TW557347B - Automatic ice making machine - Google Patents

Automatic ice making machine Download PDF

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Publication number
TW557347B
TW557347B TW91116887A TW91116887A TW557347B TW 557347 B TW557347 B TW 557347B TW 91116887 A TW91116887 A TW 91116887A TW 91116887 A TW91116887 A TW 91116887A TW 557347 B TW557347 B TW 557347B
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TW
Taiwan
Prior art keywords
ice
making
shaft support
support rod
partition
Prior art date
Application number
TW91116887A
Other languages
Chinese (zh)
Inventor
Shinichi Nagasawa
Masaaki Kawasumi
Masahiro Kodani
Chiyoshi Toya
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Hoshizaki Electric Co Ltd
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Publication of TW557347B publication Critical patent/TW557347B/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C1/00Producing ice
    • F25C1/04Producing ice by using stationary moulds
    • F25C1/045Producing ice by using stationary moulds with the open end pointing downwards
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C2400/00Auxiliary features or devices for producing, working or handling ice
    • F25C2400/04Ice guide, e.g. for guiding ice blocks to storage tank

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Devices That Are Associated With Refrigeration Equipment (AREA)
  • Production, Working, Storing, Or Distribution Of Ice (AREA)

Abstract

In an automatic ice making machine, ice making water is spouted upward into ice making cells 52 in an ice making chamber 50 formed at an upper portion of a housing B and is frozen in the ice making cells 52 to form ice blocks. The ice blocks C drop on an inclined ice chute 60 mounted within an intermediate portion of the housing B and slide down forward on the ice chute 60 to open a separator 25 provided in an opening portion of the housing B. The separator 25 is divided into a plurality of separation plates which are formed at their upper edges with hook portions 25b of C-letter form in cross-section. The hook portions 25 b of the separation plates are engaged with a lateral rod 18 mounted on a lower edge of a front wall 17 forming a front upper portion of the housing B. Thus the separator 25 is hung from the lateral rod 18 in such a manner that each open portion. 25c of the hook portions 25b is directed toward the outside of the housing B.

Description

557347 A7 -------—__B7 五、發明説明ΤΤΊ ~ -— 本發明涉及一種自動製冰機的製冰機構部,特別涉及 對設置了將該製冰部箱中的冰塊送㈣開σ的隔板的改 善。 在這種自動製冰機中,例如像特開昭60_89659號公報 中所么開的那樣’設置在製冰機本體8上部的製冰機構部, 在製冰運轉中,由冷卻管5所冷卻的製冰杯4中接到從下方 的噴水器16喷射出來的製冰水並使其結冰,結冰結束後停 止製冰運轉,向冷卻管5供給熱氣將在製冰杯4中產生的冰 塊沿傾斜的滑道13落下,通過製冰機構部前側的開口落到 下側的貯冰庫1 〇中。製冰機構部前側的開口處設置重力能 讓其垂下的柔軟片等所構成的水遮擔板21,沿滑道13滑落 的冰塊按壓打開水遮擋板21,落入到貯冰庫10中,而製冰 運轉中從喷水器16喷射出來的製冰水由於有水遮擋板21遮 蔽不會進入到貯冰庫1 〇内’因此不會出現讓貯冰庫i 〇中的 冰塊溶化、或者在製冰運轉過程中製冰水不足的情況。 上述現有技術的水遮擋板21由柔軟片構成,而在特開 昭60-86876號公報中,由支撐軸4a可自由傾斜地支撐短冊 狀的多個窗簾4的上部來作為水遮擋板。 在上述第1現有技術中所存在的問題是由於水遮擋板 21整體一體形成,當只有少數冰塊殘剩在滑道π上時,僅 靠其重量不能按壓打開水遮擋板2 1而殘留在滑道上,被從 喷水器16喷射出來的製冰水所溶化,而成為無謂消耗,或 者成為製冰水喷水時的障礙。在第2現有技術中,水遮擋板 分割成多個窗簾4,每個的上部可以獨立自由傾斜地支撐, 本紙張尺度適用中國國家標準(CNS) A4規格(210X297公釐) (請先閲讀背面之注意事項再塡寫本頁〕557347 A7 ---------__ B7 V. Description of the invention ΤΤΊ ~-The present invention relates to an ice-making mechanism part of an automatic ice maker, and in particular, to sending ice cubes in a box provided with the ice-making part. Improvement of σ-opening separator. In such an automatic ice maker, for example, as described in Japanese Patent Application Laid-Open No. 60_89659, an ice-making mechanism section provided on the upper portion of the ice-maker body 8 is cooled by the cooling pipe 5 during the ice-making operation. The ice-making cup 4 receives the ice-making water sprayed from the sprinkler 16 below and freezes it. After the icing is finished, the ice-making operation is stopped, and the hot air supplied to the cooling pipe 5 will be generated in the ice-making cup 4. The ice cubes fall along the inclined slideway 13 and fall into the ice storage tank 10 on the lower side through the opening on the front side of the ice making mechanism section. An ice cover mechanism 21 is provided with a water shield 21 formed by a soft sheet that allows gravity to hang down. The ice block that slides along the slideway 13 is pressed to open the water shield 21 and falls into the ice storage 10 However, the ice-making water sprayed from the water sprayer 16 during the ice-making operation will not enter the ice storage tank 10 because it is shielded by the water shielding baffle 21, so the ice cubes in the ice storage tank i 〇 will not melt. Or, when the ice making water is insufficient during the ice making operation. The above-mentioned conventional water-shielding shutter 21 is made of a flexible sheet. In Japanese Patent Application Laid-Open No. Sho 60-86876, the upper part of a plurality of booklet-shaped curtains 4 is slantably supported by the support shaft 4a as a water-shielding shutter. The problem existing in the above-mentioned first prior art is that the water shielding baffle 21 is integrally formed as a whole. When only a few ice cubes remain on the slideway π, the water shielding baffle 21 cannot be opened by pressing only by its weight and remains in the The chute is melted by the ice-making water sprayed from the water sprayer 16 and becomes unnecessary consumption or an obstacle when the ice-making water is sprayed with water. In the second prior art, the water shield is divided into a plurality of curtains 4, and the upper part of each can be independently and freely tilted. This paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) (Please read the back Note before rewriting this page]

