8914 A6 B6 經濟部中央標準局3工消費合作钍印¾ 五、發明説明(3 ) 本發明係闞於製冰機,尤關於將突設在製冰基板下面 之許多製冰突起浸潰在形成於水盤内之製冰室中之製冰水 内,K設在製冰室之搌動板攪動製冰水同時進行製冰運轉 ,在進行製冰運轉當中,於製冰突起周圍形成倒圓頂( inverted dome)狀冰塊後,傾倒水盤而將冰塊排出之製冰 機,在該製冰機中,將水盤之傾動機構及攝動板之搌動機 構全部設在蓋體上,俾便K高效率的進行裝組作業,而且 容易進行各楗構之修護作業。 [以往之技術] 連讓的製造許多小方塊狀冰等冰塊之自動製冰機之製 冰方式有許多種方式,而配合其用途採用適當方式。例如 ①設置許多縱横分隔板而形成開口於下方之許多製冰小室 ,從設在其下方之水盤將製冰水噴射至各對應之製冰小室 ,在連结於冷凍系統之蒸發管冷却之各製冰小室内形成小 方塊狀冰之閉合小室式製冰機;②不使用水盤而從下方將 製冰水撒佈於該等製冰小室中,藉此在各小室中形成小方 塊狀冰之開放小室式製冰機;③使製冰水從直立之製冰板 上沿着其一側面流下,藉此在該製冰板面上形成許多半圓 柱形魚餅狀冰塊之水流下式製冰機等。 以上3種型式之製冰機皆採用具有用來儲存一定量之 製冰水之製冰水槽,以泵將製冰水壓送至該槽中,K便將 製冰水供給於製冰單元之製冰小室或直立製冰板,將未能 结冰之製冰水回收至槽中後,再度壓送至製冰單元中之強 制循環機構。因此這棰方式之製冰櫬中需要裝設使製冰水 (請先《讀背面之>£意事項再填寫本頁) 裝- .ΤΓ. 本纸張又度適用中國园家標準(CNS)甲4規格(210 X 297公釐) 〇 82.L· 20,000 經濟部中央標準局员工消費合作社印製 Π914 A6 _____B6_ 五、發明説明(4 ) 循環之泵及製冰水槽等附帶設備,使構造變成複雜,成本 增高,形狀增大。此外,又有一種將製冰水儲存於水盤中 一定之水平,使設在具有蒸發管之製冰基板下面垂直突出 於下方之製冰突起浸漬在製冰水中,藉此在製冰突起周圍 形成冰塊之藺易型製冰機亦已問世。這種製冰機因不必使 用製冰運轉當中使製冰水在水盤與製冰水槽之間由泵壓送 而循環之機構,故構造較間單,成本較低,而且形狀亦較 小。 這種只將保持冷却之許多製冰突起浸漬於水盤中之製 冰水内,以便在突起周圍形成冰塊之製冰機中,製冰水在 其製冰運轉作業當中完全不會循環,保持「靜止狀態」。 因此,形成於製冰突起周圍之冰瑰受到溶解在製冰水中空 氣之影銮而發生白濁現象,變成不透明狀態。雖然白濁不 透明之冰塊本身對冰塊原來之冷却等用途並無不良影響。 但這種不透明之冰塊若使用在歆食店或餐廳等内時,與清 澄透明之冰塊一比,非常不美觀,使商品價值降低。 本發明之申請人曾揭示一種解決上述問題之「製冰襪 之防止白濁機構」。該發明係在形成於水盤内部之製冰室 內設置可擺動自如之搌動板利用設在製冰機本體中之摄動 機構將該摄動板在製冰運轉作業中攝動使製冰室内之製冰 水流動之裝置。如此可防止形成於製冰部周圍之冰塊發生 白濁。這種製冰機具有製冰作業完成後,使水盤傾斜至一 定角度後停止,並且在經過除冰運轉使冰塊從製冰突起掉 落後,使停止於傾斜狀態下之水盤上昇,復原成水平狀態 ----.---:----------1--------裝------TT-----琛 (請先閲讀背面之注意事項再塡寫本頁) 本纸張又度通用中囡3家棵準(CNS)甲4觇恪(210 X 297公;$ > 4 82.1. 20,000 218914 A6 B6 經濟部中央標準局貝工消費合作社印5机 五、發明説明(5 ) 之傾動機構。 該製冰機中,在本體側面設有振動板之搌動機構,並 且在本體後面設有水盤之傾動機構。因為各機構分離的設 在製冰機本體上之不同部位,故在製冰機之裝配生產線上 必須將各機構裝配在製冰機本體上,使生產線上之組装作 業增加,降低作業效率。又因為各機構係分離的装設在不 同部位,使製冰機本身之形狀變成龐大。若將製冰機放置 在廚房等空間較小之房間内時,因為各機構被裝設在製冰 機本體側面及後面,故其修護工作難於執行。 [發明之目的] 本發明之目的為提供一種可解決將由蒸發管冷却之製 冰突起浸潰於儲存在水盤中之製冰室内之製冰水中,在製 冰突起周圍形成冰塊之製冰機之缺點,可提高製冰機之組 立製造作業效率,各機構之修護亦非常簡易之製冰機。 [發明之概要] 本發明之製冰機係將突設在製冰基板下面之許多製冰 突起浸漬在形成於水盤內之製冰室中之製冰水内,利用設 在製冰室内之摄動板使製冰水移動而進行製冰作業,在進 行製冰作業當中,於製冰突起周圍形成倒圓頂狀冰塊後, 將水盤傾斜而排出冰塊之製冰機,其中將水盤之傾動機構 及摄動板之攝動機構全部装設在蓋體上,藉此提高組装作 業效率,並且容易進行各櫬構之修護。 [發明之效果] 依照本發明之製冰機,因為將水盤之傾動櫬構及攝動 (請先閲讀背面之注意事項再填寫本頁) 丨裝· •11_ 1'泉_ 本纸張尺度適用中國园家櫺準(CNS)甲4規格(210 X 297公釐) R 82.1. 20 000 21B914 A6 B6 附件二 經濟部中央標準居w:工消費合作社印« 五、發明説明g ) · 板之擺動機構全部裝設在蓋體上,將該蓋體可裝卸自如的 裝配在箱體之開口上,故可提高自動製冰機之组裝作業。 又因為將傾動機構及擺動機構全部裝配在一起,故可縮小 製冰機之形狀,而且可簡易而迅速的進行修護作業。又因 利用突起及穿孔將蓋體定位在箱體上,故可縮短組裝作業 中之定位所需時間。 [圖式之簡單説明] 圖1為本發明實施例之製冰機中之製*冰單元之一部分 解概略透視圖;(a)表示製冰基板,(b)表示水盤與擺動機 構之構成; 圖2為本發明實施例之製冰機之概略斷面圖;* 圖3為裝設水盤之傾動機構,擺動板之擺動機構,及 冰塊排出裝置之蓋《之正面圖; 圖4為傾動機構及擺動機構之分解狀態要部透視圔; 圖5為圖1所示製冰單元之要部斷面圖; 圖6為將製冰單元設在儲冰庫之狀態之概略透視圔; 圔7為拆下蓋體時之儲冰庫之要部正面圖; 圖δ為製冰機之外觀透視圔; 圖9為本發明實施例之製冰機組裝構造之分解透視圔; 圖10為拆下各機器装置時之框體之縱斷側面圔; 圖11為拆下前面蓋及蓋體時之裂冰機之正面圖; 圖12為製冰機之背面圖; 圖1 3為本發明實施例之製冰機中,從主機架拆下前面 板時之溉略透視圖;(a )表示框體,(b )表示前面板; _BM 4為耒示梨冰機之前而衔担機器室之關偽之要部槪 本紙張尺度適用中國國家標準(CNS)甲4规烙(210 X 297公货) 82.6. 40,000 (請先閲讀背面之注意事項再塡寫本頁)8914 A6 B6 Central Industry Bureau, Ministry of Economic Affairs, Industry and Consumer Cooperation, Thorium Seal ¾ V. Description of the Invention (3) This invention is for ice-making machines, especially regarding the formation of many ice-making protrusions protruding under the ice-making substrate. In the ice-making water in the ice-making chamber in the water tray, K is set on the stirring plate of the ice-making chamber to stir the ice-making water and perform the ice-making operation. During the ice-making operation, an inverted dome is formed around the ice-making protrusion (Inverted dome) shaped ice cube, an ice maker that dumps the water tray and discharges the ice cube. In this ice maker, the tilt mechanism of the water tray and the stirrer mechanism of the perturbation plate are all set on the cover to facilitate K efficiently performs assembly work, and it is easy to perform maintenance work on each structure. [Conventional Technology] There are many ways to make ice in automatic ice machines that make many small cubes and other ice cubes, and appropriate methods are used according to their uses. For example, ① install many vertical and horizontal partition plates to form many ice-making chambers opening below, and spray ice-making water from the water tray provided below to the corresponding ice-making chambers, and cool them by the evaporator connected to the freezing system. Closed cell ice machines that form small cube-shaped ice in each ice-making compartment; ② Sprinkle ice-making water into these ice-making compartments from below without using a water tray, thereby forming small cubes in each cell An open-cell ice-making machine with shaped ice; ③ Make ice-making water flow down from one side of an upright ice-making plate, thereby forming a stream of many semi-cylindrical fish cake-shaped ice cubes on the surface of the ice-making plate The following ice machine, etc. The above three types of ice-making machines all use ice-making water tanks for storing a certain amount of ice-making water. The ice-making water is pumped into the tank by a pump, and K supplies the ice-making water to the ice-making unit. The ice-making chamber or the upright ice-making plate recovers the ice-making water that has not been frozen into the tank, and then sends it to the forced circulation mechanism in the ice-making unit again. Therefore, ice-making water needs to be installed in the ice-making method of this method (please read "Back" & "Important Matters, then fill out this page")--ΤΓ. This paper is again applicable to the Chinese Gardener Standard (CNS ) A4 specifications (210 X 297 mm) 〇82.L · 20,000 Printed by the Consumer Cooperative of the Central Standards Bureau of the Ministry of Economy Π914 A6 _____B6_ 5. Description of the invention (4) Circulating pumps and ice-making water tanks and other ancillary equipment to make the structure It becomes complicated, the cost increases, and the shape increases. In addition, there is another method for storing ice-making water in a water tray to a certain level, so that the ice-making protrusions vertically protruding below the ice-making substrate provided with the evaporation tube are immersed in the ice-making water, thereby forming around the ice-making protrusions The ice-making ice machine of the ice block has also come out. This ice maker does not need to use a mechanism that circulates ice-making water between the water tray and the ice-making water tank by pumping during the ice-making operation, so the structure is relatively simple, the cost is low, and the shape is also small. This kind of ice making machine that only keeps many ice making protrusions immersed in the water tray in order to form ice cubes around the protrusions, the ice making water will not circulate at all during its ice making operation. "Stationary state". Therefore, the ice rose formed around the ice-making protrusions becomes opaque due to the shadow of the air dissolved in the ice-making water and becomes cloudy. Although the turbid and opaque ice cube itself has no adverse effect on the original cooling of the ice cube and other uses. However, when this kind of opaque ice cube is used in a food shop or restaurant, it is very unsightly compared with the clear ice cube, which reduces the value of the product. The applicant of the present invention has disclosed a "white turbidity prevention mechanism" for solving the above problems. The invention is to set a swingable movable plate in the ice making room formed inside the water tray, and use the perturbing mechanism provided in the body of the ice machine to perturb the perturbing plate in the ice making operation to make the ice making room Device for making ice water flow. This prevents the ice cubes formed around the ice making section from becoming cloudy. This ice maker has the function of tilting the water tray to a certain angle after the ice making operation is completed, and after the de-icing operation causes the ice cubes to fall off from the ice making, the water tray stopped in the tilted state is raised and restored to Horizontal state ----.---: --------- 1-1 -------- installed ------ TT ----- Chen (please read the back side first (Notes will be written on this page.) This paper is also used by the general government of China (CNS) A 4 target (210 X 297 public; $ > 4 82.1. 20,000 218914 A6 B6 Ministry of Economic Affairs Central Standards Bureau shellfish The consumer cooperative printed 5 machines. 5. The tilting mechanism of the invention description (5). In this ice maker, the tilting mechanism of the vibrating plate is provided on the side of the body, and the tilting mechanism of the water tray is provided behind the body. Because each mechanism is separated They are located at different parts of the ice machine body. Therefore, each mechanism must be assembled on the ice machine body in the assembly line of the ice machine, which increases the assembly work on the production line and reduces the operating efficiency. Separate installation in different parts makes the shape of the ice maker itself huge. If the ice maker is placed in a small room such as a kitchen During the time, because each mechanism is installed on the side and the back of the ice machine body, its maintenance work is difficult to perform. [Object of the invention] The object of the invention is to provide a solution to the ice-making protrusions that are cooled by the evaporation tube The shortcomings of the ice machine that breaks into the ice making water stored in the ice making room in the water tray and forms ice cubes around the ice making protrusions can improve the efficiency of the assembly manufacturing operation of the ice machine, and the maintenance of each institution is also very simple. [Summary of the invention] The ice maker of the present invention is to immerse many ice-making protrusions protruding under the ice-making substrate in the ice-making water formed in the ice-making chamber in the water tray, using the The ice plate in the ice chamber moves the ice-making water to perform ice-making operations. During the ice-making operation, after forming an inverted dome-shaped ice block around the ice-making protrusion, the ice machine tilts the water tray to discharge the ice block. Among them, the tilting mechanism of the water pan and the perturbing mechanism of the perturbation plate are all installed on the cover body, thereby improving the efficiency of assembly work, and easy to repair the various structures. [Effect of the invention] The system according to the present invention Ice machine because of the water The tilting structure and perturbation of the plate (please read the precautions on the back before filling in this page) 丨 Installed • 11_ 1 '泉 _ This paper size is suitable for China Garden Home Standard (CNS) A 4 specifications (210 X 297 Mm) R 82.1. 20 000 21B914 A6 B6 Annex II Central Standard Residence of the Ministry of Economic Affairs w: printed by the industrial and consumer cooperative «V. Description of invention g) · The swing mechanism of the board is all installed on the cover, which can be detached It can be easily assembled on the opening of the box, so it can improve the assembly operation of the automatic ice machine. And because the tilting mechanism and the swing mechanism are all assembled together, the shape of the ice maker can be reduced, and the repair work can be performed simply and quickly. Also, because the lid is positioned on the box by using protrusions and perforations, the time required for positioning during assembly work can be shortened. [Brief description of the drawings] FIG. 1 is a schematic perspective view of a part of the solution of the ice-making unit in the ice-making machine according to the embodiment of the present invention; (a) shows the ice-making substrate, (b) shows the structure of the water tray and the swing mechanism; Fig. 2 is a schematic cross-sectional view of an ice maker according to an embodiment of the present invention; * Fig. 3 is a front view of a tilting mechanism equipped with a water tray, a swinging mechanism of a swinging plate, and a cover of an ice discharging device; Fig. 4 is a tilting The main parts of the disassembled state of the mechanism and the swing mechanism are perspective; Figure 5 is a cross-sectional view of the main parts of the ice-making unit shown in Figure 1; Figure 6 is a schematic perspective view of the state where the ice-making unit is set in the ice storage; Front view of the main part of the ice storage when the cover is removed; Figure δ is a perspective view of the appearance of the ice maker; Figure 9 is an exploded perspective view of the assembly structure of the ice maker according to an embodiment of the present invention; Figure 10 is removed The longitudinal sides of the frame when each machine is installed; Figure 11 is a front view of the ice cracker when the front cover and cover are removed; Figure 12 is a rear view of the ice maker; Figure 13 is an embodiment of the present invention In the ice machine, the perspective view of the irrigation when the front panel is removed from the main frame; (a) represents the frame, (b) represents Panel; _BM 4 is a key part of the machine room that is in front of the Lei icing machine, and the paper size is in accordance with China National Standard (CNS) A 4 regulation (210 X 297 public goods) 82.6. 40,000 (please first (Read the notes on the back and write this page)
