9係由一平坦支持 壁、外殼或元件11支持在該蒸發器下方。該蒸發器亦以由 15 該支持元件11支持為佳,且該支持元件11使該製冰機1之内 部形成隔室,如第1圖所示並且作為一分隔壁。 該喷灑裝置5係設置在該蒸發器上方且具有多數可分 配水之孔(圖未示),使水可藉由重力進入多數用以製冰之隔 室(圖未示)。雖然本發明使用一喷灑裝置5來將水分配至該 20 蒸發器,但是本發明亦可使用其他種類之流動控制裝置以 將水分配與供應至該蒸發器,例如,水分配管等。 該蒸發器是一其47有冷康劑流體循環流動之冷康總成 (圖未示)之一部份,該冷凍總成更包含一提供一冷凝器(以 具有一用以空氣冷卻之風扇為佳)的壓縮機。該冷凝器與一 9 層流元件連接且亦再與該蒸發器連接並且接著再與該壓縮 機連接,又,其他之冷凍組件亦可與該冷凍總成一起使用。 較佳地,在該等隔室中之製冰過程,即,冷凍循環結束時, 該冷凍過程反轉且加熱該等隔室會使該等冰塊釋出,即, 收穫循環。 在這實施例中,該等冰塊係沿著相對該蒸發器之苔3 向前與向下傾斜之表面藉重力取出,在它們自身重量之作 用下,該等冰塊連續地使該蒸發器蓋3樞轉而開啟,且它們 最後是被收集在一放在該製冰機1之底部的容器(圖未示) 中。但是,本發明亦可使用在收穫循環時將冰塊傳送至一 容器等之其他結構與方法。此外,如第1圖所示,當該辟咬 蓋3在一關閉位置時,該蓋隔離該泵7與該蒸發器。 在該製冰機1中,該儲存桶9與該對應支持元件u具有 可分離之連接’該可分離之連接係一不需要用以分離或妹 合之工具之可分分解之連接。又,該可分離之連接係至少 設置在該儲存桶9之以其後面為佳之一面或表面,與該對應 支持元件11之相對面或表面之間。更佳地,該後面是平面 且該對應支持元件11之相對面亦是平面,該可分離之連接 係藉由至少第一與第二直線移動或移動方向或力來操作。 較佳地,為了結含該儲存桶9與該支持元件u,該第一直線 移動係位在一垂J1於該儲存桶與該對應支持元件之相對平 面的平面中,且該第二直線移動平行該等相對平面。更佳 地,該第二直線務動可以沿著一垂直軸進行或可相對垂直 線傾斜。 /請參閱第2a與2b圖,其中顯示該儲存桶9之可分離之連 接糸統,而該可分離之連接系統可產生大致垂直向上或2 下之第二直線料。在這實_巾,財分離之連接包^ 至少一設置在該儲存桶9上之錨定齒15,且以三個為佳, 又,各1苗定齒由該儲存桶9之背面延伸出來且垂直向下轉。 忒可分離之連接更包含至少一錫定座,且最好是該支持元 件11之三個連續開孔26,各開孔26可以與一對應錦定歯^ 對接。 該可分離之連接亦可設置在該儲存桶9之至少一側與 該製冰機1之殼體或外殼之相對平面側之間,且該儲存桶9 之至少-侧係以平面側為佳。更佳地,這可分離之連接可 以手動操作,而最佳之方式是該可分離之連接可以藉由例 如,一螺緊元件40來形成,且該螺緊元件4〇在其一端具有 一可手動控制之握把。 ^ 請參閱第3a與3b圖,其中顯示該儲存桶9之可分離之連 接系統,而該可分離之連接系統可產生在垂直方向上向下 且傾斜之第二直線移動。在這實施财,該可分離之連接 包含至少一在該支持元件π上之結合螺絲,且較佳地,該 結合螺絲具有-頭部30且部份地螺合在該支持元件u上。 該可分離之連接更包含至少一在該儲存桶9之後面上之槽 孔,且較佳地,該槽孔包含一由可鉤住該螺絲28之頭部3〇 之長形部份32所形成之槽孔17,及—由該長形部份32向下 傾斜地延伸之溝槽16。 在前述實施例中,該可分離之連接係設置在該儲存桶9 200420860 與該支持元件11之間,但是,其他可分離之連接結構可以 設置在該儲存桶9之至少一平面側與該製冰機丨之殼體戋外 殼之相對平面側之間。較佳地,這些可分離之連接結構伏 可手動操作,特別地,它們可以藉由在一長形槽孔42中不 5螺緊元件40形成,且該螺緊元件40在其一端具有一可以手 動控制之握把。因此,可分離地連接該儲存桶9之程序使其 後平面與該對應支持元件11之相對平面藉由該儲存桶在二 垂直於該等相對面之平面中之第一直線移動與該儲存桶在 -與該等相對平面平行之平面中向下之第二直線移動來連 10接。較佳地,如前所述,該程序亦包括將該儲存桶9之至少 一橫向平面可分離地固定在該製冰機1之殼體或外殼之相 對平面。 明芩閱第2a與2b圖所示之可分離之連接的實施例,該 第一直線移動使各錨定齒15進入對應錨定座26中,且該第 15二向下直線移動使各錨定齒15鉤掛在該對應錨定座26中。 請參閱第3a與3b圖所示之可分離之連接的實施例,該 第一直線移動使該螺絲28之頭部3〇進入該對應結合槽孔Η 之長形部份32中,且該第二向下直線移動使該螺絲烈之螺 桿可在該結合槽孔U之溝槽16中滑動且使該螺絲28結合在 20 該槽孔17中。 ° 歸本發明亦可具有可使該儲存桶9與該支持元件u及該 级(外^0之任—者或兩者可分離地連接的其他結構,較佳 地,這些其他結構可在至少兩不同方向上造成移動或施力 以結合與分離該儲存桶。這兩不同方向可以互相垂直或大 12 200420860 於90度。 雖然本發明已參照一或多個實施例說明過了,但是所 屬技術領域中具有通常知識者應可了解在不偏離本發明之 範疇之情形下可進行各種變化且可以用等效物來替換其元 5 件。此外,在不偏離本發明之範疇之情形下,可進行多種 修改以使本發明之揭露配合特殊之情形或材料。因此,本 發明不受限於作為用以實施本發明之最佳模式之所揭露的 特殊實施例,且本發明將包括在以下申請專利範圍内之所 有實施例。 10 【圖式簡單說明】 第1圖顯示本發明之一冰塊製造機之前部的立體圖,其 外殼已部份移除以顯示内部組件; 第2a圖顯示具有連接結構之第一較佳實施例之第1圖 之儲存桶之立體圖; 15 第2b圖顯示第1圖之儲存桶與支持元件之分解立體圖; 第3a圖顯示具有該連接結構之第二實施例之儲存桶的 立體圖;及 第3b圖顯示第3a圖之儲存桶與第1圖之支持元件的分 解立體圖。 20 13 200420860 【圖式之主要元件代表符號表】 1…製賴 3…蓋 5.. .%:灑裝置 7…果 9…儲存桶 11…支持元件 13.. .管路 15…名苗定齒 16…織 17.. .槽孔 26.··開孔,錯定座 28.. .螺絲 30.. .頭部 32…長形部份 40…螺緊元件 42.··槽孔 14(Ii) Description of the invention: Background of the invention The present invention relates to an ice maker or ice maker and, more particularly, to an ice maker with a separable water tank. Ice cube making machines, especially ice cube making machines having a vertical type evaporator are known. These ice cube making machines have an internal storage bucket placed under the evaporator and capable of containing water to be converted into ice, which water can be transported to a flow control device via a transfer pump, and the flow control device distributes the water On the surface of the evaporator to form ice cubes. In such an ice maker, a storage bucket for water to be transformed into ice is permanently connected to a rack to become a one-piece integral component of the rack, and it is difficult to remove the outer shell of the ice maker Close. In addition, after a period of time, dirt will form in the bucket and thicken due to the continuous deposition and accumulation of stone ash contained in the water, and bacteria and algae in the water will grow and multiply. Therefore, the cleanliness and hygiene of water storage buckets must be improved. The current cleaning work of some storage barrels is achieved by operating the transfer pump, so that the disinfectant can be used to save money. In this way, the cleaning and cleaning of the storage barrels cannot be performed to a satisfactory degree because it is impossible or extremely difficult. It is difficult to carry out inspections and visual inspections, and it cannot provide absolute