4 個冰塊可以按壓打開一個窗簾4落入到貯冰庫10中,可以 解決上述間題。但是,這種製冰機構部,A 了檢修設置在 内部的噴水器(噴水喷嘴)和滑道(冰塊滑槽)等,需要將設置 在製冰機構部前側開口處的水遮檔板(隔板)取出,在上述 各現有技術中,取出任何—種水遮擋板都非㈣,因而存 在製冰機構部内部檢修很麻煩的問題。 本發明正是為瞭解決這樣的問題的發明,其目的在於 將各隔板分割成多個同時可以自由裝卸、並且分割成多個 的各隔板僅由很少的冰塊就能輕鬆打開,而且不會產生錯 誤安裝各隔板的問題。 為此,本發明的自動製冰機,在包括、由前壁下側形 成有開口的箱狀製冰部殼體、安裝在該製冰部殼體内下部 具有向上方噴射製冰水的喷出口的喷射喷嘴、安裝在製冰 部殼體内上部的向下開σ的具有接受從喷出口向上喷出的 製冰的多個製冰袼同時由冷卻管冷卻的製冰室、在製冰部 设體内的上下方向中間部傾斜安裝的接受從製冰格落下的 冰塊並傾斜向下方滑動並通過開口從製冰部殼體内將冰塊 送出的冰塊滑板、可自由轉動地吊裝在製冰部殼體内並可 自由開閉的關閉開口的隔板、所構成的製冰機構部的自動 製冰機中,其特徵是隔板被分割成多個同時所分割的各隔 板的上部可裝卸地卡接在製冰部殼體上。 前項發明優選,前壁下緣上一體連接橫方向延伸的圓 捧狀的軸支撐棒,多個各隔板由平板部、與其上緣一體形 成的具有可自由轉動地卡接在軸支撐棒上的圓弧狀内面 五、發明説明(3 ) —截面形狀並在橫方向延伸的連接部所構成,通過將連 接部卡接在軸支撐棒上而可自由轉動地帝接各隔板。 A員务明優遥,各連接部的圓孤狀内面兩端之間的 開口部的寬度比軸支撐棒的外徑要小,通過讓各連接部彈 性變形擴大開口部的寬度而可自由轉動地卡接在軸支撐棒 上。 又础2項發明優選在各隔板自然吊接的狀態下讓開口 部朝向製冰部殼體的外側而將各連接部卡接在軸支撐棒 上。 又前項發明優選,前壁下緣上在和軸支撐棒之間與各 隔板對應的位置上分別形成可插入連接部的槽,在各隔板 上在連接部的橫方向上形成從中心向外的位置的外周面上 /口圓周方向延伸的扇狀凸部,在槽上與扇狀凸部對應的位 置上形成可插入該扇狀凸部的凹部。 又前4項發明優選,相互相鄰各隔板的各平板部的相 互相鄰側緣中的至少一方中設置至少丨個凸部。 又前5項發明優選,讓相互相鄰各隔板的各平板部的 相互相鄰側緣中的至少一方的前端的厚度減少。 以下是附圖的簡要說明。 第1圖為表示依據本發明的自動製冰機的一實施方案 的製冰機構部的一部分破斷後的整體正面圖。 第2圖為表示除去第丨圖的右支架附近後的右側視圖。 第3圖為表示第1圖所示實施方案的一部分的隔板及 其附近部分的放大正視圖。 557347 A7 B7 五、發明説明 第4圖為表示沿第3圖的4_4線的剖面圖。 第5圖為表不沿第3圖的5_5線部分的放太剖面圖。 (請先閲讀背面之注意事項再填寫本頁) 第6圖為表示第1圖的左側視圖。 第7圖為表不包括製冰機構部的自動製冰機的整體構 造的側視剖面圖。 第8圖為表不安裝了第i圖所示實施方案的隔板時的 側視剖面圖。 第9圖為表示第丨圖所示實施方案的隔板處於打開狀 悲日寸的側視剖面圖。 第10圖為表示讓其開放部成為内側來安裝隔板時的 側視剖面圖。Four ice cubes can be pressed to open a curtain 4 and dropped into the ice storage 10, which can solve the above problem. However, for this type of ice making mechanism, a water sprayer (water spray nozzle) and a slide (ice block chute) installed in the interior need to be repaired. A water shield plate (on the opening of the ice making mechanism front) Baffle). In each of the above-mentioned prior arts, it is not necessary to remove any kind of water shielding baffle, so there is a problem that the internal maintenance of the ice-making mechanism unit is troublesome. The present invention is an invention for solving such a problem, and an object thereof is to divide each partition into a plurality of partitions which can be freely attached and detached at the same time, and divided into a plurality of partitions which can be easily opened with only a few ice cubes. In addition, there is no problem that the partitions are incorrectly installed. For this reason, the automatic ice maker of the present invention includes a box-shaped ice-making unit case having an opening formed on a lower side of a front wall, and a sprayer for spraying ice-making water upwardly installed on an inner lower portion of the ice-making unit case. An outlet spray nozzle, an ice-making chamber provided with a plurality of ice-making knives for receiving ice-making ejected upward from the discharge port and installed at the upper and lower openings of the inside of the ice-making unit casing, and an ice-making chamber The ice block slide receiving the ice cubes falling from the ice making tray and sliding downwards obliquely, and sending the ice cubes out of the ice making box casing through the opening, can be hoisted freely and rotatably. In the ice-making part housing, which can be opened and closed freely, the opening-closing partition and the automatic ice maker of the ice-making mechanism part are characterized in that the partition is divided into a plurality of partitions that are divided at the same time. The upper part is removably clipped to the ice-making part casing. Preferably, the lower edge of the front wall is integrally connected with a round-shaped shaft support rod extending in the transverse direction, and a plurality of each partition plate is formed by a flat plate portion and is integrally formed with the upper edge thereof, and is rotatably locked on the shaft support rod. 5. Arc-shaped inner surface 5. Description of the invention (3)-A cross-section-shaped and horizontally extending connecting portion is formed, and the partitions can be freely rotated by engaging the connecting portion on a shaft support rod. A staff member Ming Youyao, the width of the opening between the ends of the circular solitary inner surface of each connection part is smaller than the outer diameter of the shaft support rod. The width of the opening part can be freely rotated by elastically deforming each connection part. The ground is connected to the shaft support rod. Furthermore, in the two inventions, it is preferable that the openings face the outer side of the ice-making unit housing in a state where the partitions are naturally hung, and the connecting portions are engaged with the shaft support rods. According to the foregoing invention, preferably, the lower edge of the front wall is formed with a slot that can be inserted into the connection portion at a position corresponding to each partition between the shaft and the support rod, and each partition is formed from the center to the horizontal direction of the connection portion. The fan-shaped convex portion extending on the outer circumferential surface / mouth circumferential direction of the outer position is formed at a position corresponding to the fan-shaped convex portion on the groove, and a concave portion into which the fan-shaped convex portion can be inserted. In the first four inventions, it is preferable that at least one convex portion is provided in at least one of mutually adjacent side edges of each flat plate portion of each partition plate adjacent to each other. In the first five inventions, it is preferable that the thickness of the front end of at least one of the mutually adjacent side edges of each flat plate portion of each of the partition plates adjacent to each other is reduced. The following is a brief description of the drawings. Fig. 1 is an overall front view showing a part of an ice-making mechanism section of an embodiment of an automatic ice-making machine according to the present invention after being broken. FIG. 2 is a right side view showing the vicinity of the right bracket in FIG. Fig. 3 is an enlarged front view showing a partition plate and a portion thereof in the vicinity of the embodiment shown in Fig. 1; 557347 A7 B7 V. Description of the invention Fig. 4 is a sectional view taken along line 4_4 of Fig. 3. Fig. 5 is a sectional view of the amplifier shown along line 5-5 of Fig. 3. (Please read the precautions on the back before filling out this page) Figure 6 shows the left side view of Figure 1. Fig. 7 is a side cross-sectional view showing the overall structure of an automatic ice maker not including an ice-making mechanism section. Fig. 8 is a side sectional view showing a case where the partition plate of the embodiment shown in Fig. I is installed. Fig. 9 is a side cross-sectional view showing the partition plate of the embodiment shown in Fig. 1 in an open state. Fig. 10 is a side cross-sectional view showing a case where a partition is attached with its open portion inside.