J —裝. 訂. 經濟部中央標準局員工消費合作社印製 218914 82.' 年 'Ά • ? 'fj 修f 補秀 ϋ Α6 Β6 五、 發明説明(7 ) * 3§ m 斷 側面 圖 > 圔 1 5為 表 示製 冰 機 之 \ 1· 刖 面 板 與 機 器 室 之 闊 偽 之 要 部概 瑢 橫 斷 平面 圖 圖 1 6為 製 冰單 元 中 當 水 盤 傾 動 時 之 狀 態 之 一 部 剖 斷側 面 圖 9 圖 1 7為 製 冰機 之 控 制 電 路 圖 * 圖 1 8為在製冰 蓮 轉 作 業 當 中 » 擺 動 板 在 擺 動 時 之 製冰 act 卑 元 及 其對 應 之擺 動 機 構 之 說 明 圖 (a )為擺動機構之側 視 示 意 阃; (b )為水盤之剖視圖; 圖 19為 製 冰終 後 之 製 冰 αο 早 元 及 其 對 應 之 擺 動 機 構之 說 明 圖 ;U)為擺動機構之側視示意 圔; Λ ( b )為 水 盤 之 剖視 圖 f 圖 20為 製 冰终 了 後 擺 動 構 件 之 擺 動 突、 起 從 製 冰 αο 単 元及 擺 動 板 上之 卡 合片 之 頤 動 軌 跡 退 縮 時 之 對 應 擺 動 機 構 之說 明 圖 r (a )為擺動機構之側視示意圖 > ⑴為 水 盤 之 剖 視圖 » 圔 2 1為 製 冰终 了 時 之 製 冰 αα 早 元 , 及 其 對 應 之 擺 動 機構 » 傾 動 機構 之 説明 圖 » (a )為水盤, 擺動機構, 及凸板之 関 偽 示 意圖 I (b )為凸板之背面之示 意圖; 圖 2 2為 水 盤停 止 傾 動 時 之 製 冰 ασ 単 元 t 其 對 應 之 頤 動機 構 之 凸 板, 及 第2和第4開 m 之 位 置 關 傜 之 說 明 圖 ;( a ) 為水 盤 擺 動機 構 ,及 凸 板 之 關 偽 示 意 圖 9 (b )為凸板之背面 之 示 rfV· 思 圖; 圔 2 3為 水 盤開 始 度 原 時 之 製 冰 ασ m 元 與 其 應 之 傾 動機 構 之 凸 板與 弟 2及第4開 閟 之 位 置 關 ί % 之 說 明 _ 1 (a )為水 盤 f 擺 動機 構 ,及 凸 板 之 關 % 示 --«g 圖 9 (μ為凸板之背面 之 示 意 圖; 圖 2 4為 水 盤超 過 水 平 姿 勢 而 成 為 傾 動 時 之 製 冰 σα 早 元與 其 對 m Ίίύ,Χ 之傾 動 機構 之 凸 板 與 第 2及第 4開 m 之 位 置 閟 之說 明 圔 f (a )為水盤, 擺動機溝, 及凸 板之關偽示意圖, (b) 為 凸 板 之背 面 之示 音 圖 > 圖 25為 擺 動板 之 m 動 機 構 中 t 擺 動 溝 件 之 擺 動 起撿 測 製 冰 已终 了 而離 開 擺 動 板 之 卡 合 片 之 傾 動 軌 跡 時 之 過程 7 ψ —裝· 訂- (請先閲讀背面之注意事項再場寫本頁) 本紙張尺度適用t國國家標準(CNS)甲4規格(210 X 297公釐) 82.6. 40,000 218914 A6 B6 經濟部中央標準局R工消费合作杜印製 五、發明説明(8 ) 之動作說明圖; 圖26為製冰機之控制時序圖表。 [實腌例] 以下參照圖式說明本發明之實施例。為了說明之方便 ,說明書中「前後」,「左右」係指從製冰機之正面觀視 時之狀態為準之方向。 第2圖及第8圖為本發明實施例之製冰機之全部概略结 構之斷面圖及透視圖。構成製冰機本體之框體10之内部基 本上係由收容壓縮櫬CM及凝结器11等冷凍機器之下部機器 室12,位於下部機器室上方被隔熱材料100包覆並且內部 設有儲冰室δ3之箱狀儲冰庫14,及設在儲冰庫14内之上部 之製冰單元15所構成。如圖1及圖5所示,製冰單元15具有 儲存一定水位之製冰水之水盤16,及設有浸漬於製冰水中 之製冰突起17之製冰基板13。水盤16在變換成除冰作業時 傾斜一定角度將水盤16中之製冰水經由排水承受部19及排 水管20排出於外部,並且將冰塊21排出至儲冰室83。儲冰 庫14内設有冰瑰排出装置13,利用該排出裝置13將儲存於 儲冰室83內之冰塊21排出於外部。 如圖8〜圖13所示,框體10包括装設有上述冷凍機器 之支持架101,包圍裝設在支持架101上之冷凍機器及儲冰 庫14之主機架22,及設在主機架22前面之前面板23,整髖 上成為横寬尺寸極短之细長形狀。 如圖9所示,支持架101係由矩形狀底面101a,及設在 底面101a之前後端緣部之具有-定高度之豎立部101b, 本纸張尺度適用中國國家標準(CNS)甲4規格(210 X 297公货〉 η 82.1. 20,000 {請先《讀背面之注意事項再填寫本頁) Α6 經濟部中央揉準局工消费合作钍印製 _Β6_ 五、發明説明(9 ) 101c所構成。在前部豎立部101b之必要部位上形成有許多 螺紋孔103,在後部豎立部101c之必要部位上形成有許多 嫘紋孔104。該等螺紋孔103, 104係用來將支持架101定位 於主機架22上者。在支持架101底面101a之各角落部突設 有脚102,利用該等4涸脚102將製冰櫬安装在安裝面上。 在支持架101底面101a上設有空氣吸入口(未圖示), 在後部豎立部101c設有吹出口。當設在下部機器室12中之 冷却風扇(未圖示)旋轉時,從吸入口吸入之空氣接觸楗器 室12內之凝结器11並經過熱交換被冷却後,溫度上昇之空 氣經由吹出口被排出於外部。包覆在吸入口上之漶器構件 26可装卸自如的装設在底面101a之下面,使得經過去除灰 塵之空氣經由吸入口被吸入襪器室12中。如此可防止灰塵 附着於凝结器11上而發生堵塞,使凝结器11之冷却效率降 低之問題。漶器構件26可從框體10前面簡易的裝配及拆下 0 如圖13所示,在支持架101之前部豎立部101b上設有 一定尺寸之開口 l〇ld。將前面板23從主襪架22上拆下時, 該開口 101開啟,以便從正面進行收容於機器室12内之冷 凍機器之修護。包覆儲冰庫14之隔熱材料100放置在前部 豎立部101b之上部横材101e之上端,其全部寬度方向之範 圍内。將前面板23拆下時,機械室12僅透過開口 101d開啟 於前方。 儲冰庫14形成為上方及前方開口之箱形狀。在其上部 開口部一體的形成有許多裝配部14b,而經由設在裝配部 ----------------j--------装------.玎-----(i (請先閲讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家櫟準(CNS)甲4規格(210 X 297公釐) 9 82.1. 20,000 218914 A6 B6 绶濟部中央標準局WC工消費合作社印¾ 五、發明説明(10 ) 14b, 14b托架3 2, 3 2水平的装設製冰基板18及水盤16(第 6圖)。如圖7及圖9所示,在儲冰庫14之前面開口 79之左右 緣部一體的形成延伸至外方之凸緣14c, 14c,而且在該凸 緣14c, 14c上形成有朝向上下方向之許多螺紋孔105, 105。該等螺紋孔105係在將儲冰庫14固定在主機架22上, 或將蓋體27装配在儲冰庫14上時使用。儲冰庫14之背面裝 設有裝配板106,而在裝配板106上之必要位置設有螺紋孔 107, 107。該等螺紋孔107, 107係在將儲冰庫14固定於主 機架22上時使用。 如圖10所示,在儲冰庫14之正面端部附近之底面形成 具有一定尺寸之排出口 14a, Μ便將被冰瑰排出裝置13搬 送之冰塊21經由該排出口 14a排出於外部。該排出口 14a在 較支持架101之豎立部l〇lb之上端更高出一定高度之上方 而且面臨前方之位置開口於下方。儲冰庫14之左右凸緣 14c, 14c上設有突起84, 84,利用該等突起84,84將蓋體 27定位。 如圖9所示,主楗架22包括矩形狀頂板22a,及垂設在 頂板22a之左右兩端緣之側板22b, 22b。在兩側板22b, 22b之前端緣部之下方設有延伸至内側之凸緣22c, 22c, 而且在該等凸緣22c, 22c上形成有對應於設在支持架101 之前部豎立部101b之螺紋孔103之螺紋孔108。在離開凸緣 22c, 22c之形成位置一定距離上方之前端緣部突設有延伸 至内側之装配片22d, 22d,而在各裝配片22d上分別形成 有對應於設在儲冰庫14之凸緣14c之特定螺纹孔105之螺紋 (請先閱讀背面之注意事項再填寫本頁) 丨裝. 訂. 線. 本紙張尺度適用中國國家標準(CNS)甲4規格(210 X 297公釐) i 〇 82.1. 20,000 218914 A6 B6 經濟部中央標準局S工消費合作社印製 五、發明説明(1 1 ) 孔109。兩側板22b, 22b之後端緣部上設有延伸至内側之 凸緣22e, 22e,而在凸緣22e, 22e上形成有對應於設在支 持架101之後部豎立部101c之螺纹孔104,及對應於設在儲 冰庫14之裝配板106之螺紋孔107之螺紋孔110, 111。 如圖11及圖12所示,主機架22與支持架101係在將各 對應之螺紋孔1 0 8, 1 0 3與螺紋孔110, 104互相對正之狀態 下,由螺栓112, 113互相定位而固定。在此狀態下,主機 架22之頂板22a與支持架101之底面101a成為平行狀態。主 機架22與儲冰庫14在將各對應螺紋孔109, 105與螺紋孔 111, 107對正之狀態下,由嫘栓114, 115互相定泣而固定 。在此狀態下,主櫬架22之頂板22a與儲冰庫14之上部開 口面成為平行(圖10)。設在主機架22之儲冰庫14其底部( 隔熱構件100及裝配板10S)接觸或稍微離開設在支持架101 上之冷凍機器或前後豎立部l〇lb, 101c (圖2),以防止因 冷凍機器之装設狀態,豎立部l〇lb, 101c之高度尺寸,及 儲冰庫底部形狀之不均勻而影響該儲冰庫14之裝配位置。 如圖3所示,在設置於儲冰庫14前面開口 79蓋體27之 左右緣部85, 85上,對應於儲冰庫14之特定螺紋孔105突 起84之位置,形成有穿孔85a及缺口 85b, Μ便將突起84插 入通孔85a中而將儲冰庫14與蓋體27定位(圖6)。將螺栓等 固定装置(未圖示)經由其餘之穿孔85a及缺口 85b旋人於螺 栓孔105中而將蓋體27固定在儲冰庫14前面。用來插通突 起84之穿孔85a之形狀為朝向左右方向延伸之長孔狀,以 便進行左右方向之微調。 本纸張尺度通用中國a家様準(CNS)甲4規格(210 X 297公;¢) , , 82.1. 20,000 (請先閲讀背面之注意事項再填寫本頁) A6 B6 218914 五、發明説明(12) (請先閲讀背面之注意事項再填寫本頁) 如圖3所示,在蓋體27之前面裝設有製冰單元15之水 盤16之傾動機構3 3, 3 7, 3 6, AM,搌動板54(後文中說明) 之摄動機構38, 59, RM,及冰塊排出装置13。該蓋趙27在 装設有各構件之狀態下,可裝卸自如的装配在儲冰庫14上 。因此,在組裝製冰機時,可在其他生產線上預先將各構 件裝配在蓋體27上,然後只要將蓋體裝配在儲冰庫14前面 即可,故可迅速而高效率的進行組裝作業。將前面板23拆 下後,即可從前面簡易的進行裝設蓋體27上之各機構及裝 置之修護。 如圖2及圖S所示,前面板23上形成有包圍設在蓋體 27前面之傾動機構3 3, 3 7, 3 6, AM,擺動機構3 8, 5 9, RM,及冰塊排出裝置13之鼓出部23B,及設在鼓出部23B下 方之中央部位,Μ —定寬度凹向背側之凹部23c。從鼓出 部23b到達凹部23c之傾斜面23e上形成有開口大於設在儲 冰庫14之冰塊排出口 14a之朝向下方開口之開口 23a。將前 面板23裝設在主機架22上時,開口 23a保持一定間隙包圍 住儲冰庫14之排出口 14a。前面板23係由例如合成樹脂等 製成。 經濟部中央標準局R工消費合作社印製、 容器狀載置台24可装卸自如的装設在面臨開口 23a下 方之凹部23c上,以便在取出冰塊時可在載置台24上載置 杯子等容器。載置台24上面形成有許多開縫24a, Μ便收 集從排出口 14a及開口 23a滴落之水滴,藉此防止污損周圍 環境。鼓出部23b上裝設有電源指示灯L,冰塊排出用第1 開關S W t ,及按紐2 5等,Μ便在按壓按紐2 5使開關S W :接通 本纸張尺度適用中國园家櫺準(CNS)甲4規格(210 X 297公笼) 1 〇 82.1. 2 0,000 218914 A6 B6 經濟部中央標準局ια工消费合作社印製 五、發明説明(13 ) 之期間内,使冰塊排出装置13動作。換言之,在載置台 24上放置有容器之狀態下按壓按紐25後,由冰塊排出装置 13之冰塊搬出用螺旋漿63搬送之冰塊經由排出口 14a及開 口 23a被排出於容器中。 如圖13及圖14所示,在前面板23背面對應於支持架 101之前部豎立部101b之上部横材101e之位置形成有將面 板23背側内部分隔成上下兩部之分隔壁23d。將前面板23 装設在主機架22上時,分隔壁23d之背面端緣部 抵接於上部横板101e前面之全部寬度(圖15),將下部機器 室12與開口 23a分隔。亦可將分隔壁23d設在抵接於隔熱材 料100之位置。 圖5表示製冰單元15之詳细縱斷面圖。水盤16具有圖 1所示形狀,而在形成於其內部之製冰室29內儲存一定水 位之製冰水。製冰室29係由水盤16之矩形狀底面16a,及 豎立在其四周之壁面16b, 16c, 16d, 16e所形成,而在位 於圖1右側之豎立壁1 6 e外側成一體的排列形成有沿着長度 方向之許多軸支持部30。軸支持部30可轉動自如的插装在 設置於將製冰基板18懸吊在儲冰庫14上方之托架32之穿孔 32a中,使水盤16 Μ軸支持部30為中心可朝向較短方向(製 冰機之寬度方向)轉動自如(圖6)。製冰水給水管49可装卸 自如的裝設在製冰基板18之適當位置。將經由供給管74連 结於給水管49之給水閥WV依照後述之時序開啟,以便將一 定量之製冰水供給於製冰室29(圖26)。 位於前面之軸支持部30上設有角孔30a,而突設在後 本纸張尺度逯用中國因家標準(CNS>甲4规格·(210 X 297公;> 82.1. 20,000 (請先閲讀背面之注意事項再塡寫本頁) -裝. 訂. Ί線. 218914 A6 B6J — installed. Ordered. Printed by the Staff Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs 218914 82. 'Year' Ά •? 'Fj repair f supplementary show Α6 Β6 V. Description of the invention (7) * 3§ m Broken side view >圔 1 5 is an outline of the main part of the ice machine's wide panel and the machine room. Figure 16 is a partial cutaway side view of the state of the ice making unit when the water pan tilts. 9 Fig. 17 is the control circuit diagram of the ice machine * Fig. 18 is in the process of turning the ice making lotus »The ice making action of the swing plate when swinging and its corresponding swing mechanism (a) is the swing mechanism Side view schematic diagram; (b) is a cross-sectional view of the water tray; Figure 19 is an illustration of ice making αο early yuan and its corresponding swing mechanism after ice making; U) is a side schematic diagram of the swing mechanism; Λ (b ) Is a cross-sectional view of the water tray f Figure 20 is the ice making The corresponding swing mechanism is shown when the swinging protrusion of the rear swing member, the ice-making αο unit and the moving track of the engagement piece on the swing board are retracted. Figure r (a) is a schematic side view of the swing mechanism > Cross-sectional view of the water tray »圔 21 1 is the ice making αα early yuan at the end of ice making, and its corresponding swing mechanism» Illustration of tilting mechanism »(a) is a schematic diagram of the water gate, swing mechanism, and convex plate I ( b) is a schematic diagram of the back of the convex plate; Figure 22 is an illustration of the ice plate when the water pan stops tilting ασ unit t corresponding to the convex plate of the moving mechanism and the position of the second and fourth opening m; (a) is the schematic diagram of the swing mechanism of the water pan and the convex plate 9 (b) is the rfV · situ of the back of the convex plate; 圔 2 3 is the original ice making ασ m element of the water pan and the corresponding tilting Explanation of the position of the convex plate of the organization and the second and fourth openings _% (1) For the swing mechanism of the water pan f, and the% of the convex plate-«g Figure 9 (μ is a schematic diagram of the back of the convex plate; Figure 24 is the ice making σα when the water pan exceeds the horizontal posture and becomes tilted. Explanation of the convex plate of the tilting mechanism of the Ίί, Χ and the positions of the 2nd and 4th m. The f (a) is a schematic diagram of the water plate, the oscillating machine groove, and the closing of the convex plate, (b) is the back of the convex plate Pictogram> Figure 25 is the process of the swinging motion of the swinging groove member in the m moving mechanism of the swinging plate when picking up and measuring the ice making has ended and leaving the tilting trajectory of the engaging piece of the swinging plate. (Please read the precautions on the back before writing this page) This paper scale is applicable to the national standard (CNS) A 4 specifications (210 X 297 mm) of the country t 82.6. 40,000 218914 A6 B6 Ministry of Economic Affairs Central Standards Bureau R industrial and consumer cooperation Du Yinfa 5. The description of the operation of the invention description (8); Figure 26 is the control timing chart of the ice maker. [Sample Example] The following describes an embodiment of the present invention with reference to the drawings. For the convenience of explanation, "front and rear" and "left and right" in the manual refer to the direction when viewed from the front of the ice maker. Figures 2 and 8 are a cross-sectional view and a perspective view of the overall schematic structure of an ice maker according to an embodiment of the present invention. The interior of the frame 10 constituting the body of the ice maker is basically a lower machine room 12 containing refrigeration equipment such as a compression CM and a condenser 11, which is located above the lower machine room and is covered with a heat insulating material 100 and is provided with ice storage inside The box-shaped ice storage 14 of the chamber δ3, and the ice-making unit 15 provided in the upper part of the ice storage 14 are formed. As shown in FIGS. 1 and 5, the ice-making unit 15 has a water tray 16 for storing ice-making water at a certain water level, and an ice-making substrate 13 provided with ice-making protrusions 17 immersed in the ice-making water. When the water tray 16 is changed to the deicing operation, the ice making water in the water tray 16 is tilted at a certain angle to be discharged to the outside through the drain receiving portion 19 and the drain pipe 20, and the ice cubes 21 are discharged to the ice storage compartment 83. The ice storage 14 is provided with an ice rose discharge device 13, and the ice block 21 stored in the ice storage chamber 83 is discharged to the outside by the discharge device 13. As shown in FIGS. 8 to 13, the frame 10 includes a support frame 101 equipped with the above-mentioned freezing machine, a main frame 22 surrounding the freezing machine installed on the support frame 101 and the ice storage 14, and the main frame 22 Before the front panel 23, the entire hip has an elongated shape with extremely short lateral width. As shown in FIG. 9, the support frame 101 is composed of a rectangular bottom surface 101a, and an upright portion 101b with a fixed height provided at the rear end edge before the bottom surface 101a. This paper scale is applicable to China National Standard (CNS) A4 specifications (210 X 297 public goods) η 82.1. 