guarantees for the results obtained. It is expected that these barrels are in contact with the poisonous poison = no disinfection at all. Therefore, the technical problem of the present invention is to manufacture an ice cube maker with an evaporating cry, and the ice cube maker can eliminate the technical disadvantages of the prior art. [Genus h Ming internal solution 1] Summary of the invention With regard to this technical problem, the present invention provides an ice cube manufacturing machine having an evaporator, wherein the ice cube manufacturing machine can completely and carefully clean and disinfect water for manufacturing ice cubes. Used health bucket. The present invention also provides an ice cube manufacturing machine having an evaporator, wherein the ice cube manufacturing machine can clean and disinfect a storage bucket for water for manufacturing ice cubes in a very simple and fast manner. The present invention provides an ice cube manufacturing machine having an evaporator, wherein the ice cube manufacturing machine can clean and sterilize a storage bucket for water for manufacturing ice cubes without having to completely remove the ice cubes. The technical problem is solved by providing an ice cube manufacturing machine, and the ice cube manufacturing machine includes an evaporator that supplies water by a water flowing device to form ice cubes. The water system is withdrawn from a storage tank by a recirculation pump, and the storage tank is supported below the evaporator by a support element, and the storage tank and the support element system are detachably connected. One feature of the present invention is to provide an ice maker, which includes a hair dryer, a support element, and a storage bucket for water to be formed into ice. The storage barrel can be separately connected to the supporting element, and the storage can be moved in two different directions to be detachably connected to the supporting element. The evaporator can also be connected to the support element and can be arranged above the storage bucket. The ice maker may further include a flow control device and a pump, the flow control device may be in communication with the evaporator and the pump, and the pump may read the flow control device and the storage surface and communicate with each other. . The flow pure position distributes water to the evaporation s, and the button sighs-a vertical hair sprayer, and the flow control device may be a sprinkler. ~ The ice maker may further include first and second connection structures, and the first and first connection structures may be used to enable the bucket to be detachably connected to the support element, and the second connection shot to be installed in the storage On the opposite surface of the bucket and the supporting element, the opposing surface of the storage bucket and the supporting element may be flat. The aforementioned at least two directions may be first and second directions, the first direction may be on a plane perpendicular to the opposite surfaces, and the first direction may be on a plane parallel to the opposite surfaces, and the first direction may be The two directions may also be located on an axis inclined along a relatively vertical direction. The ice maker may also have a casing, and the evaporator, the storage bucket, and the supporting element may be disposed in the casing. The housing can also be divided into a plurality of compartments, and the supporting element can also be used to divide the housing into a plurality of compartments. The ice maker may also have a large wall separating the evaporator from the pump, and the wall may pivot relative to the evaporator. The first connection structure may be an anchor tooth and the second connection structure may be a corresponding anchor seat, and the first connection structure may also be a combination screw having a head, and the second connection structure may be It is a slot hole with a groove so that the head can be selectively hooked into the groove. The ice maker may further include a casing, wherein the first and second connection structures are disposed on opposite surfaces of the library bucket and the casing. The