、可I 第11圖為表示錯誤安裝了隔板時的侧視剖面圖。 以下說明本發明的實施方案。 ..線_ 以下通過第1圖至第9圖所示的實施方案,進行本發明 的說明。該實施方案的自動製冰機,如第7圖所示,由自動 製冰機本體70和設置在其内部的上部的製冰機構部A所溝 成。自動製冰機本體70包括由前側板71a和後側板71b和左 右兩側板71 c以及地板71 d所構成的機械室7丨、由絕熱性厚 周壁所構成其上面和前面上半部為開放狀的箱體被機械室 71的上側所支撐的貯冰庫72、分別覆蓋貯冰庫72的上面和 刖面上半部的絕熱性頂板73以及上部正面板75、覆蓋機械 至71的前面和貯冰庫72的下部前面的下部正面板74、其下 緣部通過鉸鏈76a安裝在下部正面板74的上緣並對在下部 正面板74和上部正面板75之間形成的開口進行開閉的絕熱可 I FIG. 11 is a side cross-sectional view showing a case where a partition is incorrectly installed. Embodiments of the present invention will be described below. .. Line_ The following describes the present invention through the embodiments shown in FIGS. 1 to 9. As shown in Fig. 7, the automatic ice maker of this embodiment is formed by an automatic ice maker body 70 and an ice-making mechanism section A provided on the upper portion of the automatic ice maker body 70. The automatic ice maker main body 70 includes a machine room 7 composed of a front side plate 71a and a rear side plate 71b, left and right side plates 71c, and a floor 71d. The upper surface and the upper half of the front portion are formed by a heat-insulating thick peripheral wall. The ice box 72 supported by the upper side of the machine room 71, the heat-insulating top plate 73 and the upper front plate 75, which cover the upper and half of the ice box 72, respectively, and the front of the machine to 71 and the storage. The lower front panel 74 in front of the lower part of the ice storage 72, and its lower edge portion is installed on the upper edge of the lower front panel 74 by a hinge 76a, and thermally opens and closes the opening formed between the lower front panel 74 and the upper front panel 75.

557347 A7 ___ B7 五、發明説明(5 ) 性門76,門76的上緣和内面的外緣部上分別安装有把手76b 以及内飾76c。在機械室71内設置為向製冰機構部A供給冷 卻後的冷媒的壓縮機、凝縮器、冷卻扇所構成的冷;東機(圖 中未晝出)等,與設置在貯冰庫72底部的排水口 72&連接的 排水官(圖中未畫出)也通過該機械室7丨内導向外部。 製冰機構部A的製冰部殼體B左右具有支架l〇L、 10R,從各支架10L、10R的下部向左右兩側突出的伸出部 l〇a向後方突出,該伸出部10a的凸出部載置在固定在貯冰 庫72後壁内面的略為上部上的支撐部件”上,進一步通過 用螺釘將左右的支架l〇L、10R固定在頂極73上,將製冰機 構部A固定在貯冰庫72内的上部。在伸出部1〇&的上方的製 冰機構部A後面和貯冰庫72的後壁之間具有相當的間隙, 在該處設置蓄能器78、供水以及冷媒用管道、電線等。 製冰機構部A,如第1圖以及第2圖所示,由製冰部殼 體B °又置在其下端部的製冰水箱3 0、分別設置在製冰部 殼體B的下部、上部以及中間部上的喷水喷嘴4〇、製冰室 5〇、冰塊滑板60所構成,製冰部殼體B整體為箱狀,主要 由左右1對支架10L、10R、與其前後緣連接的前壁17和後 壁20所構成。由於前壁17的上下寬度比後壁2〇要小很多, 製冰部殼體B前側的下半部上形成開口 Ba,該開pBa由後 述的可自由開閉的隔板25所關閉。 如第1圖以及第2圖所示,左右的各支架丨〇l、1 〇R ,從 月J側觀察的形狀整體為上部向外彎曲的倒立L字形,在每 個外側分別形成在上下方向延伸的多個增強肋14a、14b以 本紙張尺度適用中國國家標準(CNS) Μ規格(2]〇χ297公楚) (請先閲讀背面之注意事項再填寫本頁) .訂— :線丨 557347 A7 ______B7 _____ 五、發明説明(6 ) 及14c。各支架l〇L、10R的下部形成向外側凸出在前後方 向水平延伸的向内為字截面形的伸出部1〇a,伸出部l〇a 的下緣和上緣上形成有向内側延伸的下法蘭13&和支撐凸 部 13b。 該伸出部10a比後壁20要向後方凸出,下法蘭i3a和支 撐凸部13b之間形成的水箱支撐槽丨丨也比後壁2〇要向後方 延伸。支撐凸部13b的上面傾斜使得後部上升,和該上面形 成間隙,在和平行延伸讓各支架10L、1 0R向内凸出所形成 的凸出板13c之間所形成的喷嘴支撐槽12延伸到接近後壁 20。又在凸出板13c的上方在各支架1〇[、丨〇R的内面前後 4上形成的圓形支撐凸部14e,讓其前側的部分比後侧的要 低。在左支架10L的下部一體形成安裝後述的排水倉刃以 及喷水泵45的延伸部16,在中間部在2個增強肋14a之間(參 見第6圖)形成將製冰水供給噴水喷嘴4 〇的供水管4 7通過的 插通孔1 5。 前壁17為比支架l〇L、10R的上下寬度要小很多的長方 形的合成樹脂板,其上緣以及略為下部的前側由橫方向延 伸的肋17a、17b所增強。又,在該前壁17的下緣上一體形 成橫方向延伸的圓棒狀的軸支撐棒18,其詳細如第3圖以及 第4圖所示,在該下緣上在與後述的各隔板25對應的位置上 形成有槽19。在該槽19中插入隔板25的連接部25b,在與形 成連接部25b的扇狀凸部26所對應的位置上形成可插入扇 狀凸部26的凹部19a。 製冰部殼體B的前側下半部上形成的開口 Ba,由後述 本紙張尺度適用中國國家標準(CNS) Μ規格(210X297公楚) (請先閲讀背面之注意事項再填寫本頁) .訂丨 :線丨 557347 A7 ---— ___ 五、發明説明(7 ) 的和噴水喷嘴40的喷出口 43以及製冰室5〇的製冰格%的列 數相同的分割成6個的可自由開閉的隔板25所關閉。主要如 第3圖以及第4圖所示,各隔板25由縱長方形的平板部25a、 為c形截面形狀其基端側的一側緣一體連接在平板部25a 的上緣上沿橫方向延伸的連接部25b所構成。連接部25b的 内面為可以在軸支撐棒18上自由轉動的圓弧狀,除去連接 在平板部25a的基端側以外的部分的橫向寬度比平板部25& 的橫向寬度要小並且比槽19的長度只稍微短一些,連接部 25b的圓弧狀内面兩端之間的開口部25c的寬度比軸支撐棒 18的外徑要小。在連接部25b的外周面上,在橫方向上從中 心向外的位置上從連接部25b的前端開始形成沿約9〇度範 圍的圓周方向上延伸的扇狀凸部26。 為了將該隔板25安裝在前壁17上,如第8圖所示,從 外側將連接部25b插入到製冰部殼體,其開口部25^從 下側擋接在軸支撐棒18上,用手指夾住製冰部殼體B外側 的平板部25b,並沿箭頭p所示方向拉。這樣,連接部25b 彈性變形,開口部25c-時張開,連接部25b的前端側以及 扇狀凸部26進入到槽19以及凹部19a内,如第4圖所示,連 接部25b的員弧狀内面連接在軸支撐棒18的外周面上可以 自由轉動,各隔板25的開口部25c朝向製冰部殼體b的外 側,可自由轉動地吊掛在軸支撐棒丨8上,由重力垂下將製 冰部殼B的前側關閉。如上所述,相對於連接部25b的扇狀 凸W 26的形成位置,由於是在橫方向從中心向外侧,隔板 25不可能與上述相反的方向(參見第1〇圖以及第丨丨圖)安裝 本紙張尺度適用中國國家標準(CNS) M規格(2]〇χ297公釐)557347 A7 ___ B7 V. Description of the invention (5) The door 76, the upper edge of the door 76 and the outer edge of the inner surface are respectively equipped with a handle 76b and an interior 76c. In the machine room 71, a compressor composed of a compressor, a condenser, and a cooling fan for supplying the cooled refrigerant to the ice-making mechanism unit A; a ton machine (not shown in the drawing), and the like, and an ice storage 72 The drain outlet 72 & connected drainer at the bottom (not shown) is also guided to the outside through the inside of the machine room 7. The ice-making section housing B of the ice-making mechanism section A has brackets 10L and 10R on the left and right, and a protrusion 10a protruding from the lower portion of each of the brackets 10L to the left and right sides protrudes rearward, and the protrusion 10a The protruding portion is placed on a support member which is fixed on the upper part of the inner wall of the rear wall of the ice storage 72, and the left and right brackets 10L and 10R are fixed to the top pole 73 by screws to fix the ice-making mechanism. The section A is fixed to the upper part of the ice storage 72. There is a considerable gap between the rear of the ice-making mechanism section A above the extension 10 and the rear wall of the ice storage 72, and energy storage is provided there. Device 78, water supply and refrigerant pipes, electric wires, etc. As shown in Fig. 1 and Fig. 2, the ice-making mechanism section A is an ice-making water tank 30, which is placed at the lower end of the ice-making section casing B, The water spray nozzle 40, the ice-making chamber 50, and the ice slide 60 are respectively arranged on the lower, upper and middle portions of the ice-making part casing B. The ice-making part casing B is generally box-shaped, and is mainly composed of A pair of left and right brackets 10L and 10R is composed of a front wall 17 and a rear wall 20 connected to the front and rear edges thereof. The vertical width of the front wall 17 is larger than that of the rear wall 2. It is much smaller, and an opening Ba is formed in the lower half of the front side of the ice-making unit casing B, and the opening pBa is closed by a partition 25 that can be opened and closed later, as shown in FIG. 1 and FIG. 2.