20,000 (please read "Notes on the back and then fill in this page") Α6 Printed by the Ministry of Economy Central Bureau of Industry and Consumer Cooperation Thorium Printing _Β6_ V. Description of Invention (9) Composition of 101c . A number of screw holes 103 are formed in the necessary portions of the front standing portion 101b, and a number of batt holes 104 are formed in the necessary portions of the rear standing portion 101c. The screw holes 103, 104 are used to position the support frame 101 on the main frame 22. The corners 102 of the bottom surface 101a of the support frame 101 are protrudingly provided with feet 102, and the four ice legs 102 are used to mount the ice-making cones on the mounting surface. An air suction port (not shown) is provided on the bottom surface 101a of the support frame 101, and an outlet port is provided on the rear standing portion 101c. When the cooling fan (not shown) provided in the lower machine room 12 rotates, the air sucked from the suction port contacts the condenser 11 in the douche chamber 12 and is cooled by heat exchange, and the temperature-raised air passes through the outlet Was discharged to the outside. The shutter member 26 coated on the suction port is detachably installed under the bottom surface 101a, so that the dust-removed air is sucked into the hosiery chamber 12 through the suction port. This prevents dust from adhering to the condenser 11 and clogging it, which reduces the cooling efficiency of the condenser 11. The shutter member 26 can be easily assembled and removed from the front of the housing 10. As shown in FIG. 13, an opening lOld of a certain size is provided in the front standing portion 101b of the support frame 101. When the front panel 23 is detached from the main sock rack 22, the opening 101 is opened so that the freezing machine housed in the machine room 12 can be repaired from the front. The heat insulating material 100 covering the ice storage 14 is placed on the upper end of the upper cross member 101e on the upper portion of the front standing portion 101b, within its entire width direction. When the front panel 23 is removed, the machine room 12 is opened to the front only through the opening 101d. The ice storage 14 is formed in a box shape that is open above and in front. A number of assembly parts 14b are integrally formed in the upper opening portion, and are installed in the assembly part ---- j ------------ -. 玎 ----- (i (Please read the precautions on the back before filling in this page) This paper size is suitable for China National Oak Standard (CNS) Grade 4 (210 X 297 mm) 9 82.1. 20,000 218914 A6 B6 Printed by the WC Industrial and Consumer Cooperative of the Central Standards Bureau of the Ministry of Economy and Economics. 5. Description of the invention (10) 14b, 14b brackets 3 2, 3 2 horizontally install the ice-making substrate 18 and the water tray 16 (Figure 6). As shown in FIG. 7 and FIG. 9, the left and right edges of the front opening 79 of the ice storage 14 are integrally formed with flanges 14c, 14c extending outward, and a plurality of upward and downward directions are formed on the flanges 14c, 14c Threaded holes 105, 105. These threaded holes 105 are used when the ice storage 14 is fixed on the main frame 22, or when the cover 27 is assembled on the ice storage 14. The ice storage 14 is provided with an assembly on the back Plate 106, and threaded holes 107, 107 are provided at necessary positions on the mounting plate 106. These threaded holes 107, 107 are used when fixing the ice storage 14 to the main frame 22. As shown in FIG. 10, Near the front end of the ice storage 14 A discharge port 14a having a certain size is formed on the bottom surface, and the ice cubes 21 transported by the ice discharge device 13 are discharged to the outside through the discharge port 14a. The discharge port 14a is at the upper end of the support portion 101b Above a certain height and facing the front, the position is opened below. The left and right flanges 14c, 14c of the ice storage 14 are provided with protrusions 84, 84, and these protrusions 84, 84 are used to position the cover 27. As shown As shown in FIG. 9, the main frame 22 includes a rectangular top plate 22a, and side plates 22b, 22b hung vertically at the left and right edges of the top plate 22a. A protrusion extending to the inside is provided below the front end edges of the side plates 22b, 22b Flanges 22c, 22c, and the flanges 22c, 22c are formed with threaded holes 108 corresponding to the threaded holes 103 provided at the front standing portion 101b of the support frame 101. A certain distance is left from the formation positions of the flanges 22c, 22c The upper front edge is protruded with mounting pieces 22d, 22d extending to the inside, and each mounting piece 22d is formed with a thread corresponding to a specific threaded hole 105 provided on the flange 14c of the ice storage 14 (please first Read the precautions on the back and fill out this page) 丨 Pack. Order. Thread. This paper scale is applicable to the Chinese National Standard (CNS) A4 specification (210 X 297 mm) i 〇 82.1. 20,000 218914 A6 B6 Printed by the S Industry and Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of Invention (1 1) Hole 109. The flanges 22e, 22e extending to the inside are provided on the rear edge of the side plates 22b, 22b, and the flanges 22e, 22e are formed with threaded holes 104 corresponding to the upright portions 101c provided at the rear of the support frame 101, and The screw holes 110 and 111 corresponding to the screw holes 107 provided in the mounting plate 106 of the ice storage 14. As shown in FIGS. 11 and 12, the main frame 22 and the support frame 101 are positioned by bolts 112, 113 in a state where the corresponding threaded holes 1 0 8, 1 0 3 and the threaded holes 110, 104 are aligned with each other. And fixed. In this state, the top plate 22a of the main frame 22 and the bottom surface 101a of the support frame 101 are in a parallel state. The main frame 22 and the ice storage 14 are fixed by fixing the bolts 114 and 115 to each other with the corresponding screw holes 109, 105 and the screw holes 111, 107 aligned. In this state, the top plate 22a of the main frame 22 and the upper opening surface of the ice storage 14 become parallel (Fig. 10). The bottom of the ice storage 14 (the thermal insulation member 100 and the mounting plate 10S) provided in the main frame 22 contacts or slightly leaves the freezing machine or the front and rear uprights 10lb, 101c (Figure 2) provided on the support frame 101, to Prevent the installation position of the ice storage 14 from being affected by the installation state of the freezing machine, the height dimension of the upright portion 10lb, 101c, and the uneven shape of the bottom of the ice storage. As shown in FIG. 3, on the left and right edges 85, 85 of the lid 27 provided at the front opening 79 of the ice storage 14, corresponding to the position of the protrusion 84 of the specific screw hole 105 of the ice storage 14, there are formed through holes 85a and notches 85b, M will insert the protrusion 84 into the through hole 85a to position the ice storage 14 and the cover 27 (FIG. 6). A fixing device (not shown) such as a bolt is screwed into the bolt hole 105 through the remaining perforations 85a and notches 85b to fix the cover 27 to the front of the ice storage 14. The shape of the through hole 85a for inserting the protrusion 84 is a long hole extending in the left-right direction, so that fine adjustment in the left-right direction can be performed. The size of this paper is in accordance with the specifications of China National Standard A (CNS) A4 (210 X 297 g; ¢),, 82.1. 20,000 (please read the precautions on the back before filling this page) A6 B6 218914 V. Description of invention ( 12) (Please read the precautions on the back before filling in this page) As shown in Fig. 3, the tilting mechanism 3 3, 3 7, 3 6, AM with the water tray 16 of the ice making unit 15 installed in front of the cover 27 , The perturbation mechanism 38, 59, RM, and the ice cube discharge device 13 of the stirring plate 54 (described later). The cover Zhao 27 can be detachably mounted on the ice storage 14 in a state where various components are installed. Therefore, when assembling the ice maker, the components can be pre-assembled on the lid 27 on other production lines, and then only the lid can be assembled in front of the ice storage 14, so the assembly operation can be performed quickly and efficiently . After the front panel 23 is removed, the various mechanisms and devices installed on the cover 27 can be easily repaired from the front. As shown in FIGS. 2 and S, a tilting mechanism 3 3, 3 7, 3 6, AM, a swing mechanism 3 8, 5 9, RM, and ice cubes are formed on the front panel 23 to surround the front of the cover 27 The bulging portion 23B of the device 13 and the central portion provided below the bulging portion 23B, a concave portion 23c with a fixed width concave toward the back side. The inclined surface 23e from the bulging portion 23b to the recessed portion 23c is formed with an opening 23a having an opening larger than the downward opening of the ice block discharge port 14a provided in the ice storage 14. When the front panel 23 is installed on the main frame 22, the opening 23a maintains a certain gap to surround the discharge port 14a of the ice storage 14. The front panel 23 is made of, for example, synthetic resin. Printed by the R & C Cooperative Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs, the container-shaped mounting table 24 is detachably mounted on the recess 23c facing the opening 23a, so that when the ice cubes are taken out, containers such as cups can be placed on the mounting table 24. A large number of slits 24a are formed on the mounting table 24, so that water droplets dripping from the discharge port 14a and the opening 23a are collected, thereby preventing contamination of the surrounding environment. The bulging part 23b is provided with a power indicator L, a first switch SW t for discharging ice cubes, and a button 25, etc., and pressing the button 25 causes the switch SW to turn on: This paper size is suitable for China Yuan Jia Biao Zhun (CNS) A 4 specifications (210 X 297 male cages) 1 〇82.1. 2 0,000 218914 A6 B6 Printed by the Central Standards Bureau of the Ministry of Economic Affairs, Industrial and Consumer Cooperatives V. Invention Instructions (13) The block discharge device 13 operates. In other words, when the button 25 is pressed while the container is placed on the placing table 24, the ice cubes transported by the ice cube transfer screw 63 for the ice cube discharge device 13 are discharged into the container through the discharge port 14a and the opening 23a. As shown in FIGS. 13 and 14, a partition wall 23d for partitioning the inside of the back side of the panel 23 into upper and lower parts is formed on the back of the front panel 23 at a position corresponding to the upper cross member 101e on the upper portion of the front standing portion 101b of the support frame 101. When the front panel 23 is mounted on the main frame 22, the rear edge of the partition wall 23d abuts the entire width of the front of the upper cross plate 101e (Fig. 15), separating the lower machine room 12 from the opening 23a. The partition wall 23d may be provided at a position abutting the heat insulating material 100. FIG. 5 shows a detailed longitudinal sectional view of the ice-making unit 15. The water tray 16 has the shape shown in FIG. 1, and ice-making water of a certain water level is stored in the ice-making chamber 29 formed therein. The ice making chamber 29 is formed by the rectangular bottom surface 16a of the water tray 16 and the wall surfaces 16b, 16c, 16d, 16e erected around it, and is formed integrally on the outside of the vertical wall 16 e located on the right side of FIG. 1 A plurality of shaft support portions 30 along the length direction. The shaft support portion 30 is rotatably inserted into the perforation 32a provided in the bracket 32 that suspends the ice-making substrate 18 above the ice storage 14, so that the water tray 16 can be oriented toward the shorter direction with the shaft support portion 30 as the center (The width direction of the ice machine) freely rotate (Figure 6). The ice-making water supply pipe 49 is detachably installed at an appropriate position on the ice-making substrate 18. The water supply valve WV connected to the water supply pipe 49 via the supply pipe 74 is opened at a timing described later, so that a certain amount of ice-making water is supplied to the ice-making chamber 29 (Fig. 26). A corner hole 30a is provided on the shaft support portion 30 located at the front, and is protrudingly provided at the back of the paper. The standard is the Chinese In-House Standard (CNS > A 4 specifications · (210 X 297); > 82.1. 20,000 (please first Read the precautions on the back and then write this page)-Pack. Order. Ί line. 218914 A6 B6