opposite surface of the storage barrel and the casing may be the lateral plane of the storage barrel and the opposite surface of the casing 'and either or both of the first and second connection structures may also be controlled manually. The water storage bucket can be a water tank, and the water storage bucket can also be a bucket that collects waste water from the evaporator and recycles it back to a water flow 200420860 device. The support element may be one or more side walls of the housing separated from the housing by one or more # 1, and the sink is detachably connected to the side walls and the separation walls. Another feature of the present invention is to provide a method for detachably connecting a storage bucket and a supporting element, and the storage bucket is used for ice-making water in an ice cube manufacturing machine having an evaporator. Alternatively, the steps of the method include moving the storage bucket in a first direction relative to the support member and then moving in a second direction relative to the support member, thereby connecting or separating the storage bucket and the support member, and the first The direction and the second direction may be 90 degrees, 10 degrees, or 90 degrees or more. The method may further include the step of detachably connecting or separating the horizontal plane of the storage barrel and the relative plane of the housing of the ice cube maker. Other features and advantages of the present invention should be better, but not exclusive, of the invention. The description of the embodiment is more clear, and the preferred embodiment is shown in FIG. 15 for easy understanding without causing any restrictions, wherein: The diagram is a brief description. FIG. 1 shows an ice cube making machine according to the present invention. A perspective view of the front part, the outer shell of which has been partially removed to show the internal components; FIG. 2a shows a perspective view of the storage bucket of FIG. 20 of the first preferred embodiment with a connection structure; FIG. 2b shows the first view of FIG. An exploded perspective view of the storage bucket and the supporting element; FIG. 3a shows a perspective view of the storage bucket of the second embodiment having the connection structure; and FIG. 3b shows 8 of the storage bucket of FIG. 3 & 200420860 Exploded perspective view. I: Embodiment 3 For a detailed description of the present invention, please refer to the drawings, in which an ice cube maker or ice maker is shown and approximately 5 is denoted by reference numeral 1. The ice maker 1 includes a parallel to the ice maker 1. A vertical evaporator on the front side (not shown, as it is correspondingly pivoted horizontally to the wall or cover 3). Although the present invention shows a vertical type evaporator, the present invention can also use other types and structures of evaporators. The ice maker 1 further includes a flow control device 5 which is a spraying device in this embodiment, and the spraying device 5 10 supplies or sprays the evaporator with water to form ice cubes. The water system is supplied to the spraying device 5 by a recirculation pump 7, and the pump 7 is in fluid communication with a storage tank or water tank 9 and draws water therefrom. In addition, the pump 7 communicates with the pump 13 through a pipeline 13. The spraying device 5 is in fluid communication, and the storage tank 9 is supported below the evaporator by a flat support wall, housing or element 11. The evaporator is also preferably supported by the support member 11 and the support member 11 forms a compartment inside the ice maker 1, as shown in Fig. 1 and serves as a partition wall. The spraying device 5 is arranged above the evaporator and has a large number of water-dispensable holes (not shown), so that water can enter the most ice-making compartments (not shown) by gravity. Although the present invention uses a spraying device 5 to distribute water to the 20 evaporator, the present invention can also use other kinds of flow control devices to distribute and supply water to the evaporator, such as water distribution pipes and the like. The evaporator is a part of a