丨 〇l, 〇R, the shape as viewed from the side of the moon J is an inverted L-shaped shape with the upper part curved outward, and a plurality of reinforcing ribs 14a, 14b extending in the up-down direction are formed on each outer side, which is suitable for China on this paper scale National Standards (CNS) Μ specifications (2) 〇297297 (please read the notes on the back before filling out this page). Order —: line 丨 557347 A7 ______B7 _____ 5. Description of the invention (6) and 14c. Each bracket The lower portions of the 10L and 10R are formed with inwardly-shaped projecting portions 10a protruding inwardly and extending horizontally in the front-rear direction. The lower and upper edges of the projecting portions 10a are formed with inwardly extending portions. The lower flange 13 & and the supporting convex portion 13b. The protruding portion 10a protrudes rearward than the rear wall 20, and the water tank supporting groove formed between the lower flange i3a and the supporting convex portion 13b is also larger than the rear wall 2 〇To extend rearward. The upper surface of the support protrusion 13b is inclined so that the rear portion rises, and the upper surface shape The gap is formed between the nozzle support groove 12 formed between the projection plate 13c and the projection plate 13c extending in parallel so that each of the brackets 10L and 10R project inwardly. The circular support protrusions 14e formed on the inner front and rear 4 of 10, and 〇R, so that the front part is lower than the rear. The lower part of the left bracket 10L is integrally formed with a drain chamber blade and a water jet pump to be described later. The extension portion 45 of 45 is formed at the middle portion between two reinforcing ribs 14a (see FIG. 6), and an insertion hole 15 through which a water supply pipe 47 for supplying ice-making water to the water spray nozzle 40 is formed. The front wall 17 is a rectangular synthetic resin plate which is much smaller than the upper and lower widths of the brackets 10L and 10R. The upper edge and the slightly lower front side are reinforced by ribs 17a, 17b extending in the horizontal direction. Further, a round rod-shaped shaft support rod 18 extending in the lateral direction is integrally formed on the lower edge of the front wall 17, as shown in Figs. 3 and 4 in detail. A groove 19 is formed at a position corresponding to the plate 25. A connecting portion 25b of the partition plate 25 is inserted into the groove 19, and a recessed portion 19a into which the fan-shaped convex portion 26 can be inserted is formed at a position corresponding to the fan-shaped convex portion 26 forming the connecting portion 25b. The opening Ba formed on the lower half of the front side of the casing B of the ice making unit is to be described later. This paper size applies the Chinese National Standard (CNS) M specification (210X297). (Please read the precautions on the back before filling this page). Order 丨: line 丨 557347 A7 ----- ___ V. The description of the invention (7) is the same as the number of columns of the ice-making compartment% of the water-jet nozzle 40 and the ice-making compartment 50, which can be divided into 6 The openable and closable partition 25 is closed. As shown mainly in FIGS. 3 and 4, each partition plate 25 is integrally connected to the upper edge of the flat plate portion 25 a in a horizontal direction by a vertically rectangular flat plate portion 25 a and a c-shaped cross-sectional side edge of the base end side. It is constituted by the extended connecting portion 25b. The inner surface of the connecting portion 25b has an arc shape that can freely rotate on the shaft support rod 18. The lateral width of the portion except for the base end side connected to the flat plate portion 25a is smaller than the horizontal width of the flat plate portion 25 & and the groove 19 The length of the opening portion 25c is slightly shorter, and the width of the opening portion 25c between the ends of the arc-shaped inner surface of the connecting portion 25b is smaller than the outer diameter of the shaft support rod 18. On the outer peripheral surface of the connecting portion 25b, fan-shaped convex portions 26 extending in a circumferential direction in a range of about 90 degrees are formed from the front end of the connecting portion 25b at positions outward from the center in the horizontal direction. In order to mount the partition plate 25 on the front wall 17, as shown in FIG. 8, the connecting portion 25 b is inserted into the ice-making unit case from the outside, and the opening portion 25 ^ is blocked from the lower side to the shaft support rod 18. , Grip the flat plate portion 25b on the outer side of the ice-making portion case B with your fingers, and pull in the direction indicated by the arrow p. In this way, the connecting portion 25b is elastically deformed, and the opening portion 25c is opened. The front end side of the connecting portion 25b and the fan-shaped convex portion 26 enter the groove 19 and the concave portion 19a. As shown in FIG. 4, the arc of the connecting portion 25b The inner surface is connected to the outer peripheral surface of the shaft support rod 18 and can rotate freely. The opening 25c of each partition plate 25 faces the outside of the ice-making part housing b, and is hung on the shaft support rod rotatably. The front side of the ice making unit case B is closed by hanging down. As described above, since the position of the fan-shaped protrusion W 26 of the connecting portion 25 b is from the center to the outside in the lateral direction, the partition plate 25 cannot be opposite to the above direction (see FIG. 10 and FIG. 丨 丨). ) The size of this paper is applicable to China National Standard (CNS) M specification (2) 0 × 297 mm.