經濟部中央標準局員工消費合作杜印K 五、發明説明(1 4) 述之旋轉支軸33軸端之角軸33a插入該角孔30a中。旋轉支 軸33可轉動自如的被樞支在蓋體27上,而隨着設在蓋 體27之致動馬達AM之旋轉,水盤16M軸支持部30為中心, 如圖21至圖24所示,朝向斜下方傾斜移動及朝向斜上方復 原。如此水盤16朝向製冰機之寬度方向傾斜移動,藉此可 將製冰機之横寬尺寸形成為較短。 在對應於設在儲冰庫14之蓋體27上之水盤16之軸支持 部30之位置設有突出於前面之圓茼狀軸承34,而旋轉支軸 33可轉動自如的插装於設在軸承34之穿孔34a中,並且將 突設於其轴端之角袖33a插入軸支持部30之角孔3〇3中。在 旋轉支軸33前面側之端部一體的形成有延伸至半徑方向之 桿片33b,並且在桿片33b前面側突設有结合突起33c。如 圖1及圖4所示,在延伸至經由托架35裝設在蓋體27之致動 馬達AM之托架35前面之轉軸上,装設有周方向之一部分設 有缺口而由具有一定直徑之圓板所搆成,並且成一體的旋 轉之凸板36。連桿37之一端成為偏心的被樞支於該凸板 36前面,而形成於旋轉支軸33之桿片33fc>之结合突起33c可 滑動自如的裝插在設置於連桿37之另一端之長孔37a中。 因此,當致動馬達AM旋轉時,經由凸板36及連桿37使旋轉 支軸33以一定角度注復轉動,使水盤16傾斜移動。 .在结合突起33c前端部設有對突起33c成為朝向半徑方 向延伸,可插入連桿37之長孔37a中之橢圓形限制部33d, 如此當结合突起33c插入長孔37a中時,可防止連桿37脫離 结合突起33c。另外,使桿H33b可從連桿37移動相當於長 本纸張又度適用中國园家桴準(CNS)甲4規格(210 X 297公釐〉 1 4 82.1. 20,000 (請先閲讀背面之注意事項再填寫本頁) 垤濟部中央標準局員工消費合作社印製 218914 A6 _B6_ 五、發明説明(1 5) 孔37a長度之距離,藉此容許當水盤16停止傾斜時,桿片 33b與連桿37間之位置誤差。另外在桿片33b背面突設有使 將用來装設攝動用馬達RM之裝配工模38朝向特定方向彈壓 之扭轉彈簧39(皆在後文中說明)之一端卡合之卡合片33e 0 如圖5及圖16所示,水盤16上形成有當水盤16傾動時 將製冰室29中之製冰水排出於外部之排水部。亦即在位於 水盤16後側之豎立壁16c之傾動下端附近形成朝向後側凹 下之補助室46,而在補助室46外側(後側)連通一定長度之 排水管47。在排水管47下方儲冰庫14之後面,形成有承受 排水並將之排出於外部之排水承受部19。補助室46與製冰 室29係由較豎立壁16c更低之擋水板48分隔而成。因此被 供給於水盤16之製冰水從擋水板48上端面溢流,經由排水 管47被排出於排水承受部19。亦即利用擋水板48將儲存於 製冰室29之製冰水保持於一定水位。如圖16所示,切換成 除冰作業後,水盤16朝向斜下方傾動,將製冰水經由排水 管47排出。當水盤16停止傾動時,一部份製冰水被擋水板 48保留(圖22),該殘留水與從製冰水給水管49補充Μ便進 行另一次製冰作業之水混合,整體上可促進製冰水之溫度 下降。 •當水盤16朝向斜下方傾動時,排水管47抵接於排水承 受部19靠近儲冰庫側之端緣,而且又可產生將水盤16在傾 動狀態下予Μ保持之止動器之功能。此時因為旋轉支軸 33之结合突起33c可在傾動機構之連桿37之長孔37a内移動 本纸張尺及適用中國國家標準(CNS)甲4规格(210 X 297公釐) ,R 82.1. 20,000 (請先閲讀背面之注意事項再填寫本頁) .裝. 訂. ..:1.4. 218914 A6 B6_ 五、發明説明(1 6 ) ,故即使水盤16之停止傾動位置與致動馬達AM之停止旋轉 位置之間有偏差,亦可防止負載腌加在傾動機構上。 如上所述,在儲冰庫14内部上方,經由許多托架32水 平的設置有製冰基板18,而從被收容在櫬器室12中之冷凍 系统導出之蒸發管31成為蛇行狀的設在製冰基板18上面。 在製冰基板18下面相距一定間隔突設有朝向下方垂下之許 多製冰突起17。在進行製冰作業時,該製冰突起17浸漬於 儲存在水盤16中之製冰水內。由於冷凍糸統之運轉,製冰 水在蒸發管31內與冷媒進行熱交換,將製冰突起17冷却至 Ot以下,因而如圖20所示的在製冰突起17周圍形成冰塊 21。製冰基板18上設有許多穿孔18a, Μ便提高熱交換效 率,並且減輕重量(圖1)。 經濟部中央標準局員工消費合作社印製 (請先閲讀背面之注意事項再場寫本頁) 如圖3所示,在設置於致動馬達AM之凸板36上,形成 有指向托架35之背面,偏向半徑方向之第1凸板部50及第 2凸板部51。在托架35上,對應於第1凸板部50及第2凸板 部51之位置設有第1開關SW2與第4開關SW4,隨着致動馬達 AM之旋轉Μ —定時序進行凸板動作,>乂便分別控制①由該 馬達AM進行之水盤16之停止傾動及停止復原,及熱氣體閥 HV之開啟;及②用來補充製冰水之給水閥WV之開啟及閉合 。亦即第1凸板部50及第2凸板部51係由突出於軸方向之具 有一定半徑之弧狀突起所構成。從第2開闞SW2延伸之桿片 52抵接於第1凸板部50,而且Μ —定時序離開第1凸板部 50。當第2開關SW2之桿片52抵接於凸板部50後,開關SW2 接通。~如圖17之控制電路所示,第2開關SW2連接於繼電器 本紙張尺度通用中國国家標準(CNS)甲4規格(210 X 297公;^ ) 1 β 82.1. 20,000 218914 A6 _B6_ 五、發明説明(17) (請先閲讀背面之注意事項再填寫本頁) X2及致動馬達AM,而如後述的以致動馬達AM控制水盤16之 停止傾動及停止復原動作,並且控制熱氣體HV之開啟(後 文中說明)。圖26為第1凸板部50與第2開翮SW2之凸板動作 時序之時間圖表。 從第4開關SW4延伸之桿片53抵接於第2凸板部51,並 且Μ —定之時序離開。當第4開關SW 4之桿片53抵接於凸板 51後,該開關SW4接通。如圖17所示,該第4開關SW4連接 於給水閥WV,並且控制給水閥WV之開啟(後文中說明)。圖 26表示第2凸板部51與第4開闞SW4之凸板動作之時序圖表 0 分別設有垂直豎立部54b, 54c, 54d之攝動板54可搌 動自如的設在水盤16之製冰室29內,除3對向於矩形狀底 板54a上成為水盤16之傾動下端側(左側)之豎立壁16d之一 側以外之3個邊上,由攝動用馬達RM驅動而上下擺動。在 擺動板54之底板54a及右側之豎立部54b表面,相距一定間 隔設有圓形或四角形之許多穿孔55。攝動板54之周圍尺寸 稍小於製冰室2 9底面1 6 a之内部尺寸,而形成於豎立部 54b上部長度方向兩側之突部5 6, 5 6經由銷57, 57可轉動 經濟部中央標準局KC工消費合作社印製 自如的被樞支在水盤16上。擺動板54在被樞支於水盤16上 之狀態下,如圖5所示的載置於製冰室29底面與其密接。 穿孔55之位置係設定在該等鄰接之製冰突起17, 17之間。 如圖4所示,在位於摄動板54前側之豎立部54c上一體 的形成有倒L字形卡合片53,其上部水平部58a越過製冰室 29之豎^立壁16b延伸至外方。在蓋體27上,對應於上部水 本纸張尺度適用中國园家標準(CNS)甲4規格(210 X 297公釐) 1 7 82.1. 20,000 218914 A6 B6 經濟部中央標準局员工消費合作社印製 五、發明説明(18) 平部53a之位置形成有延伸至上下方向之長孔27a。由搌動 用馬達RM驅動而旋轉之摄動構件59可摄動自如的插裝在該 長孔27a内。在攝動構件59上,面臨蓋體背側之位置,成 偏心狀的突設有攝動突起59a,該突起59a可從下方卡合於 或脫離擺動板54之上部水平部58a。因此,當擺動構件59 朝向反時針方向旋轉時,摄動突起59a以如圖18所示卡合 於上部水平部58a之狀態旋轉,使擺動板54從製冰室29底 面上昇一定距離;當攝動突起59a脫離上部水平部58a後, 擺動板54由於其本身重量掉落至製冰室29之底面。亦即在 製冰作業當中使摄動甩馬達RM旋轉,即可使攞動板54 K銷 57, 57為中心在製冰室29内反復進行上下攝動,藉此可使 製冰水經常移動。因為攝動板54上設有穿孔55,故製冰水 經由穿孔55上下的流通,可進行更活潑之運動。 在後文中所述之除冰作業時,攝動板54随着水盤16之 傾動而成一體的傾動。擺動板54右側之豎立部54b上形成 有從製冰基板18延伸至上方之豎立片60。當攝動板54與水 盤16 —起傾動之途中,將豎立H60卡合於製冰基板18,即 可使攝動板54脫離水盤16而保持一定之傾動姿勢(圖22)。 如圖3及圖4所示,平板狀装配工模38之一端可轉動自 如的被支持於突設在蓋體27之軸承34,而在該裝配工模 38之離開樞支部之端部附近前面設置攝動用馬達RM。該馬 達RM連结於從穿孔27a突出於前面側之攝動構件59之凸板 部59b。在装配工模33之位於樞支部與擺動用馬達RM間之 前面側形成有突片38a,而装設該軸承34上之扭轉彈簧39 本纸張只J1通用中國國家標举(CNS)甲4規格(210 X 297公:¢) 1 〇 82.1. 20,000 (請先閲讀背面之注意事项再塡寫本頁) 218914 A6 B6Du Yin K, Employee Consumption Cooperation of the Central Bureau of Standards of the Ministry of Economic Affairs V. Description of the Invention (1 4) The angle shaft 33a at the shaft end of the rotating support shaft 33 is inserted into the angle hole 30a. The rotating support shaft 33 is pivotably supported on the cover body 27, and with the rotation of the actuating motor AM provided on the cover body 27, the water tray 16M axis support portion 30 is the center, as shown in FIGS. 21 to 24 , Move obliquely downward and restore upward. In this way, the water tray 16 moves obliquely in the width direction of the ice maker, whereby the lateral width of the ice maker can be made shorter. At a position corresponding to the shaft support portion 30 of the water tray 16 provided on the cover 27 of the ice storage 14, a round bearing 34 protruding from the front is provided, and the rotating support shaft 33 is rotatably inserted into the The hole 34a of the bearing 34 is inserted into the corner hole 33a of the shaft support portion 30, and the corner sleeve 33a protruding from the shaft end thereof is inserted. A rod piece 33b extending in the radial direction is integrally formed at an end portion on the front side of the rotation support shaft 33, and a coupling protrusion 33c is protruded on the front side of the rod piece 33b. As shown in FIGS. 1 and 4, on the rotating shaft that extends to the front of the bracket 35 of the actuating motor AM mounted on the cover 27 via the bracket 35, a part of the circumferential direction is provided with a notch, which is The diameter of the circular plate, and the integral rotating convex plate 36. One end of the connecting rod 37 becomes eccentric and is pivotally supported on the front of the convex plate 36, and the coupling protrusion 33c formed on the lever piece 33fc of the rotation supporting shaft 33 can be slidably inserted on the other end of the connecting rod 37 The long hole 37a. Therefore, when the actuation motor AM rotates, the rotation support shaft 33 is rotated at a certain angle via the convex plate 36 and the link 37, and the water tray 16 is tilted. . At the front end of the coupling protrusion 33c is provided with an elliptical restricting portion 33d that extends toward the radial direction of the protrusion 33c and can be inserted into the long hole 37a of the connecting rod 37, so that when the coupling protrusion 33c is inserted into the long hole 37a, the coupling can be prevented The lever 37 is disengaged from the coupling protrusion 33c. In addition, the lever H33b can be moved from the connecting rod 37, which is equivalent to a long paper. It is also suitable for China Yuanjiazheng (CNS) A 4 specifications (210 X 297 mm> 1 4 82.1. 20,000 (please read the note on the back first Please fill in this page for details) 218914 A6 _B6_ printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Description of the invention (1 5) The distance of the length of the hole 37a, thereby allowing the rod piece 33b and the connecting rod when the water pan 16 stops tilting Position error between 37. In addition, one end of a torsion spring 39 (both described later) that urges the assembly mold 38 for mounting the perturbation motor RM in a specific direction is projected on the back of the lever 33b As shown in FIGS. 5 and 16, the water tray 16 is formed with a drainage portion that discharges the ice-making water in the ice making chamber 29 to the outside when the water tray 16 is tilted. That is, on the rear side of the water tray 16 Auxiliary chamber 46 recessed toward the rear side is formed near the tilted lower end of the upright wall 16c, and a drain pipe 47 of a certain length is connected to the outside (rear side) of the auxiliary chamber 46. Below the drain pipe 47, behind the ice storage 14 is formed Drainage receiving part 19 that receives drainage and discharges it to the outside. The auxiliary chamber 46 and the ice making chamber 29 are partitioned by a water blocking plate 48 which is lower than the vertical wall 16c. Therefore, the ice making water supplied to the water tray 16 overflows from the upper end surface of the water blocking plate 48, and is discharged through the drain pipe 47 It is discharged into the drainage receiving part 19. That is, the ice making water stored in the ice making chamber 29 is kept at a certain level by the water baffle 48. As shown in FIG. 16, after switching to the deicing operation, the water tray 16 tilts downward obliquely. The ice-making water is discharged through the drain pipe 47. When the water tray 16 stops tilting, a part of the ice-making water is retained by the water baffle plate 48 (FIG. 22). The mixing of water in one ice-making operation can promote the temperature drop of the ice-making water as a whole. • When the water pan 16 tilts downward, the drain pipe 47 abuts the edge of the drain bearing portion 19 near the ice storage side, and It can produce a stopper function to hold the water tray 16 in the tilted state. At this time, because the coupling protrusion 33c of the rotating shaft 33 can move the paper ruler in the long hole 37a of the connecting rod 37 of the tilting mechanism and applicable China National Standard (CNS) Grade A 4 (210 X 297 mm), R 82.1. 20,000 ( Read the precautions on the back first and then fill out this page). Binding. Order ..: 1.4. 218914 A6 B6_ Fifth, the invention description (16), so even if the water pan 16 stops tilting position and the actuating motor AM stops rotating position There is a deviation between them, which can also prevent the load from being added to the tilting mechanism. As described above, above the interior of the ice storage 14, an ice-making substrate 18 is horizontally provided via a plurality of brackets 32, and is stored in the decanter chamber The evaporating tube 31 led out of the freezing system in 12 is arranged in a meandering shape on the ice-making substrate 18. A plurality of ice-making protrusions 17 which hang downward are protruded at a certain interval below the ice-making substrate 18. During the ice making operation, the ice making protrusion 17 is immersed in the ice making water stored in the water tray 16. Due to the operation of the freezing system, the ice-making water exchanges heat with the refrigerant in the evaporating tube 31 to cool the ice-making protrusions 17 to below Ot, so that ice cubes 21 are formed around the ice-making protrusions 17 as shown in FIG. The ice-making substrate 18 is provided with many perforations 18a to increase the heat exchange efficiency and reduce the weight (Figure 1). Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs (please read the precautions on the back before writing this page). As shown in FIG. The back surface is biased toward the first convex plate portion 50 and the second convex plate portion 51 in the radial direction. The bracket 35 is provided with a first switch SW2 and a fourth switch SW4 corresponding to the positions of the first convex plate portion 50 and the second convex plate portion 51, and the convex plate is performed at a fixed timing as the actuation motor AM rotates Action, > respectively control ① stop tilting and stop recovery of the water tray 16 by the motor AM, and opening of the hot gas valve HV; and ② opening and closing of the water supply valve WV for supplementing ice making water. That is, the first convex plate portion 50 and the second convex plate portion 51 are composed of arc-shaped protrusions with a certain radius that protrude in the axial direction. The lever piece 52 extending from the second opening SW2 abuts on the first convex plate portion 50, and M leaves the first convex plate portion 50 at a fixed timing. When the lever piece 52 of the second switch SW2 abuts on the convex plate portion 50, the switch SW2 is turned on. ~ As shown in the control circuit of FIG. 17, the second switch SW2 is connected to the relay. The paper standard is the Chinese National Standard (CNS) A 4 specifications (210 X 297; ^) 1 β 82.1. 