cold-kang assembly (not shown) in which a refrigerant fluid is circulated. The freezing assembly further includes a condenser (to have a fan for air cooling). Better) compressor. The condenser is connected to a 9 laminar flow element and also to the evaporator and then to the compressor, and other refrigeration components can also be used with the refrigeration assembly. Preferably, at the end of the ice making process in the compartments, that is, at the end of the freezing cycle, the freezing process is reversed and heating the compartments will release the ice cubes, that is, the harvesting cycle. In this embodiment, the ice cubes are taken out by gravity along the sloping surface forward and downward relative to the moss 3 of the evaporator. Under their own weight, the ice cubes continuously make the evaporator The lids 3 are pivoted and opened, and they are finally collected in a container (not shown) placed on the bottom of the ice maker 1. However, the present invention can also use other structures and methods for transferring ice cubes to a container or the like during a harvest cycle. In addition, as shown in Fig. 1, when the bite cover 3 is in a closed position, the cover isolates the pump 7 from the evaporator. In the ice maker 1, the storage bucket 9 has a separable connection with the corresponding supporting element u '. The separable connection is a separable connection which does not require a tool for separation or mating. In addition, the separable connection is provided at least between one surface or surface of the storage barrel 9 and preferably the rear surface thereof, and the opposite surface or surface of the corresponding supporting element 11. More preferably, the rear face is a flat surface and the opposite surface of the corresponding supporting element 11 is also a flat surface, and the separable connection is operated by at least first and second linear movements or moving directions or forces. Preferably, in order to incorporate the storage barrel 9 and the supporting element u, the first linear movement is located at a vertical J1 in a plane of the opposite plane of the storage barrel and the corresponding supporting element, and the second linear movement is parallel The relative planes. More preferably, the second linear motion may be performed along a vertical axis or may be inclined with respect to the vertical line. / Please refer to Figs. 2a and 2b, which show the separable connection system of the bucket 9, and the separable connection system can produce a second straight material which is approximately vertically upwards or 2 times. In this case, at least one of the anchoring teeth 15 provided on the storage barrel 9 is preferably a connection bag ^, and preferably three, and each of the seedling teeth extends from the back of the storage barrel 9 And turn straight down.忒 The separable connection further includes at least one tin fixing seat, and preferably three consecutive openings 26 of the supporting element 11, each opening 26 can be docked with a corresponding Jinding 歯 ^. The separable connection may also be provided between at least one side of the storage bucket 9 and the opposite plane side of the housing or casing of the ice maker 1, and at least-side of the storage bucket 9 is preferably a flat side . More preferably, the separable connection can be operated manually, and the best way is that the separable connection can be formed by, for example, a screwing element 40, and the screwing element 40 has a Manually controlled grip. ^ Please refer to Figures 3a and 3b, which show the separable connection system of the bucket 9, and the separable connection system can generate a second linear movement downward and inclined in the vertical direction. In this implementation, the detachable connection includes at least one coupling screw on the support element π, and preferably, the coupling screw has a head 30 and is partially screwed onto the support element u. The detachable connection further includes at least one slot hole on the rear surface of the storage barrel 9, and preferably, the slot hole includes an elongated portion 32 which can be hooked to the head 30 of the screw 28. A slot 17 