(請先閲讀背面之注意事項再填寫本頁) !訂------- ;線· 10 在則壁17上。將各隔板25的平板部25a打開到接近水平位 置’通過向後按壓連接部25b的前端部,可以從前壁17上取 下各隔板25。 後壁20為具有能關閉製冰部殼體b後側的上下寬度的 長方形合成樹脂板,其上緣由橫方向延伸的肋2〇&所增強, 在其下緣一體形成向後方延伸的覆蓋後述的製冰水箱3〇的 後部上側的大部分的蓋子21,在該蓋子21上形成向製冰水 箱30供給製冰水的供水管要通過的切口(圖中均未晝出)。 這些各支架10L、10R、前壁17以及後壁2〇均由合成樹 月曰一體成形。在該實施方案中,在左右的各支架1〇L、丨〇R 上,各支撐凸部14e中插入滑槽支撐筒24的兩端部,在前後 緣上所形成的槽中插入前壁17以及後壁20的兩端,雖然採 用的是機械防拔出的連接方式,也可以採用粘接的連接方 式。 製冰水箱30,加第1圖以及第2圖所示,從正面觀察是 中央部的左側為向下方凹陷的略三角形狀而上側開放的箱 體,向左右兩側張出的淺支撐部3(^通過從前側插入到上述 製冰部殼體B的水箱支撐槽丨丨中,可以裝卸。冰水箱3〇的 更深的部分位於左支架10L側,在該部分的全部上形成比 左支架10L凸出的供水口 33。又,在接近左支架1〇L側的支 撐部30的淺部分的底面上在前後方向的中間部(參見第6圖) 形成溢出孔34。在製冰水箱3〇的前部形成的立壁3〇b向上延 伸到接近各隔板25的下緣的位置,左右側壁3〇c具有除去和 立壁30b相同高度的前部後可以插入到水箱支撐槽丨丨内的(Please read the precautions on the back before filling out this page)! Order -------; Line · 10 is on the wall 17. When the flat plate portion 25a of each partition plate 25 is opened to a near horizontal position ', each partition plate 25 can be removed from the front wall 17 by pressing the front end portion of the connecting portion 25b backward. The rear wall 20 is a rectangular synthetic resin plate having a vertical width capable of closing the rear side of the ice-making unit casing b. The upper edge is reinforced by ribs 20 extending in the horizontal direction, and a rearwardly extending cover is integrally formed on the lower edge. Most of the lid 21 on the rear upper side of the ice-making water tank 30 to be described later is formed with cutouts through which a water supply pipe for supplying ice-making water to the ice-making water tank 30 passes (not shown in the drawing). Each of these brackets 10L, 10R, the front wall 17 and the rear wall 20 are integrally formed from a synthetic tree. In this embodiment, on both the left and right brackets 10L and 10R, both ends of the chute support cylinder 24 are inserted into each of the support protrusions 14e, and the front wall 17 is inserted into the groove formed on the front and rear edges. And although both ends of the rear wall 20 adopt a mechanical pull-out preventing connection method, an adhesive connection method may also be adopted. The ice-making water tank 30 is shown in Figs. 1 and 2 and viewed from the front. The left side of the central part is a slightly triangular shape recessed downward and the upper side is opened. The shallow support part 3 is extended to the left and right sides. (^ It can be attached and detached by inserting it into the water tank support groove of the ice making unit case B from the front side. The deeper part of the ice water tank 30 is located on the left bracket 10L side, and the entire part is formed than the left bracket 10L. A protruding water supply port 33. An overflow hole 34 is formed on the bottom portion of the shallow portion of the support portion 30 near the left bracket 10L side in the front-rear direction (see FIG. 6). An ice-making water tank 3 The front wall 30b formed by the front part extends upward to the position close to the lower edge of each partition 25, and the left and right side walls 30c can be inserted into the water tank support groove after removing the front part having the same height as the vertical wall 30b.

557347 A7 _______B7_ 五、發明説明(9 ) 高度(參見第6圖)。 如第1圖、第2圖以及第6圖所示,在左支架10L的下 側’在位於比前後方向的中間部靠後側並且比設置製冰水 箱30的供水口 33的部分靠左側的位置上設置排水倉37。該 排水倉37用螺釘固定在形成在左支架1〇L下部的延長部16 的下側的凸出部16a(參見第1圖)上,在設置在排水倉37的 底部上的排出口38上連接排水營39。該排水倉39的前端導 入到設置在貯冰庫72的底部的排水口 72a中。 如第1圖以及第6圖所示,在左支架i〇l的延長部16的 下面用螺釘固定的噴水泵45位於排水倉37的内側,噴水泵 45的泵部45a的吸入口 45b從排水倉37向前方凸出,與吸入 管46連接’吸入管46的另一端通過容易裝卸的管接頭46a 連接在製冰水箱30的供水口 33上。一端連接在泵部45a的吐 出口 45c上的供水管47通過在左支架10L上形成的2個增強 肋14a之間以及插通孔15進入到製冰部殼體b内,而另一端 連接在後述的喷水喷嘴4〇上。製冰水箱3〇的溢出孔34位於 排水倉37内的一部分在上下方向形成的通路37a的上方位 置。 噴水噴嘴40為上下一對合成樹脂成形品形成的扁平 形狀用起聲波粘接密閉連接,内部為相互連通的縱橫管 狀通路在其上面形成4行6列的24個噴出口 43。喷水喷嘴 〇的側形成有為清掃橫方向的各管狀通路的2個開口,各 開口用矽橡膠製成的塞子42密閉。該噴水噴嘴⑽從前側插 入到製冰部殼體⑽喷嘴支撐槽12内進行安裝,在形成在 5張尺度適用中國^^7^ (2Κ)Χ297公釐) (請先閲讀背面之注意事項再填寫本頁) 、可丨 :線丨 12 557347 A7 ______ _B7 _ P五、發明説明(1〇 ) 其中央部上側的供水口上連接供水管47的另一端。 位於製冰部殼體B内的上部的製冰室50,如第2圖所 不’疋在兩端由左右的各支架1〇]1、1〇R的上部所支撐的製 冰基板51上與噴水噴嘴4〇的各喷出口 43對應固定下側開口 的短圓筒狀的24個製冰格52。各製冰格52以及製冰基板5 由熱傳導性好的銅或者鋁金屬製成,在製冰基板51的上側 蛇行彎曲固定冷卻管53並通過各製冰格52的中心,冷卻管 53循壞供給來自機械室71内的冷凍機的冷媒,使得製冰格 5 2冷卻。 冰塊滑板60,如第1圖以及第2圖所示,縱方向並排的 多個細長滑道部件61的前後端以及中間部用連接部間 62a、62b、62c連接,前後部的下面各由i對橫方向的支撐 ㈣63連接成簧片狀,整體由合成樹脂-體形成。該冰塊 滑板60由各1對支撐腳片63彈性連接在2個滑板支撐筒以的 外周面上,從臨近噴水喷嘴4〇的上側向下傾斜配置在製冰 部设體B内,各滑道部件61之間的間隙排列喷水噴嘴4〇的 各噴出口 43,從各噴出口 43喷出的製冰水不會受到冰塊滑 板60的干擾。 在製冰運轉時,讓冷凍機運轉,冷卻各製冰格52,預 先灌滿到溢出孔34位置的製冰水箱3〇内的製冰水由喷水泵 45吸入,通過供水管47供給喷水噴嘴,從各喷出口對著 各製冰格52向上方喷出。