20,000 218914 A6 _B6_ V. Description of the invention (17) (Please read the precautions on the back before filling in this page) X2 and the actuating motor AM, and as described later, the actuating motor AM controls the stop tilting and the restoring action of the water tray 16 and the opening of the hot gas HV ( Explained later). Fig. 26 is a time chart of the operation timing of the convex plates of the first convex plate portion 50 and the second opening SW2. The lever piece 53 extending from the fourth switch SW4 abuts on the second convex plate portion 51, and leaves at a predetermined timing. When the lever piece 53 of the fourth switch SW 4 abuts on the convex plate 51, the switch SW4 is turned on. As shown in Fig. 17, the fourth switch SW4 is connected to the water supply valve WV, and controls the opening of the water supply valve WV (described later). FIG. 26 shows a timing chart of the operation of the convex plates of the second convex plate portion 51 and the fourth opening SW4. The perturbation plate 54 provided with vertical upright portions 54b, 54c, and 54d can be movably provided on the water pan 16 In the ice compartment 29, three sides except the three opposite sides of the upright wall 16d of the tilting lower end side (left side) of the water tray 16 on the rectangular bottom plate 54a are driven by the perturbation motor RM to swing up and down. On the surface of the bottom plate 54a of the swing plate 54 and the surface of the upright portion 54b on the right side, a number of circular or quadrangular perforations 55 are provided at regular intervals. The surrounding size of the perturbation plate 54 is slightly smaller than the internal size of the bottom surface 16 a of the ice making chamber 29, and the protrusions 5 6, 5 6 formed on both sides of the upper part of the upper portion of the upright portion 54b in the longitudinal direction can be rotated by pins 57, 57 The KC Industrial and Consumer Cooperative of the Central Standards Bureau of the Ministry of Printing is flexibly supported on the water tray 16. The swing plate 54 is placed on the bottom surface of the ice-making chamber 29 as shown in FIG. 5 in a state of being pivotally supported on the water tray 16, and is in close contact with it. The position of the perforation 55 is set between the adjacent ice-making protrusions 17, 17. As shown in FIG. 4, an inverted L-shaped engaging piece 53 is integrally formed on an upright portion 54c located on the front side of the perturbation plate 54, and an upper horizontal portion 58a extends over the vertical wall 16b of the ice making chamber 29 to the outside. On the cover 27, corresponding to the upper water-based paper scale, the Chinese Yuanjia Standard (CNS) A4 specification (210 X 297 mm) is applied 1 7 82.1. 20,000 218914 A6 B6 Printed by the Employee Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. DESCRIPTION OF THE INVENTION (18) A long hole 27a extending in the vertical direction is formed at the position of the flat portion 53a. The perturbation member 59, which is driven and driven by the motor RM for rotation, is inserted into the elongated hole 27a movably. On the perturbation member 59, facing the back side of the cover body, an eccentric protrusion is provided with a perturbation protrusion 59a that can be engaged with or disengaged from the upper horizontal portion 58a of the swing plate 54 from below. Therefore, when the swing member 59 rotates in the counterclockwise direction, the perturbation protrusion 59a rotates in a state of being engaged with the upper horizontal portion 58a as shown in FIG. 18, so that the swing plate 54 rises a certain distance from the bottom surface of the ice-making chamber 29; After the movable protrusion 59a is separated from the upper horizontal portion 58a, the swing plate 54 falls to the bottom surface of the ice making chamber 29 due to its own weight. That is, during the ice making operation, the perturbation motor RM is rotated, so that the swash plate 54 K pins 57, 57 can be repeatedly moved up and down in the ice making room 29, thereby making the ice making water move frequently . Since the perforation plate 54 is provided with a perforation 55, the ice-making water can circulate up and down through the perforation 55 for a more active movement. In the deicing operation described later, the perturbation plate 54 tilts as the water pan 16 tilts. On the upright portion 54b on the right side of the swing plate 54, upright pieces 60 extending from the ice-making substrate 18 to the upper side are formed. When the perturbation plate 54 and the water pan 16 are tilted together, the upright H60 is engaged with the ice-making base plate 18, that is, the perturbation plate 54 can be separated from the water pan 16 to maintain a certain tilting posture (Figure 22). As shown in FIGS. 3 and 4, one end of the flat-shaped assembly die 38 is rotatably supported by a bearing 34 protruding from the cover 27, and in front of the end of the assembly die 38 away from the pivot portion Install the perturbation motor RM. The motor RM is connected to the convex plate portion 59b of the perturbation member 59 protruding from the perforation 27a to the front side. A projection 38a is formed on the front side of the assembly die 33 between the pivot portion and the swinging motor RM, and the torsion spring 39 on the bearing 34 is installed. This paper is only J1 General China National Standards (CNS) A4 Specifications (210 X 297 male: ¢) 1 〇82.1. 20,000 (Please read the precautions on the back before writing this page) 218914 A6 B6
經濟部中央標準局8工消費合作社印S 五、發明説明(1 9) 之一端部39a卡合於該突片38a下端。設在桿片33b之卡合 片33 e靠近該突片38a,而扭轉彈簧39之另一端部39b卡合 於該卡合片33e上端。當水盤16保持水平狀態時,如圖13 所示,卡合片33e之上端較裝配工模38之突片38a上端更延 伸至上方。因此,此時装配工模38受到扭轉彈簧39之彈力 作用,Μ軸承34為支點經常被彈壓於朝反時針方向轉動之 狀態。當一定外力施加於擺動用馬達RM時,其裝配工模 38Μ軸承34為支點轉動一定角度。 在製冰作業當中,當水盤16保持水平狀態時,扭轉彈 簧39將攝動構件59之攝動突起59a保持於可卡合於攝動板 54之卡合片58之動作位置。從製冰作業變換成除冰作業向 水盤16傾動時,桿片33b之卡合片33e上端移動至較裝配工 模38之突片38a上端更下方之位置,而此時彈簧39之端部 39b卡合於突片38a之上端(圖25)。因此,當水盤16傾動時 ,必須使扭轉彈簧39不施加彈壓力於装配工模38。 在裝配工模38之離開樞支部之端部形成有延伸至上下 方向之長孔33b,而成為對應位置關係的突設在蓋體27上 之限制銷61可滑動自如的裝插於該長孔38b中。限制銷61 可限制裝配工模38之轉動範圍,而在扭轉彈簧39之彈壓下 ,使長孔38b之下端抵接於限制銷61而使攝動構件59位於 動作位置(圖18)。 由微開關等製成之製冰终了檢測用第5開關SWs經由托 架70裝設在蓋體27前面,使桿片62位於摄動構件59之凸板 部59b之下降軌跡上,使其随着装配工模38(擺動用馬達RM 本纸張又度通用中國a家標準(CNS)甲4規恪(210 X 297公货〉 ,〇 82.1. 20,000 (請先閲讀背面之注意ί項再填寫本頁) 經濟部中央標準局貝工消費合作社印製 218914 A6 _B6 五、發明説明(2 0) )之轉動而抵接於凸板部59B,以便變換該開闞。亦即如圖 19所示,開始進行製冰作業而在製冰突起17周圍形成冰塊 21後,搌動板54在往上移動時接觸該冰塊21,將朝向下方 之反作用力經由卡合片58及摄動突起59a供給於搌動用馬 達RM。因此,裝設攝動用馬達RM之装配工模38以轴承34為 支點朝向反時針方向轉動,在其轉動過程中,凸板部59B 推壓第5開關SW5之桿片62,藉此將開關SW5之接點從「a」 側變換至「b」側,Μ便檢測製冰單元15是否已完成製冰 。托架70被裝設在蓋體27上可調節其上下方向之位置。調 節該托架70之上下位置,即可調節第5開關SW5之桿片62之 位置。如此,可改變形成於製冰突起17之冰塊21之尺寸。 若在第5開關SW5變換成接點「b」側之同時停止摄動 用馬達RM之旋轉,則抵接於摄動板54之卡合片58之攝動突 起59a會妨碍攝動板54之傾動。因此,本實施例中,在摄 動構件59之凸板部59形成缺口部59c, Μ便在擺動用馬達 RM轉動之狀態下可將第5開關Stfs之接點變換至「a」側,利 用該缺口 59c控制攝動突起59a使其離開卡合片58之傾動軌 跡。該缺口 59c係形成在凸板部59b上,成為當攞動突起 59a到達雛開卡合片58之上部水平部58a之位置時,到達對 應於第5開關S W 5之桿片6 2之位置之位置關係。亦即①由於 攝動用馬達RM之轉動而使製冰终了檢測開關SWs切換至接 點「bj側後,繼續使馬達RM旋轉,②當缺口 59c到達對應 於開關SWs之桿片62之位置而將開關SW5之接點變換至「a 」側後,使擺動用馬達RM停止轉動。如此,可使擺動突起 衣紙張尺度通用中國园家標準(CNS)甲4現格(210 X 297公坌) 9 Λ 82.1. 20,000 (請先閲讀背面之注意事項再填寫本頁) 218914 A6 B6 經濟部中央標準局3工消费合作社印製 五、發明説明(2 Ο 59a脫離攝動板54之卡合片58之傾動軌跡,故不會妨碍攝 動板54之傾動。 如圖5所示,在製冰單元15之製冰基板18上面裝設有 用來檢測除冰终了之感熱開關Thi。該感熱開闞Thi在製冰 作業當中製冰基板13之溫度降低至一定值時變換至接點「 b」,並且檢測除冰作業當中冰塊21從製冰突起17掉落時 發生之溫度之突然上昇,將接點從「b」變換至「3」。此 時,如後文中所述,使熱氣體閥HV閉合,而且使致動馬達 AM旋轉。 冰瑰排出用馬達GM設在蓋體27前面下部,而由該馬達 GM驅動之冰塊搬出用螺旋桿63設在儲冰室83内。將設在馬 達GM之軸上之銷插入設在嫘旋桿S3之軸一端之溝(皆未圖 示)中,即可將螺旋稈63與馬達GM連结。如圖2所示,螺旋 桿63之突出端可在轉動自如的裝插於設在儲冰庫14之對應 位置之凹部64中之定位置上旋轉。排出用馬達GM只在按壓 設置於前面板23之按紐25使第1開關SWi接通之期間内旋轉 ,而Μ嫘旋捍63將儲存於儲冰室33之冰塊21搬送至排出口 14a。將蓋體27裝設在儲冰庫14前面而將螺旋桿63之一端 連结於馬達GM時,螺旋桿63之另一端插入凹部64内而被定 位。 .如圖2所示,在蓋體27背面垂設有對應於螺旋桿63之 配設位置,而且由於排出口 14a之形成位置而面臨儲冰室 側之可轉動自如之限制板65。該限制板65被螺旋桿63所推 送之冰塊21推壓而開啟排出口 14a, K便排出冰塊21,.並 本纸張尺度適用中國國家標爭(CNS)甲4规格(210 X 297公货) 2 1 82.1. 20,000 (請先閲讀背面之注意事項再填寫本頁) 裝. 218914 A6 B6 經濟部中央標準局员工消費合作社印焚 五、發明説明(2 2) 且在冰塊排出裝置13停止運轉時恢復其初期位置而將排出 口 14a閉合,Μ便防止大氣經由該排出口 14a進入儲冰室 83内。分離板68設在蓋體27上靠近限制板65之位置。該分 離板68可防止儲存在儲冰庫14內之冰塊21從排出口 14a被 排出,而且將螺旋桿63所推送之冰塊21之一部分送回儲冰 庫14, Μ防止排出口 14a發生堵塞。排出管69設在儲冰庫 14之靠近凹部64之形成位置之底部,Μ便將冰塊21之溶解 水排出於庫外。 檢測板66可轉動自如的被樞支於水盤16下面。如圖7 所示,檢測板66经常被保持成其自由端部離開水盤16底面 之下方之狀態。水盤16前面設有儲冰终了檢測用第3開闞 SW3。該開關SW3之桿片67經常被設在檢測板66前面端部之 突片66a推壓。檢測板66在水盤16傾動之過程中抵接於冰 塊21而對水盤16朝向順時針方向轉動時,突片66a脫離桿 Η 6 7而使開關S W 3接通,Μ便檢測儲冰终了之動作。在未 檢測到水冰塊21時使來檢測板66之突片66a抵接於第3開關 S W 3之捍片6 7 ,藉比在檢測板6 6因某種原因而從水盤1 6脫 落時停止製冰機之運轉,以便防止在不能檢測儲冰终了之 狀態下製造冰塊21。檢測板66之自由端形成梳齒狀,以便 減輕檢板66柢接於冰塊21時腌加之負載。 .圖17表示本實施例之製冰機之控制電路圖,圖中,在 電源供给線路R與連接點D之間装設保險絲F,而在連接點 D與線路T之間裝設電源指示汀L。同樣的在連接點D與線路 T之間分別串聯①冰塊排出用第1開闞S W t與排出用馬達G Μ , 本纸張尺適用中國S家棵準(CNS)甲4坭格(210 X 297公釐> 0 2 82.1. 20,000 (請先閲讀背面之注意事項再塡寫本頁) .裝· ^18914 A6 B6 關 開 3 第 用 測 檢 了 终 冰 儲 與 2 W S 關 開 2 第 > 用 3 Μ 2 A W達 5馬 明動 發致 % 五② 器 電 繼 及 開 測 檢 了 终 冰 儲 與 2 W S 關 開 2 第 在 外 另 i tj 2 S 點 X 關接器 之 T 1·路 ^ 0 K 與 K 酤 點 接 接 連里 連 S該 點在 接而 連 , 之bl 間1- 連 開 電 常繼 之① XI聯 器串 電別 繼分 接間 閥 水 供 trrV 與 4y S 展 開 4 第 用 給 供 水 冰 製② 器 電 繼③ 絲 險 保 於 -a聯 X3串 點在 接 , SLT夕 常另 之 Μ A 達 馬 動 致 與The Ministry of Economic Affairs, Central Bureau of Standards, 8 Industrial and Consumer Cooperatives printed S. V. Description of Invention (19) One end 39a is snapped onto the lower end of the tab 38a. The engaging piece 33e provided on the lever piece 33b is close to the protruding piece 38a, and the other end 39b of the torsion spring 39 is engaged with the upper end of the engaging piece 33e. When the water tray 16 is kept horizontal, as shown in FIG. 13, the upper end of the engaging piece 33e extends more upward than the upper end of the protrusion 38a of the assembly tool 38. Therefore, at this time, the assembly mold 38 is subjected to the elastic force of the torsion spring 39, and the M bearing 34 as the fulcrum is often urged to rotate in the counterclockwise direction. When a certain external force is applied to the swinging motor RM, the bearing 34 of the assembly mold 38M rotates at a certain angle as a fulcrum. During the ice-making operation, when the water tray 16 is kept horizontal, the torsion spring 39 holds the actuating projection 59a of the actuating member 59 in an operating position that can be engaged with the engaging piece 58 of the actuating plate 54. When the ice making operation is changed to the deicing operation and the water tray 16 is tilted, the upper end of the engaging piece 33e of the lever piece 33b moves to a position lower than the upper end of the protruding piece 38a of the assembly die 38, and at this time the end 39b of the spring 39 Snap to the upper end of the tab 38a (Figure 25). Therefore, when the water pan 16 is tilted, the torsion spring 39 must not apply elastic pressure to the assembly mold 38. A long hole 33b extending up and down is formed at the end of the assembly mold 38 away from the pivot portion, and the restricting pin 61 protruding on the cover body 27 corresponding to the positional relationship can be slidably inserted into the long hole 38b. The restricting pin 61 can restrict the rotation range of the assembly mold 38, and under the urging of the torsion spring 39, the lower end of the long hole 38b abuts against the restricting pin 61 to place the perturbing member 59 in the operating position (Figure 18). The fifth switch SWs for the end-of-ice-making detection made of a micro switch or the like is installed in front of the cover 27 via the bracket 70, so that the lever piece 62 is located on the descending locus of the convex plate portion 59b of the perturbation member 59 so that it follows The assembly tool 38 (RM for swing motor) This paper is again in accordance with China National Standards (CNS) A4 regulations (210 X 297 public goods), 〇82.1. 