is formed, and a groove 16 extends obliquely downward from the elongated portion 32. In the foregoing embodiment, the separable connection is disposed between the storage barrel 9 200420860 and the supporting element 11; however, other separable connection structures may be disposed on at least one plane side of the storage barrel 9 and the system. The casing of the ice machine 丨 is located between the opposite plane sides of the casing. Preferably, these detachable connection structures can be manually operated. In particular, they can be formed by 5 screwing elements 40 in an elongated slot 42, and the screwing element 40 has a Manually controlled grip. Therefore, the procedure for detachably connecting the storage bucket 9 causes the rear plane and the relative plane of the corresponding supporting element 11 to be moved by the first straight movement of the storage bucket in two planes perpendicular to the opposite faces to the storage bucket at -A second straight downward movement in a plane parallel to the opposing planes to connect 10 connections. Preferably, as mentioned above, the procedure also includes detachably fixing at least one lateral plane of the storage barrel 9 to the opposite plane of the casing or outer shell of the ice maker 1. Observe the detachable connection embodiment shown in Figures 2a and 2b. The first linear movement causes each anchoring tooth 15 to enter the corresponding anchor seat 26, and the fifteenth second straight downward movement causes each anchoring. The teeth 15 are hooked in the corresponding anchoring seat 26. Please refer to the detachable connection embodiment shown in Figs. 3a and 3b. The first linear movement causes the head 30 of the screw 28 to enter the long portion 32 of the corresponding coupling slot Η, and the second The straight downward movement allows the screw screw to slide in the groove 16 of the coupling slot U and the screw 28 is combined into the slot 17. ° The present invention may also have other structures that enable the storage tank 9 to be detachably connected to the support element u and the stage (any of the two or both). Preferably, these other structures may be at least at least Two different directions cause movement or force to combine and separate the storage bucket. The two different directions can be perpendicular to each other or larger 12 200420860 at 90 degrees. Although the present invention has been described with reference to one or more embodiments, the related art Those with ordinary knowledge in the field should understand that various changes can be made without departing from the scope of the present invention, and that 5 elements can be replaced with equivalents. In addition, without departing from the scope of the present invention, Various modifications are made to adapt the disclosure of the present invention to special circumstances or materials. Therefore, the present invention is not limited to the specific embodiments disclosed as the best mode for implementing the present invention, and the present invention will be included in the following applications All the embodiments within the scope of the patent. 10 [Simplified description of the drawings] Figure 1 shows a perspective view of the front part of an ice cube making machine according to the present invention, and its casing has been partially removed to show the inside. Components; Figure 2a shows a perspective view of the bucket of Figure 1 with the first preferred embodiment of the connection structure; 15 Figure 2b shows an exploded perspective view of the bucket and supporting elements of Figure 1; Figure 3a shows the A perspective view of the storage barrel of the second embodiment of the connection structure; and FIG. 3b shows an exploded perspective view of the storage barrel of FIG. 3a and the supporting components of FIG. 1. 20 13 200420860 [Representative symbol table of main components of the drawing] 1 ... Reliance 3 ... cover 5 ..%: sprinkler 7 ... fruit 9 ... storage bucket 11 ... support element 13 .... pipe 15 ... named seedling 16 ... weaving 17 .... slot 26 ... Hole, staggered seat 28 .. Screw 30 .. Head 32 ... Long section 40 ... Screw element 42 ... Slot hole 14