所喷出的製冰水通過冰塊滑板6〇 的各滑道部件61之間喷向冷卻的各製冰格52内,其一部分 在其内面結冰,其餘的由重力返回劊製冰水箱3〇中,再次 一 丨丨 __ 本紙張尺度適财關家標準(CNS) A4祕(210X297公费)—----557347 A7 _______B7_ V. Description of the invention (9) Height (see Figure 6). As shown in FIG. 1, FIG. 2, and FIG. 6, the lower side of the left bracket 10L is located on the rear side from the middle portion in the front-rear direction and on the left side from the portion where the water supply port 33 of the ice-making water tank 30 is provided. A drainage chamber 37 is provided at the position. The drain chamber 37 is fixed to the protruding portion 16 a (see FIG. 1) on the lower side of the extension portion 16 formed at the lower portion of the left bracket 10L with screws, and to the drain port 38 provided on the bottom of the drain chamber 37. Connect Drainage Camp 39. The front end of the drain tank 39 is guided into a drain port 72a provided at the bottom of the ice storage 72. As shown in FIG. 1 and FIG. 6, a water jet pump 45 fixed with a screw under the extension 16 of the left bracket 101 is located inside the drain chamber 37, and the suction port 45 b of the pump portion 45 a of the water jet pump 45 is drained from The bin 37 projects forward, and is connected to the suction pipe 46. The other end of the suction pipe 46 is connected to the water supply port 33 of the ice-making water tank 30 through a pipe joint 46a that can be easily attached and detached. The water supply pipe 47 connected to the outlet 45c of the pump portion 45a at one end enters the ice-making portion housing b through the two reinforcing ribs 14a formed in the left bracket 10L and the insertion hole 15 and the other end is connected to Water spray nozzle 40 described later. The overflow hole 34 of the ice-making water tank 30 is located in the upper direction of a passage 37a formed in a part of the drain chamber 37 in the vertical direction. The water spray nozzle 40 is a flat shape formed by a pair of upper and lower synthetic resin molded products connected by sonic bonding, and the inside is a vertical and horizontal tube-shaped passage that communicates with each other, and 24 ejection ports 43 in 4 rows and 6 columns are formed on the upper surface. Two openings for cleaning each of the tubular passages in the horizontal direction are formed on the side of the water spray nozzle 〇, and each opening is closed with a plug 42 made of silicone rubber. The water spray nozzle ⑽ is inserted into the ice making unit housing ⑽ nozzle support groove 12 from the front side for installation. It is formed in 5 sheets and applies to China ^^ 7 ^ (2Κ) × 297 mm) (Please read the precautions on the back before (Fill in this page), you can: line 丨 12 557347 A7 ______ _B7 _ P V. Description of the invention (1) The water supply port on the upper side of the central part is connected to the other end of the water supply pipe 47. The ice-making chamber 50 located in the upper part of the ice-making part casing B is placed on the ice-making substrate 51 supported by the upper portions of the left and right brackets 10 and 1 and 10R at both ends as shown in FIG. 2. Corresponding to each of the spraying ports 43 of the water spraying nozzles 40, the 24 ice-making compartments 52 having a short cylindrical shape with the lower openings fixed thereto are fixed. Each ice tray 52 and the ice tray 5 are made of copper or aluminum with good thermal conductivity. The cooling pipe 53 is bent and fixed on the upper side of the ice tray 51 and passes through the center of each ice tray 52. The cooling pipe 53 is broken. The refrigerant from the refrigerator in the machine room 71 is supplied to cool the ice making compartment 52. As shown in FIGS. 1 and 2, the ice skateboard 60 has a plurality of elongated slide members 61 arranged side by side in the longitudinal direction. The front and rear ends and the middle portion are connected by connecting portions 62a, 62b, and 62c. The pair of lateral support cymbals 63 are connected in a reed shape, and the entire body is formed of a synthetic resin body. The ice skateboard 60 is elastically connected to the outer peripheral surface of the two skateboard support cylinders by a pair of supporting leg pieces 63, and is arranged slanting downward from the upper side adjacent to the water spray nozzle 40 in the ice making unit body B. The ejection outlets 43 of the water spray nozzles 40 are arranged in a gap between the channel members 61, and the ice-making water ejected from each ejection outlet 43 is not interfered by the ice slide 60. During the ice-making operation, the freezer is operated to cool each ice-making bin 52, and the ice-making water in the ice-making water tank 30 filled in advance to the overflow hole 34 is sucked in by the water jet pump 45 and supplied through the water supply pipe 47. The nozzles are ejected upward from the ejection ports toward the ice making trays 52. The sprayed ice-making water is sprayed into the cooled ice-making compartments 52 between the slide members 61 of the ice skateboard 60, and part of the ice is frozen on the inside, and the rest is returned to the ice-making water tank 3 by gravity. 〇, once again 丨 丨 __ The paper size of the financial standards (CNS) A4 secret (210X297 public expense) ------