20,000 (Please read the note on the back and fill in This page) 218914 A6 _B6 printed by the Beigong Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economy V. Invention description (2 0)) Rotates and abuts against the convex plate part 59B to change the opening. That is, as shown in FIG. 19 After the ice making operation is started to form the ice cube 21 around the ice-making protrusion 17, the stirring plate 54 contacts the ice cube 21 when moving upward, and the reaction force downward will pass through the engaging piece 58 and the perturbing protrusion 59a It is supplied to the actuator motor RM. Therefore, the assembly mold 38 equipped with the perturbation motor RM rotates counterclockwise with the bearing 34 as a fulcrum, and during its rotation, the convex plate portion 59B pushes the lever piece of the fifth switch SW5 62, thereby changing the contact of the switch SW5 from the "a" side to the "b" side, Μ will detect the ice making list 15. Whether the ice making has been completed. The bracket 70 is installed on the cover 27 to adjust its up and down position. By adjusting the up and down position of the bracket 70, the position of the lever piece 62 of the fifth switch SW5 can be adjusted. The size of the ice cube 21 formed on the ice-making protrusion 17 can be changed. If the rotation of the perturbation motor RM is stopped while the fifth switch SW5 is changed to the contact "b" side, the card abutting on the perturbation plate 54 The perturbation protrusion 59a of the joint piece 58 prevents the tilting of the perturbation plate 54. Therefore, in the present embodiment, the notch portion 59c is formed in the convex plate portion 59 of the perturbation member 59, so that the swing motor RM rotates The contact of the fifth switch Stfs can be changed to the "a" side, and the notch 59c can be used to control the perturbation protrusion 59a to move away from the tilting track of the engaging piece 58. The notch 59c is formed in the convex plate portion 59b and becomes When the pushing protrusion 59a reaches the position of the upper horizontal portion 58a of the snap-open engaging piece 58, it reaches the positional relationship corresponding to the position of the lever piece 6 2 of the fifth switch SW 5. That is, ① due to the rotation of the perturbation motor RM After the ice making end detection switch SWs is switched to the contact "bj side, continue to make the motor RM Turn, ②When the notch 59c reaches the position corresponding to the lever piece 62 of the switch SWs and the contact of the switch SW5 is changed to the "a" side, the swinging motor RM is stopped. In this way, the swinging protrusion paper size can be shared China Yuanjia Standard (CNS) Grade A 4 (210 X 297 gong) 9 Λ 82.1. 20,000 (please read the precautions on the back before filling out this page) 218914 A6 B6 Printed by the Central Standards Bureau of the Ministry of Economic Affairs 3 Industrial and Consumer Cooperatives 5. Description of the invention (2 Ο 59a deviates from the tilting trajectory of the engaging piece 58 of the perturbing plate 54, so it will not hinder the tilting of the perturbing plate 54. As shown in FIG. 5, a heat-sensitive switch Thi for detecting the end of de-icing is mounted on the ice-making substrate 18 of the ice-making unit 15. The heat-sensitive Kang Thi shifts to the contact "b" when the temperature of the ice-making substrate 13 decreases to a certain value during the ice-making operation, and detects the temperature that occurs when the ice block 21 falls from the ice-making protrusion 17 during the de-icing operation Suddenly rise, change the contact from "b" to "3". At this time, as described later, the hot gas valve HV is closed, and the actuation motor AM is rotated. The ice discharging motor GM is provided at the lower part of the front surface of the cover 27, and the ice-screw driving screw 63 driven by the motor GM is provided in the ice storage chamber 83. Insert the pin provided on the shaft of the motor GM into the groove (not shown) provided on the end of the shaft of the spin rod S3 to connect the screw stalk 63 to the motor GM. As shown in FIG. 2, the protruding end of the spiral rod 63 can be rotated at a fixed position inserted into a recess 64 provided at a corresponding position of the ice storage 14 rotatably. The motor GM for discharge only rotates while the button 25 provided on the front panel 23 is pressed to turn on the first switch SWi, and the Muanxuan 63 transports the ice cubes 21 stored in the ice storage chamber 33 to the discharge port 14a . When the cover 27 is installed in front of the ice storage 14 and one end of the screw 63 is connected to the motor GM, the other end of the screw 63 is inserted into the recess 64 to be positioned. As shown in FIG. 2, on the back surface of the cover 27, an arrangement position corresponding to the screw 63 is provided, and a rotatable restriction plate 65 facing the ice storage chamber side due to the formation position of the discharge port 14a. The restriction plate 65 is pushed by the ice cube 21 pushed by the screw 63 to open the discharge port 14a, and the ice cube 21 is discharged, and the paper size is applicable to China National Standards (CNS) A 4 specifications (210 X 297 Public goods) 2 1 82.1. 20,000 (please read the precautions on the back before filling in this page). 218914 A6 B6 Printed and burned by the Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 5. Invention description (2 2) and in the ice cube discharge device 13 When the operation is stopped, the initial position is restored and the discharge port 14a is closed, so that the atmosphere prevents the atmosphere from entering the ice storage chamber 83 through the discharge port 14a. The separating plate 68 is provided on the cover 27 at a position close to the restricting plate 65. The separating plate 68 can prevent the ice 21 stored in the ice storage 14 from being discharged from the discharge port 14a, and return a part of the ice 21 pushed by the screw 63 to the ice storage 14, preventing the discharge port 14a from occurring Clogged. The discharge pipe 69 is provided at the bottom of the ice storage 14 near the formation position of the recess 64, and M dissolves the dissolved water of the ice cube 21 out of the storage. The detection plate 66 is pivotably supported under the water tray 16 in a rotatable manner. As shown in FIG. 7, the detection plate 66 is often kept in a state where its free end is away from below the bottom surface of the water tray 16. The water tray 16 is provided with a third opening SW3 for detecting the end of ice storage. The lever piece 67 of the switch SW3 is always pushed by the protrusion piece 66a provided at the front end of the detection plate 66. When the detection plate 66 abuts on the ice cube 21 and rotates the water plate 16 in the clockwise direction during the tilting of the water tray 16, the protruding piece 66a disengages from the lever H67 to turn on the switch SW3, and M detects the end of ice storage. action. When the water ice block 21 is not detected, the protruding piece 66a of the detection plate 66 is brought into contact with the protection piece 6 7 of the third switch SW 3, when the detection plate 6 6 falls off the water tray 16 for some reason The operation of the ice machine is stopped to prevent the ice block 21 from being made in a state where the end of ice storage cannot be detected. The free end of the detection plate 66 is formed into a comb-tooth shape, so as to reduce the load of pickling when the detection plate 66 is connected to the ice cube 21. FIG. 17 shows a control circuit diagram of the ice maker of this embodiment. In the figure, a fuse F is installed between the power supply line R and the connection point D, and a power supply indicator L is installed between the connection point D and the line T. . The same is connected in series between the connection point D and the line T ① The first opening SW t for ice discharge and the discharge motor G Μ, this paper ruler is suitable for China S Jia Ke standard (CNS) Jia 4 ni grid (210 X 297mm> 0 2 82.1. 20,000 (please read the precautions on the back before writing this page). Installed ^ 18914 A6 B6 Close Open 3 The final ice storage was tested with 2 WS Close Open 2 > The use of 3 Μ 2 AW up to 5 Ma Ming triggers% 5 ② The electrical relay and the opening test checked the final ice storage and 2 WS off and on 2 The other is i tj 2 S point X connector T 1 · Road ^ 0 K and K are connected successively, and the point is connected, and the point is connected, between the bl and the power is turned on. ① The XI coupler is connected in series, and the water between the taps is supplied to trrV and 4y S. 4 Ice for the second water supply ② Electrical relay ③ Silk insurance is guaranteed to be connected at the -a link X3 serial connection, SLT Xichang another M A Dama action and
器 電 繼 之 F (锖先閲讀背面之注意事項再填寫本頁) 點 接 常 之 3 X 器 電 繼 與 2F of the relay (read the precautions on the back before filling in this page). Click on the 3 X relay and 2
常 之 2 X 器 押电 繼 有 聯 串 間 之 N 和接 ΟΗΠa S5 馬 致 之達 點 接 閉 點 接 連 之 間 點 常 之 3 X 器 電 繼 與 器 電 繼 於 聯Th 串關點 在開接 。 熱在 -b感而 3 j X 用 , 點測 F 接檢達 閉了馬 之 2 側a X 器 點结 接凝 開有 常接 連 终 冰 除 之a 閥 體 氣 熱 用 給 供 體 氣 點熱 接接 之連 1側 扇 風 之 用 另 —裝. 點 接-a 3 S X 常點 之接 1X BH X 阕 器常 電 繼 在器點 , 電接 外繼閉 之 3 0 電 繼②The constant 2 X device is charged and there is a connection between the N and the connection point of the ΟΗΠa S5 horse reach point, and the connection point is connected between the 3 X device relay and the device relay are connected to the Th connection point. The heat is used in the -b sense and 3 j X is used, and the spot F is detected and the 2 side of the horse is closed. The a junction of the X device is condensed and there is a continuous continuous deicing. The valve body gas heat is used for the donor gas point heat. The connection is connected to the side fan for the other side-installed. Point connection -a 3 SX normal point connection 1X BH X gate device constant electrical relay point, electrical connection external relay 3 0 electrical relay ②
之 T Θ 聯 串 MHJ 分 間 器 電器 繼電 及繼 RM在 路達 。 線馬CM 與 用機 _〇 動縮 1-摄壓 <與與 常常 2 -X 之 3 訂. ..4-. X 第 點用 接測 開檢 間 Μ R 達 馬 用 一 擺 與 2a 關 H9 關 開 該 在 而 了用 终護 冰保 製聯 有串 接側 連a P 點 點接 接 之 連W5 'Λ 之 及 2 絰濟部中央標準局貝工消費合作钍印製 器 電0 Th與 器FM 溫達 恒馬 器 電 遒 聯 並 扇 風 ο D 點 接 連 該 於 接 連 b 點 接 而 等 1 器 结 凝 及 Μ C 機 縮 壓 將 〇 先 用 〇 作装 之組 例之 施機 簧冰 本製 明明 說說 下先 以 首 二 肖lit 度藉 確b’ 精14 高部 Μ 配 , 裝 時之 4 此 1V 。庫上 1 上冰 0 4 5 1 1 儲 架庫於 持冰成 支儲形 在在的 定設體 固321 器架在 機托。設 凍由装 冷經32 本纸張又度適用中國因家攆準(CNS)甲4峴格(2i0 X 297公货) 盤 水 8 IX 板 基 冰 製 將 且 並 82.1. 20,000 218914 A6 B6 五、發明説明(2 4 ) 製冰基板18及水盤16平行的裝設在儲冰庫14之上部開口面 。然後,將儲冰庫14暫時載置於冷凍機器或豎立部101b, 101c上方,Μ主機架22包圍該等冷凍機器或儲冰庫14而予 W定位。 然後,將設在主機架22之凸緣22c上之各螺紋孔103對 正設在支持架101之前部豎立部l〇lb上之各對應螺紋孔103 ,並將螺栓112螺合於兩個螺紋孔108, 103中(圖11)。另 外,將設在支持架101之後部豎立部l〇lc之各螺紋孔104對 正設在主機架22之凸緣22e上之各螺紋孔110,將螺栓113 嫘合於兩嫘紋孔110, 104,藉此將主機架22與支持架101 定位並固定(圖12)。若將螺紋孔108, 103及螺紋孔110, 104之形成位置之尺寸精確度設定為非常高,即可將主機 架22與支持架101如上所述的以使頂板22a與底面101a成為 平行之狀態非常精確的定位及固定。 此外,將形成於主機架22之装配片22d之各螺紋孔 109對正形成於儲冰庫14之凸緣14c之各對應螺紋孔105, 並且將揉拴1 1 4嫘合於兩摞紋孔1 0 9 , 1 0 5 (圖1 1 )。另外, 經濟部中央標準局3工消費合作社印3农 (請先Μ讀背面之注意事項再塡冩本頁) 將形成於主櫬架22之凸緣22e之各螺紋孔111對正設在儲冰 庫14之装配板106之各對應螺紋孔107,將螺栓115螺合於 兩螺紋孔111, 107中,即可將主機架22與儲冰庫14定位及 固定(圖12)。若將螺紋孔1 0 9, 1 0 5與螺紋孔111, 107之形 成位置之尺寸精確度設定為非常高,即可將主機架22與儲 冰庫14如上所述的Μ使頂板22a與上部開口面成為平行之 狀態非常精確的定位及固定。 衣纸張尺度適用中國园家標準(CNS)甲4峴格(210 X 297公釐〉 2 4 82.1. 20,000 218914 A6 B6 經濟部中央標準局员工消費合作社印焚 五、發明説明(2 5) 如此組装在主機架22上之儲冰庫14在接觸支持架101 之兩個豎立部101b, 101c或冷凍機器,或與其稍微分離之 狀態下被定位(圖2)。亦即支持架101與儲冰庫14分別獨立 的被定位於主機架22上,故若將各構件間之定位精確度設 定為非常高,即可確保設在儲冰庫14之製冰單元15之水平 度。因此,只要將支持架101安裝在水平安装面,即可將 設在儲冰庫14之製冰單元15水平的定位,而且可使各製冰 突起17M均勻深度浸漬於儲存在水盤16中之製冰水内。如 此,可在各製冰突起17上形成尺寸均匀之冰塊。製冰终了 而水盤16開始傾動時,可將殘留之製冰水確實的排出於排 水承受部19。 Μ下參照圖26之時序圖說明將如此組装之製冰機之蓮 轉狀態。此時,假設開始製冰作業之前,在初期運轉時, 水盤16被保持成水平狀態,而且有一定量之製冰水被補充 於水盤16之製水室29内。圖17之暹電器X3被與其協動之常 開接點Χ3-32保持其動作狀態。電源經由該常開接點Χ3_ a2供給於攝動用馬達RM使其旋轉。 通電於壓縮機CM後,冷媒從冷凍糸统之冷媒循環管被 供給於蒸發管31,並由於其熱交換作用而開始冷却突設在 製冰基板13之製冰突起17。因為該製冰突起17浸漬在製冰 水中,故從該突起17周圍開始结冰,逐漸的形成倒圓頂狀 冰塊21。在該製冰運轉作業當中,振動用馬達RM遒缜旋轉 。因此,由馬達RM驅動而旋轉之摄動構件59之攝動突起 59a卡合於設在豎立部54c上之卡合片58,如圖13所示的將 本紙張尺度適用中國园家棵準(CNS)甲4規格(210 X 297公釐) 82.1. 20,000 (請先閲讀背面之注意事項再塡寫本頁) 丨裝. •11. 線. 218914 A6 _._B6_ 五、發明説明(26 ) 摄動板54推向上方。當攝動突起59a脫離卡合片58後,攝 動板54因其本身重量而掉落,並抵接於製冰室29底面16a 。如此,在製冰作業當中,搌動板54在製冰室29之製冰水 中反復攝動,使製冰水經常移動。因為攝動板54上形成有 穿孔55,故製冰水隨着擺動板54之擺動通過穿孔55,產生 噴流現象而使製冰水之移動更為活潑。如此將製冰水經常 保持其移動狀態,结果可防止形成於製冰突起17之冰塊 21發生白濁現象,可製成透明清澄之冰塊21。 經濟部中央標準局8工消費合作钍印- (請先閲讀背面之注意事項再塡寫本頁) •裝, 如圖19所示,在製冰突起17上形成倒圓頂(inverted dome)狀之完整冰塊後,攝動板54在往上移動時與冰塊 21接觸,最後經由卡合片58及摄動突起59a將朝向下方之 反作用力施加於摄動用馬達RM。因此,装設擺動用馬達 RM之装配工模38M軸承 34為支點開始朝反時針方向轉動, 以攝動構件59之凸板部59b推壓製冰终了檢·用之第5開關 S W 3之桿片6 2 ,使其接點從「a」荽換至「b」,K便檢測 製冰單元15中已完成製冰。此時圖17所示繼電器X3之自保 持動作被解除,使常閉接點X3-b接通,使致動馬達AM開始 旋轉。因此,凸板36朝向反時針方向旋轉,使得卡合在與 其成為偏心的連结之連桿37上之旋轉支軸33之桿片33b朝 向反時針方向傾動,使水盤16開始朝向斜下方傾動。此時 ,製冰室29内之製冰水经由擋水板48溢流至補助室46,從 補助室46被排出於排水承受部19。在水盤16傾動之過程中 ,由致動馬達AM驅動而旋轉之凸板36之第2凸板部51使第 4開關SW4斷開(圖26)。 本紙張尺度適用中國國家標準(CNS)甲4規格(210 X 297公:$ ) 26 82.1. 20,000 218914 經濟部中央標準局B工消費合作社印焚 A6 B6_ 五、發明説明(2 7) 當製冰终了檢測用第5開關SWs之桿片62被攝動構件 59之凸板部59b推壓而變換至「b」後,搌動用馬達RM仍繼 纘旋轉。因此,攞動突起59a脫離上部水平部58a,裝配工 模38因扭轉彈簧39之彈性作用而朝順時針方向轉動,將第 5開關SW5之接點從「b」變換至「a」,使擺動用馬達RM暫 時停止。然而,隨着旋轉支軸33朝向反時針方向轉動,桿 片33b之卡合片33e上端移動至較裝配工模38之突片38a上 端更下方之位置,使扭轉彈簧39之端部39b卡合於突片 38a上端,因此彈性力不再施加於裝配工橫38上(圖25(b)) 。此時,装配工模38因本身重量而以轴承34為支點開始朝 反時針方向轉動,Μ凸板部59b將第5開闞SW5之接點再度 從「a」菱換至「b」,使攝動用馬達RM旋轉。當形成於凸 板部59a之缺口 59c到達對應於桿片62之位置後,解除對桿 片62之推壓,開關SW5之接點從「b」變換至「a」,使擺 動用馬達RM停止旋轉(圖25(c))。因此擺動構件59上之擺 動突起59a在離開攝動板45之卡合片58之傾動軌跡之位置 停止運動,Μ便防止發生妨碍攝動板54傾動之現象。 當設在凸板36之第1凸板部50到達第2開關SW2之桿片 52之位置後,該開關sy 2接通而通電於繼電器Χ2,使其常 閉接點X2-bi開斷,使常開接點X2-a接通。此時,除冰终 了檢測用感熱開關Tht因冰塊21形成於製冰突起17而連接 於接點b。因此,不通電於繼電器X3,故致動馬達AM停止 旋轉,水盤16在到達第22圖所示之所需傾動角度之位置停 止後傾動。此時,一部份製冰水被擋水板43保留在製冰室 (請先閲讀背面之注意事項再填寫本頁) 丨裝. '11. 線- 本纸張尺度通用中國因家棵苹(CNS)甲4規格(210 X 297公;ί ) 27 82.1. 20,000 218914 A6 B6 五、發明説明(28) 與個 故整 ,使 却可 冷 , 被合 的混 分水 充冰 而製 業之 作充 轉補 運而 冰轉 製運 因冰 水製 留次 殘一 該下 而行 , 進 内了 9 i 2 為 起 突盤 冰水 製在 於 〇 成出 形露 而下 動態 傾吠 之之 6 7 ΊΧ 1X 盤起 水突 於於 由着 〇 附 低在 降21 度塊 溫冰 之之 水圍 冰周 製 1 冰冰 製製 於之 6 接 1 柢盤 60水 片之 立 動 豎傾 之止 54停 板後 動其 擺較 , 於 中位 當 5 程板 遇 動 、fr*c 33 之擺 動故 傾 , - 8 止 1 停 板 16基 € 5 a 導 塊 冰 將 斗 漏 1ί用 面落 底滑 29成 室變 時 落 掉 1X 2 塊 冰 在 4 5 板 擺 〇 置 位 之 方 上 斜 中 4 1X i 冰 儲 至 如管此 , 發 〇 啟蒸溫 SAZ ϋ ί 办 HV給的 閥供速 體之急 氣將17 熱媒起 ,冷突 時代冰 同取製 之體將 轉氣18 旋熱板 止Μ基 停 ,冰 Α 示製 達所由 馬圖經 動序 , 致時此 在之因 6 2 ο 圖31 身之被 本勢後 因姿中 14 3 2 斜 8 塊傾室 冰定冰 使 一 儲 , 持 之 除保方 解60下 被片其 合 立至 结豎引 之由等 CNI 在被 3& 1X 境 2 » 冰塊落 與冰滑 17該面 起 。上 突下之 冰落 5 製而板 , 量 動 時重攝 出 bh aw 钱 13 負 度 溫 值 負 之 8 1X 板 基 冰 製 除 解 下 落 之 T—< 2 塊 冰 於 由 溫 其 高 昇 然 突 而 通 流 之 體 氣 熱 T 之關 內開 3 熱 管 感 發由 蒸昇 因上 18度 板溫 基該 使 〇 , 度 至 換 變 即 立 點 接 使 測 檢 (請先閲讀背面之注意事項«-«寫本頁) •裝‘ 經濟部中央標準局员工消費合作社印製 a Γ 器 電 繼 於 電 通 時 此 〇 轉 旋 始 開 度 再 Μ A 達 馬對 動 始 致開 使度 , 再 通而 接合 a 閉 - V 3 Η X I 閥 點 ! 氣 開 ί 熱 常 板 凸 因 3 3 軸 支 轉 旋 轉 旋 始 開 〇 度 媒再 ‘ Μ 冷 A 給達 供馬 31於 管由 發 蒸 動 轉 向 方 針 時 順 向 朝 而 用 作 之 勢 姿 平 水 成 原 復 始 開 而 轉 旋 向 方 針 33時 片順 桿朝 ,h的 7 3 樣 桿同 盤 水 圖 如 連 本紙張尺度適用中國园家標準(CNS)甲4現恪(210 X 297公货) 82.1. 20,000 18914 A6 B6 絰濟部中央標準局工消费合作钍印¾ 五、發明説明(29) 23所示,隨着馬達AM之再度開始旋轉,凸板36之第2凸板 部5 1到達第4開關SW4之桿片53之位置,使開關SW4接通。 因此,給水閥WV開啟而將製冰水補充至製冰室29內。 當凸板36之第1凸板部50脫離第2開SSSW2之桿片52後, 該開關SW2斷開,使給水閥WV閉合而停止供给製冰水,同 時致動馬達AM停止旋轉。其理由為繼電器X3進行自我保持 而使其常閉接點X3-b開啟。因此,水盤16成為水平姿勢停 止。 本實沲例中,使水盤16復原成水平姿勢時,係如圖 24所示,使其朝順時針方向傾動至超過水平狀態而其傾斜 開放端(豎立壁16d側)變成較高之位置後,朝向反時針方 向傾動而成為水平姿勢停止。亦即只要在設置於水盤16之 擋水板48位於高水平之狀態下,將製冰水供給於製冰室 29中使其從擋水板48溢流為止,則當水盤16復原成為水平 姿勢時,已確實的將必要量之製冰水供給於製冰室2 9中。 如此,可防止因製冰水不足而發生之各種問題。 當旋轉軸33朝順時針方向轉動時,桿片33b之卡合片 33e之上端移動至較装配工模38之突片38a之上端更上方之 位置,使扭轉彈簧39之端部39b卡合於卡合M 33e之上端( 圖25(a))。因此,裝配工模33被扭轉彈簧39彈壓而以旋轉 支蚰33為支點朝順時針方向轉動,使攝動構件59之摄動突 起59a到達可卡合於攝動板54之卡合片58之動作位置。因 此,當第2開關SW2斷開而切斷遒電器X2之電源後,其常閉 接點X2-b2接通而使攝動用馬達RM旋轉,再度開始進行製 (請先閲讀背面之注意事項再填寫本頁) .裝. *Tr. 線. 本纸張尺度適用中國园家標準(CNS)甲4峴格(210 X 297公货) 82.1. 20,000 29 218914 A6 B6 經濟部中央標準局員工消費合作社印裂 五、發明説明(30) 冰運轉當中之攝動板44之上下攝動。 上述製冰機在運轉時,設在下部櫬器室12之冷却風扇 (風扇馬達FM)旋轉而吸引外部空氣,Μ便利用空氣冷却凝 结器11。此時,若前面板23之開口 23a連通於機器室12, 則外部空氣經由該開口 2 3 a被吸入機器室1 2内,與外部空 氣一起被吸入之灰塵附着於該開口 23a而變成非常不衛生 。因此本實施例中,如圖14¾圖15所示,將形成於前面板 23背側之隔熱壁23d之背面端部抵接於支持架101之上部横 材101e前面之全部寬度範圍,分隔成空氣不能在開口 23a 與機器室1 2之間流通之狀態: 當冷却風扇旋轉時,外部空氣只能經由設在支持架 101底面101a之吸入口被吸入櫬器室12中。該空氣在通過 瀘器構件25時已完全除去其中之灰塵,故可防止因灰塵附 着於凝结器11而降低熱交換效率,及因過熱等所造成之故 障等問題。此時,前面板23之開口 23a及儲冰庫14之排出 口 14a與下部媸器室12之間被隔熱壁23d分隔。因此外部空 氣不會經由開口 2 3 3被吸入機器室1 2中,可防止灰璺污損 該開口 23a。因此,從儲冰庫14排出冰塊時,可保持經由 排出口 14a及開口 23a排出之冰塊21之清潔衛生。因為儲冰 庫14內之冷氣不會因冷却風扇之旋轉而被吸引,故可防止 因冷氣洩漏而使庫内溫度上昇之問題,藉此可抑制儲存在 儲冰室83内之冰塊21發生溶解。因為絕不會發生從未設置 濾器構件26之部分吸入外部空氣之問題,故可防止空氣中 之灰塵 '進入機器室1 2中附着於凝结器1 1之問題。 本纸張尺度適用中园a家桴準(CNS)甲4 %格(210 X 297公;Ϊ ) 3 0 82.1. 20,000 ---^---^----------^-------裝------訂-----^ ^ {請先閱讀背面之注意事項再填寫本頁) 218914 A6 B6 五、發明説明(3 1 ) 當製冰機在蓮轉當中,若有需要修護水盤16之傾動機 構及摄動板54之攝動櫬構等時,則只要將圖2所示之前面 板23拆下,即可露出各櫬構。因此可非常簡易的從前面進 行各櫬構之修護。只要將蓋體27從儲冰庫14上拆下即可將 傾動機構,攝動機構,及冰塊排出裝置13成一體的拆下, 故亦可在外部進行修護及更換構件。又因為將傾動機構, 攝動機構,及冰塊排出装置13皆設置在蓋體27上,故組裝 製冰櫬時作業效率非常髙。 (請先閲讀背面之注意事项再填寫本頁) 丨裝- 訂 4‘ 經濟部中央櫺準局8工消費合作社印製 82.1. 20,000 本纸張尺度適用中团國家揉準(CNS)尹4规格(210 X 297公货)The T Θ series MHJ divider electrical relay and RM follow Luda. Line horse CM and machine _〇 dynamic shrinkage 1-photo pressure &less; and often 2 -X of 3 sets. .. 4-. X The first point is used to test and open the inspection room MR Dama uses a pendulum and 2a off H9 Turn off the switch and use the end ice protection system with a series of side connection a P point connection W5 'Λ and 2 Ministry of Economic Affairs Central Standards Bureau Beigong consumer cooperation thorium printer electricity 0 Th Connect with the FM Wenda Hengma electric appliance and fan the wind. Point D should be connected to point b and wait for the first device to condense and the MC machine to be compressed. Let's talk about how to make the first two Xiao Li degrees to make sure the b 'Jing 14 high part M is equipped with 4 1V at the time of installation. On the storehouse 1 On ice 0 4 5 1 1 Storage rack The storehouse holds the ice in the shape of a support, and the fixed body is fixed on the machine holder. It is assumed that the freezing and loading of the cold warp 32 papers are again suitable for China ’s home-made (CNS) Jia 4 Xiange (2i0 X 297 public goods) Panshui 8 IX board base ice making and 82.1. 20,000 218914 A6 B6 Five Description of the invention (2 4) The ice-making substrate 18 and the water tray 16 are installed in parallel on the upper opening surface of the ice storage 14. Then, the ice storage 14 is temporarily placed above the freezing machine or the erected portions 101b, 101c, and the M main frame 22 surrounds the freezing machine or the ice storage 14 for positioning. Then, each screw hole 103 provided on the flange 22c of the main frame 22 is aligned with each corresponding screw hole 103 provided on the front upright portion 10lb of the support frame 101, and the bolt 112 is screwed to the two threads Holes 108, 103 (Figure 11). In addition, each threaded hole 104 provided in the rear standing portion 101c of the support frame 101 is aligned with each threaded hole 110 provided on the flange 22e of the main frame 22, and the bolt 113 is coupled to the two threaded holes 110. 104, thereby positioning and fixing the main frame 22 and the support frame 101 (FIG. 12). If the dimensional accuracy of the formation positions of the screw holes 108, 103 and the screw holes 110, 104 is set to be very high, the main frame 22 and the support frame 101 can be set as described above to make the top plate 22a and the bottom surface 101a parallel Very precise positioning and fixing. In addition, the threaded holes 109 formed in the mounting piece 22d of the main frame 22 are aligned with the corresponding threaded holes 105 formed in the flange 14c of the ice storage 14, and the kneading bolts 1 1 4 are fitted to the two stacked holes 1 0 9, 1 0 5 (Figure 11). In addition, the Ministry of Economic Affairs, Central Bureau of Standards, Industry and Consumer Cooperatives, Co., Ltd. and Sannong (please read the precautions on the back and then this page) will be formed in the main frame 22 flange 22e of each threaded hole 111 is set in The corresponding screw holes 107 of the mounting plate 106 of the ice store 14 are screwed into the two screw holes 111, 107 to position and fix the main frame 22 and the ice storage 14 (FIG. 12). If the dimensional accuracy of the formation positions of the threaded holes 1 0 9, 1 0 5 and the threaded holes 111, 107 is set to be very high, the main frame 22 and the ice storage 14 can be adjusted to the top plate 22a and the upper part as described above The opening faces become parallel and very accurately positioned and fixed. Clothing standards are applicable to China Gardener Standard (CNS) A 4 Xiange (210 X 297 mm) 2 4 82.1. 20,000 218914 A6 B6 Printed by the Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs 5. Invention Instructions (2 5) The ice storage 14 assembled on the main frame 22 is positioned in contact with the two upright portions 101b, 101c of the support frame 101 or the freezing machine, or slightly separated from it (FIG. 2). That is, the support frame 101 and the storage The ice storage 14 is independently positioned on the main frame 22, so if the positioning accuracy between the components is set to be very high, the level of the ice making unit 15 provided in the ice storage 14 can be ensured. Therefore, as long as By installing the support frame 101 on a horizontal installation surface, the ice making unit 15 provided in the ice storage 14 can be positioned horizontally, and each ice making protrusion 17M can be evenly immersed in the ice making water stored in the water tray 16 In this way, ice cubes of uniform size can be formed on each ice-making protrusion 17. When the ice-making is completed and the water tray 16 starts to tilt, the remaining ice-making water can be reliably discharged to the drainage receiving portion 19. Refer to FIG. 26 below Timing diagram illustrating the lotus of the ice maker to be assembled in this way At this time, it is assumed that before starting the ice-making operation, during the initial operation, the water tray 16 is kept in a horizontal state, and a certain amount of ice-making water is replenished in the water-making chamber 29 of the water tray 16. X3 is maintained in its operating state by the normally open contact X3-32 in conjunction with it. The power is supplied to the perturbation motor RM through the normally open contact X3_a2 to rotate. After the compressor CM is energized, the refrigerant is removed from the refrigeration system. The refrigerant circulation tube is supplied to the evaporation tube 31, and starts to cool due to its heat exchange action. The ice-making protrusion 17 provided on the ice-making substrate 13. Since the ice-making protrusion 17 is immersed in the ice-making water, from around the protrusion 17 Ice formation starts, and an inverted dome-shaped ice block 21 is gradually formed. During this ice-making operation, the vibration motor RM rotates remarkably. Therefore, the perturbation protrusion 59a of the perturbation member 59 driven by the motor RM rotates The engaging piece 58 provided on the upright portion 54c, as shown in Fig. 13, applies the paper size to the China Garden Standard (CNS) Grade 4 (210 X 297 mm) 82.1. 20,000 (please read first (Notes on the back and then write this page) 丨 Install. • 11. . 218914 A6 _._ B6_ V. Description of the invention (26) The perturbation plate 54 is pushed upward. When the perturbation protrusion 59a is separated from the engaging piece 58, the perturbation plate 54 falls due to its own weight and contacts the control The bottom surface 16a of the ice chamber 29. In this way, during the ice-making operation, the stirring plate 54 is repeatedly perturbed in the ice-making water of the ice-making chamber 29, so that the ice-making water moves frequently. Because the perforation 55 is formed on the perturbing plate 54 As the swinging plate 54 swings, the ice-making water passes through the perforation 55, and a jet flow phenomenon occurs to make the movement of the ice-making water more active. In this way, the ice-making water is constantly kept in a moving state, and as a result, the ice cube 21 formed on the ice-making protrusion 17 can be prevented from becoming cloudy, and the transparent ice cube 21 can be made. The Ministry of Economic Affairs, Central Bureau of Standards, 8 Industrial and Consumer Cooperation Thorium Seal-(Please read the precautions on the back before writing this page) • Install, as shown in Figure 19, an inverted dome shape is formed on the ice-making protrusion 17 After the ice cubes are intact, the perturbation plate 54 contacts the ice cubes 21 when moving upward, and finally a downward reaction force is applied to the perturbation motor RM via the engaging piece 58 and the perturbing protrusion 59a. Therefore, the bearing 34 of the assembling mold 38M equipped with the swing motor RM starts to rotate counterclockwise, and the convex plate portion 59b of the perturbation member 59 pushes the lever piece of the third switch SW 3 for the final ice-making inspection 6 2, change its contact from "a" to "b", K will detect that the ice making unit 15 has completed ice making. At this time, the self-holding operation of the relay X3 shown in FIG. 17 is released, the normally closed contact X3-b is turned on, and the actuating motor AM starts to rotate. Therefore, the convex plate 36 rotates in the counterclockwise direction, so that the lever piece 33b of the rotation shaft 33 engaged with the eccentrically connected link 37 tilts in the counterclockwise direction, and the water tray 16 starts to tilt obliquely downward. At this time, the ice-making water in the ice-making chamber 29 overflows to the auxiliary chamber 46 via the water blocking plate 48, and is discharged from the auxiliary chamber 46 to the drain receiving portion 19. During the tilting of the water tray 16, the second convex plate portion 51 of the convex plate 36 rotated by the actuation motor AM turns off the fourth switch SW4 (FIG. 26). This paper scale is applicable to the Chinese National Standard (CNS) A4 specifications (210 X 297 g: $) 26 82.1. 