、1T— (請先閲讀背面之注意事項再填寫本頁) 線_ 13 557347 A7 B7 11 五、發明説明( (請先閲讀背面之注意事項再填寫本頁) 由噴水泵45供給噴水噴嘴40,由於反復向製冰袼52的内面 喷射,隨著時間經過,各製冰格52内的結冰隨之增多,製 冰水箱30内的製冰水也隨之降低。當製冰格%内大致由冰 充滿時,停止製冰運轉,加果在冷卻管53中通入熱氣,將 加熱製冰室50,各製冰格52與其内部製成的冰之間的邊界 部開始溶化,各製冰格52内的冰成為短圓柱形的冰塊落入 到冰塊滑板60上,向隔板25的斜下方滑落。自動按壓並打 開由於重力而自然垂下關閉的隔板25,從製冰部殼體B内 落入到貯冰庫72内。 奵丨 :線· 然後,通過供水管(圖中未晝出)向製冰水箱30内供給 指定量的製冰水,再次開動冷凍機,冷卻製冰室5〇,重複 進行製冰運行。供給製冰水時,如果製冰水箱3〇内的製冰 水超過了溢出孔34,則多餘的製冰水從溢出口 34排出到排 水倉37内,通過排水倉39排出到外部。又,在製冰運行中, 各隔板25由於重力自然垂下將製冰部殼體B的開口以關 閉,在製冰部殼體B内飛散的製冰水不會進入貯冰庫72 内,因此,不會出現積存在貯冰庫72内的冰塊c溶化,或 者由於再結冰使得冰塊C連上,或者在製冰運行途中製冰 水不足的情況發生。 依據該實施方案,由於分割成多個的各隔板25通過其 上部的連接部25b可自由裝卸地掛接在前壁17的下緣部的 軸支揮棒18上,容易從製冰部殼體B取出各隔板25,而且 也容易安裝上。因A,容易對設宣在製冰部殼體B内的喷 水喷嘴40或者冰塊滑板60等進行檢修維護。 14 557347 A7 五、發明説明(12 此外,為了對噴水喷嘴40或者冰塊滑板60等進行檢修 維護,並不一定要將所有的隔板25取下。即,只需取下ι 個隔板25,其他隔板25如第9圖所示,扇狀凸部26從凹部19a 退出“起到各槽19之間的前壁17進入到連接部25b的開口 部25c的範圍的角度,向取下的隔板25側模向移動其他各隔 板25,讓連接部25b的前端與前壁17擋接,只要讓隔板25 能反抗重力而保持該角度即可。這樣,各隔板25處於大開 的狀悲,即使不取下,也可以對喷水喷嘴4〇的喷水狀態和 冰塊滑板60及其地的清洗等,在製冰機構部A内部進行檢 修維護。 在該實施方案中,隔板25被分割成和製冰基板51的製 冰格52的列數相同的6個,又,各隔板25的連接部25b由圓 棒狀的軸支撐捧1 8所支撑,其轉動很輕,只需1個冰塊就可 以確切打開,不會在冰塊滑板60上殘留冰塊。因此,不會 出現在製冰運行中從喷水喷嘴4〇喷出的製冰水將冰塊滑板 6〇上殘留的冰塊C溶化而浪費,或者製冰水的喷出由於受 到該冰塊C的干擾而對製冰進行產生障礙的情況。 又,各隔板25的連接25b的開口部25c的寬度比圓棒狀 的軸支撐棒1 8的外徑要小,通過讓各連接部2 5 b彈性變形一 時讓開口部25c張開,從而連接部25b的圓弧狀内面可自由 轉動地掛接在軸支撐棒18的外周面上,因此,只要不對各 連接部25b再次施加能讓其彈性變形程度的力,隔板25不容 易從軸支撐棒18上脫落,這樣,由於吊在軸支撐棒18上的 各隔板25不容易從軸支撐棒18上脫落,可以提高各隔板25 中國國轉準(CNS) A4规格(210X297公釐) 15 (請先閲讀背面之注意事項再填寫本頁) 幻- 五、發明説明(13 ) 的動作的可靠性。 如果不設置如上述實施方案那樣的扇狀凸部26以及 可插通的凹部19a ’如第1〇圖以及㈣圖所示的隔板i,連 接。Ha和上述實施方案相反方向,即連接部㈣開口部^ 可以向製冰部殻體⑽内側安裝。這樣,由在滑道部件6i 上沿箭頭E1方向滑動的冰g施加在隔板ι上箭頭n方向 上的衝擊力,讓隔極!向箭頭E2所示方向打開,同時連接 部la受到箭頭F3所示的衝擊力。該衝擊力F3打開開口部沘 讓連接部la從軸支撐棒财脫落的方向作用,從滑道部件 61上滑落的冰塊C有時可能會讓隔板1從軸支撐棒18上脫 '又,有時也可能發生如第11圖所示那樣錯誤的方式將 隔板1取下’這時從滑道部件61上滑落的冰塊C跑到隔板1 上,而不從開口 Ba落入到貯冰庫72内,必須取下隔板丨重 新安裝。 因此,在上述實施方案中,各隔板25,如第4圖所示, 一定是讓開口部25c朝向製冰部殼體B的外側,可自由轉動 地吊裝在軸支撐棒18上,而不會出現如第1〇圖以及第u圖 所不那樣相反方向地安裝在前壁17上。在該狀態下,由在 /月道部件61上沿箭頭E1方向滑動的冰塊c施加在隔板25上 箭頭F1方向上的衝擊力,讓隔板25向箭頭E2所示方向打 開’同時連接部25b受到箭頭?2所示的衝擊力。該衝擊力 F2由於是作用在和c形截面形狀的連接部251^的開口部25c 相反側上’這樣的力不會讓開口部25c打開而使得隔板25 從軸支撐棒18上脫落。因此,可以提高各隔板25的動作的 557347 14 五、發明説明( 可靠性。 (請先閲讀背面之注意事項再填寫本頁) 在上述實施方案中,各隔板25的平板部25a相互鄰接的 側緣27的間隙,如第3圖以及第5圖中的實線所示,在長軸 方向和厚度方向為非常窄小的寬度,在這樣的隔板25中, 由於進入到各側緣27之間的間隙的製冰水的表面張力引起 鄰接的隔板25之間相互粘接,使得各隔板25的動作加重, 出現可能讓少數冰塊殘留在冰塊滑板6〇上的情況。 為了解決這樣的問題,如第3圖中的2點虛線所示,在 相互鄰近的各隔板25的平板部25a的相互鄰近側緣27中的 至少一方上設置少量(圖中的例中為2個)的凸部29a、29b, 在這些凸部29a、29b之外的部分上設置一定幅度μ的切口 28a、28b、28c,增大鄰近側緣27之間的間隙。又,如第5 圖中的2點虛線27a所示,在相互鄰近側緣27的至少一方上 設置斜面,減少側緣前端的厚度。或者在相互鄰近側緣27 的至少一方上設置設置少量凸部29a、29b減少其前端部的 厚度。 如果在平板部25a的側緣27上設置凸部29a、29b,由於 鄰近測緣27之間的表面張力而進入的製冰水將減少凸部 29a、29b的部分’從而減少由於所進入的製冰水的表面張 力引起的相鄰隔板25之間的粘接力,每個隔板25的動作不 會過度加重,只用1個冰塊C就可以打開各個隔板25。因 此,冰塊不會殘留在冰塊滑板60上。各凸部29a、29b的長 度N卜N2以及各切口 28a、28b、28c的長度U、L2、L3以 及寬度Μ,可以在考慮由於表面張力引起的各隔板25的 17 本紙張尺度適用中國國家標準(CNS) Α4規格(210X297公釐) 557347 A7 __ B7_______ 五、發明説明(15 ) 米占接力,以及由於設置了切口 28a、28b、28c而增大了製冰 水向貯冰庫72的洩漏的情況進行設定即可。 又’在平板部25a的侧緣27上設置斜面27a減少側緣27 的前端的厚度,相鄰側緣27之間由於表面張力進入的製冰 水的量隨前端的厚度減少而減少,從而減少由表面張力引 起的相鄰隔板25之間的粘接力,因此每個隔板25的動作不 會過度加重,冰塊不會殘留在冰塊滑板6〇上。 此外’在第3圖中,凸部29a、29b以及斜面27a,雖然 只是在相鄰隔板25的平板部25a的相鄰側緣27中的1組中用 2點虛線標記’這應在所有相互相鄰側緣上設置。 依據本發明’分割成多個的各隔板由於其上部可自由 裝卸的掛接在製冰部殼體上,各隔板容易從製冰部殼體上 取下,並且安裝上。因此,容易對設置了喷水喷嘴或者冰 塊滑板等的製冰部殼體内進行檢修維護。 前壁的下緣上一體連接圓棒狀的軸支撐棒並且形成 槽’多個的隔板通過具有圓弧狀内面的連接部可自由轉動 地吊裝’這樣,隔叛的連接部由圓棒狀的軸支撐棒所支撐 引起可輕易轉動,由於分割成多個,每一個隔板的重量減 輕,用很少的冰塊就可以打開,因此,冰塊不會殘留在冰 塊滑板上。 又’各連接部圓弧狀内面兩端之間的開口部的寬度比 圓棒狀的軸支撐棒的外徑要小,各連接部彈性變形後增大 了開口部的寬度,因而可以自由轉動地連接在軸支撐棒 上,由於吊裝在軸支撐棒上的各隔板不容易從軸支撐棒上 本紙張尺度適用中國國家標準(CNS) A4規格(210X297公楚·) (請先閲讀背面之注意事項再填寫本頁) 奉 訂· :線丨 18 五、發明説明(16 ) α洛’可以提高各隔板的動作的可靠性。 又,各連接部,在各隔板自秋 部_向製冰部殼體的外側而連:支, 樣,在冰塊滑板上滑動的冰塊衝 2棒上’這 墼六,冼m丄 掌丨同板的内側時的楱 在C形截而形狀的連接 按壓軸支標棒,這樣的衝擊力不合j ;相反側上 隔板從輛支撐棒上脫落省,;以:開使得 板的動作的可#性。 了 步提高各隔 板上在連接部的橫方向上從中心向外側 狀:上形成扇狀凸冑’在插入連接部的槽上與扇 ^ :對應的位置上形成可以插入該扇狀凸部的凹 邛坆樣,不會出現將隔板的連接部以相反方向錯誤 地掛接在Μ料上,而使得開口部朝向製冰部殼體 的内側安叙在軸支撐棒上的情況,可以更明顯地達到 前述的效果。 又,相互相鄰各隔板的各平板部的相鄰側緣中的至少 方上设置至少1個凸部,返樣,該凸部之外的部分將增大 相鄰平板部之間的間隙而減少由於相鄰側緣之間的表面張 力引起進入的製冰水的量。這樣,減少由進入的製冰水的 表面張力引起的相鄰隔板之間的粘接力,每個隔板的動作 不會過度加重,冰塊不會殘留在冰塊滑板上。 又,通過減少相互相鄰各隔板的各平板部的相鄰側緣 中的至少一方的前端厚度,可以減少與側緣厚度減少部分 相當的由於相鄰側緣之間的表面張力引起進入的製冰水的 19 本紙張尺度適用中國國家標準(CNS) Α4規格(21〇χ297公釐) 557347 A7 B7 五、發明説明(17 ) 量。因此,減少由進入的製冰水的表面張力引起的相鄰隔 板之間的钻接力,每個隔板的動作不會過度加重,冰塊不 會殘留在冰塊滑板上。 20 (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標準(CNS) A4規格(210X297公釐) 557347 A7 五、發明説明(18 ) 10L、10R…支架 17…前壁 18…軸支撐棒 19···切口 19a·"凹部 2 5…甲板 25a···平極部 25b···連接部 25c···開放部 26…扇狀凸部 2 7…側緣 元件標號對照 29a、29b···凸部 40···喷水喷嘴 43···喷出口 50…製冰室 52…製冰格 53…冷卻管 60…冰塊滑板 A…製冰機構部 B…製冰部殼體 Ba…開口 C…冰塊 (請先閱讀背面之注意事項再填寫本頁) 本紙張尺度適用中國國家標準(CNS) A4規格(210X297公釐) 21、 1T— (Please read the precautions on the back before filling this page) Line _ 13 557347 A7 B7 11 V. Description of the invention ((Please read the precautions on the back before filling this page) The water spray nozzle 40 is supplied by the water spray pump 45, Since the spray is repeatedly sprayed on the inner surface of the ice making bowl 52, as time passes, the icing in each ice making tray 52 increases, and the ice making water in the ice making water tank 30 also decreases. When the ice making% is roughly When it is full of ice, stop the ice making operation, add hot air into the cooling pipe 53 to heat the ice making chamber 50, and the boundary between the ice making compartment 52 and the ice made inside it starts to melt. The ice in the compartment 52 becomes a short cylindrical ice cube and falls on the ice slide 60 and slides diagonally below the partition plate 25. The partition plate 25 which naturally hangs down due to gravity is automatically pressed and opened. The body B falls into the ice storage 72. 