20,000 218914 Printed and burned A6 B6_ by the Industrial and Commercial Cooperatives of the Central Standards Bureau of the Ministry of Economic Affairs V. Invention description (2 7) When ice-making After the end, the lever piece 62 of the fifth switch SWs is pressed by the convex plate portion 59b of the perturbation member 59 to be changed to "b", and the motor RM for actuation continues to rotate. Therefore, the pushing protrusion 59a is separated from the upper horizontal portion 58a, and the assembly mold 38 rotates clockwise due to the elastic action of the torsion spring 39, changing the contact point of the fifth switch SW5 from "b" to "a", causing the swing The motor RM is temporarily stopped. However, as the rotation supporting shaft 33 rotates in the counterclockwise direction, the upper end of the engaging piece 33e of the lever piece 33b moves to a position lower than the upper end of the protrusion piece 38a of the assembly die 38, so that the end 39b of the torsion spring 39 engages At the upper end of the tab 38a, the elastic force is no longer applied to the assembly line 38 (FIG. 25 (b)). At this time, the assembly mold 38 starts to rotate counterclockwise with the bearing 34 as a fulcrum due to its own weight, and the M convex plate portion 59b changes the contact of the fifth opening SW5 from "a" to "b" again. The perturbation motor RM rotates. When the notch 59c formed in the convex plate portion 59a reaches the position corresponding to the lever piece 62, the pushing of the lever piece 62 is released, and the contact of the switch SW5 is changed from "b" to "a" to stop the swinging motor RM Rotate (Figure 25 (c)). Therefore, the swinging projection 59a on the swinging member 59 stops moving at a position away from the tilting locus of the engaging piece 58 of the perturbing plate 45, and M prevents the phenomenon of hindering the tilting of the perturbing plate 54 from occurring. When the first convex plate portion 50 provided on the convex plate 36 reaches the position of the lever piece 52 of the second switch SW2, the switch sy 2 is turned on and energized to the relay X2, so that its normally closed contact X2-bi is opened, Turn on the normally open contact X2-a. At this time, the deicing end detection heat-sensitive switch Tht is connected to the contact b because the ice cube 21 is formed on the ice-making protrusion 17. Therefore, the relay X3 is not energized, so the actuation motor AM stops rotating, and the water pan 16 stops tilting after reaching the desired tilting angle shown in FIG. At this time, a part of the ice-making water is retained in the ice-making room by the water baffle plate 43 (please read the precautions on the back and then fill out this page). Installed. '11. Thread-This paper size is universal for the Chinese family. (CNS) A 4 specifications (210 X 297 g;) 27 82.1. 20,000 218914 A6 B6 5. Description of the invention (28) With the reason, it can be cooled, and the mixed mixed water is filled with ice and manufactured. For replenishment and replenishment, and ice transfer, due to the ice water system, the remaining time is the next one, and the inside is 9 i 2 for the rising disc ice water system. The ΊΧ 1X plate rises and breaks in the water surrounded by the low temperature of 21 degrees below the block of warm ice water around the ice circumference system 1 ice ice system is made of 6 connected to 1 柢 盘 60 water pieces standing vertical tilt stop 54 stops After the board moves, the swing is compared, in the middle position, when the 5th board is moved and the fr * c 33 swings, it tilts,-8 stop 1 stop board 16 base € 5 a guide block ice will make the bucket drain 1ί slide down with the surface 29 When the chamber changes, drop 1X 2 pieces of ice on the side of the 4 5 plate and place it diagonally in the direction of the 4 1X i ice storage. If this is the case, send the steam temperature SAZ ϋ The valve provided by the HV will supply the hot air of the speed body to 17 heat medium. In the cold-burst era, the ice body and the body will turn the gas 18 and rotate the hot plate to stop the M base. The ice A shows the movement of the control center from the map. , The reason for the present 6 2 ο Figure 31 after the body is in this position due to the posture 14 3 2 oblique 8 pieces of ice in the tilting chamber to make a storage, holding the solution except for the security solution 60 under the piece The result is that the CNI will be picked up by the 3 & 1X realm 2 »ice cubes and ice slide 17. The upper and lower ice drops 5 and the plate is re-shot when measuring, and the bh aw money 13 is negative. The negative temperature value is negative 8 1X. The plate-based ice system removes the falling T- < 2 pieces of ice and rises from the temperature to its height. Sudden flow of the body gas heat T within the opening 3 heat pipe feels from the rise due to the temperature of 18 degrees on the plate should be used, the temperature is changed to the point that the point is connected to the test (please read the notes on the back « -"Write this page" • Install 'printed by the employee consumer cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs a Γ device followed by the power transmission. Engage a closed-V 3 Η XI valve point! Gas opening ί Hot plate protruding due to 3 3 axis pivoting rotation start to open 0 degrees medium again 'Μ cold A for Da Ma 31 when the tube is turned from steam to the guideline The direction of the direction is used as the direction of the posture. Pingshui Chengyuan reopened and turned to the direction of 33 hours. The direction of the pole is the direction of the pole. The 7 3 samples of the h are on the same water chart. A 4 is now available (210 X 297 public goods) 82.1. 20,000 1 8914 A6 B6 The Ministry of Economy, Central Standards Administration, Industry and Consumer Cooperation Thorium Seal ¾ V. Description of the Invention (29) As shown in 23, as the motor AM starts to rotate again, the second convex part 5 of the convex plate 36 reaches the fourth switch The position of the lever piece 53 of SW4 turns on the switch SW4. Therefore, the water supply valve WV is opened to supplement the ice-making water into the ice-making chamber 29. When the first protruding plate portion 50 of the protruding plate 36 is separated from the lever piece 52 of the second opening SSSW2, the switch SW2 is opened, the water supply valve WV is closed to stop the supply of ice-making water, and at the same time, the motor AM is stopped to rotate. The reason is that the relay X3 keeps itself and turns on the normally closed contact X3-b. Therefore, the water pan 16 stops in the horizontal position. In this example, when the water pan 16 is returned to a horizontal position, as shown in FIG. 24, it is tilted clockwise to exceed the horizontal state and its inclined open end (upright wall 16d side) becomes a higher position , Tilt in the counterclockwise direction to stop in a horizontal position. That is, as long as the water stop plate 48 provided in the water tray 16 is at a high level, the ice making water is supplied to the ice making chamber 29 to overflow from the water stop plate 48, and then the water tray 16 returns to the horizontal position At this time, the necessary amount of ice-making water has been surely supplied to the ice-making chamber 29. In this way, various problems caused by insufficient ice-making water can be prevented. When the rotating shaft 33 rotates clockwise, the upper end of the engaging piece 33e of the lever piece 33b moves to a position higher than the upper end of the protruding piece 38a of the assembly tool 38, so that the end 39b of the torsion spring 39 is engaged with Engage the upper end of M 33e (Figure 25 (a)). Therefore, the assembly die 33 is urged by the torsion spring 39 and rotates clockwise with the rotation support 33 as a fulcrum, so that the perturbation projection 59a of the perturbation member 59 reaches the engagement piece 58 that can be engaged with the perturbation plate 54 Action position. Therefore, when the second switch SW2 is turned off and the power supply of the electric appliance X2 is turned off, its normally closed contact X2-b2 is turned on to rotate the perturbation motor RM, and the system is started again (please read the precautions on the back first (Fill in this page). Installed. * Tr. Line. This paper scale is applicable to China Yuanjia Standard (CNS) A 4 Dange (210 X 297 public goods) 82.1. 20,000 29 218914 A6 B6 Employee Consumer Cooperative of Central Standards Bureau of Ministry of Economic Affairs Seal crack 5. Description of the invention (30) The perturbation plate 44 during ice movement is perturbed up and down. When the ice maker is in operation, the cooling fan (fan motor FM) provided in the lower chamber 12 rotates to attract outside air, and the condenser 11 is cooled by air. At this time, if the opening 23a of the front panel 23 communicates with the machine room 12, the outside air is drawn into the machine room 12 through the opening 23a, and the dust sucked together with the outside air adheres to the opening 23a and becomes very unused health. Therefore, in this embodiment, as shown in FIGS. 14 to 15, the back end of the heat insulation wall 23d formed on the back side of the front panel 23 abuts on the entire width of the front of the upper cross member 101e of the support frame 101 and is divided into The state where air cannot circulate between the opening 23a and the machine room 12: When the cooling fan rotates, outside air can only be sucked into the decanter chamber 12 through the suction port provided on the bottom surface 101a of the support frame 101. This air has completely removed the dust in it when it passes through the filter member 25, so that it can prevent the dust from adhering to the condenser 11 to reduce the heat exchange efficiency, and the problems caused by overheating and the like. At this time, the opening 23a of the front panel 23 and the outlet 14a of the ice storage 14 and the lower chamber 12 are partitioned by the heat insulating wall 23d. Therefore, external air is not sucked into the machine room 12 through the openings 2 3 3, and the opening 23a can be prevented from being contaminated by dust. Therefore, when ice cubes are discharged from the ice storage 14, the ice cubes 21 discharged through the discharge port 14a and the opening 23a can be kept clean and hygienic. Since the cold air in the ice storage compartment 14 is not attracted by the rotation of the cooling fan, it is possible to prevent the problem of the temperature rise in the refrigerator due to the leakage of the cold air, thereby suppressing the occurrence of ice cubes 21 stored in the ice storage compartment 83 Dissolve. Since the problem that the outside air is never sucked in the portion where the filter member 26 is never provided, the problem that the dust in the air enters the machine room 12 and adheres to the condenser 11 can be prevented. The scale of this paper is applicable to a 4% grid (CN X) of Zhongyuan ajiazhen (CNS) 3 0 82.1. 20,000 --- ^ --- ^ ---------- ^ ------- install ------ order ----- ^ ^ {Please read the precautions on the back before filling in this page) 218914 A6 B6 5. Description of invention (3 1) When ice maker During the lotus turn, if there is a need to repair the tilting mechanism of the water pan 16 and the perturbation structure of the perturbation plate 54, etc., as long as the front panel 23 shown in FIG. 2 is removed, each structure can be exposed. Therefore, it is very easy to carry out the maintenance of each structure from the front. The tilt mechanism, the perturbation mechanism, and the ice cube discharge device 13 can be detached as long as the cover 27 is removed from the ice storage 14, so that repairs and replacement of components can be performed externally. Moreover, since the tilting mechanism, the perturbing mechanism, and the ice cube discharging device 13 are all provided on the cover 27, the work efficiency when assembling the ice cream is very high. (Please read the precautions on the back and then fill out this page) 丨 Installation-Order 4 'Printed by the Central Bureau of Economic Development of the Ministry of Economic Affairs, 8 Industrial and Consumer Cooperatives 82.1. 20,000 This paper size is applicable to the CNS Yin 4 specifications (210 X 297 public goods)