奵 丨: line · Then, a specified amount of ice-making water is supplied into the ice-making water tank 30 through a water supply pipe (not shown in the figure), and the refrigerator is operated again to cool the product. Ice chamber 50, repeat the ice making operation. When supplying ice water, if the ice water The ice-making water in 30 exceeds the overflow hole 34, and the excess ice-making water is discharged from the overflow opening 34 into the drainage bin 37 and discharged to the outside through the drainage bin 39. Also, during the ice-making operation, each partition 25 Since gravity naturally suspends the opening of the ice-making part casing B to close, the ice-making water scattered in the ice-making part casing B will not enter the ice storage 72, so no accumulation in the ice storage 72 will occur. The ice cube c melts, or the ice cube C is connected due to re-freezing, or the ice-making water is insufficient during the ice-making operation. According to this embodiment, since each of the partition plates 25 divided into a plurality passes through the upper portion thereof The connecting portion 25b is detachably attached to the shaft swing rod 18 at the lower edge portion of the front wall 17, and each partition plate 25 is easily removed from the ice-making unit case B, and it is also easy to install. Water spray nozzle 40 or ice block slide 60 declared in the ice making unit housing B is inspected and maintained. 14 557347 A7 V. Description of the invention (12 In addition, in order to perform maintenance on water spray nozzle 40 or ice block slide 60, etc. , It is not necessary to remove all the partitions 25. That is, just take ι partitions 25, and other partitions 25, as shown in FIG. 9, the fan-shaped convex portion 26 exits from the recessed portion 19a "to the extent that the front wall 17 between the grooves 19 enters the opening 25c of the connecting portion 25b Angle, the other partition plates 25 are moved toward the side of the removed partition plate 25, and the front end of the connecting portion 25b is blocked with the front wall 17, as long as the partition plate 25 can maintain the angle against gravity. The partition plate 25 is in a wide open state, and even if it is not removed, it is possible to perform maintenance and maintenance on the ice making mechanism section A for the water spray state of the water spray nozzle 40 and the cleaning of the ice slide 60 and its ground. In this embodiment, the partition plate 25 is divided into six having the same number of rows as the ice making trays 52 of the ice-making substrate 51, and the connecting portions 25b of each partition plate 25 are supported by a round rod-shaped shaft support bracket 18. Its rotation is very light, it can be opened exactly with only one ice cube, and no ice cubes will remain on the ice cube slide 60. Therefore, the ice-making water sprayed from the water spray nozzle 40 during the ice-making operation does not occur and the remaining ice cubes C on the ice-block slide 60 are melted and wasted, or the spray of ice-making water is received by the ice cubes. C interferes with ice production. In addition, the width of the opening 25c of the connection 25b of each partition plate 25 is smaller than the outer diameter of the round rod-shaped shaft support rod 18, and each of the connection portions 2 5b is elastically deformed to temporarily open the opening 25c, so that The arc-shaped inner surface of the connecting portion 25b is rotatably attached to the outer peripheral surface of the shaft support rod 18. Therefore, as long as the connecting portion 25b is not reapplied with a force capable of elastically deforming it, the partition plate 25 is not easily driven from the shaft. The support rods 18 fall off. In this way, since the partition plates 25 suspended from the shaft support rods 18 do not easily fall off the shaft support rods 18, the partition plates 25 can be improved. China National Standards (CNS) A4 specifications (210X297 mm) ) 15 (Please read the notes on the back before filling out this page) Magic-V. Invention Description (13) The reliability of the action. If the fan-shaped convex portion 26 and the insertable concave portion 19a 'are not provided as in the above-mentioned embodiment, they are connected as shown in Figs. Ha is opposite to the above embodiment, that is, the connection part ㈣ opening part ^ can be installed inside the ice-making part case ⑽. In this way, the impact force of the ice g sliding on the slide member 6i in the direction of the arrow E1 is applied to the partition n in the direction of the arrow n, so that the pole is separated! Opening in the direction shown by the arrow E2, at the same time, the connecting portion la receives an impact force shown by the arrow F3. The impact force F3 opens the opening 沘 and allows the connection portion 1a to fall from the direction of the shaft support rod. The ice C falling from the slide member 61 may sometimes cause the partition plate 1 to come off the shaft support rod 18. Sometimes, it may happen that the partition plate 1 is removed in the wrong way as shown in FIG. 11 'At this time, the ice cube C falling from the slide member 61 runs to the partition plate 1 without falling from the opening Ba to the In the ice storage 72, the partition 丨 must be removed and reinstalled. Therefore, in the above-mentioned embodiment, as shown in FIG. 4, each partition plate 25 must have the opening portion 25 c facing the outside of the ice-making portion housing B, and can be hung on the shaft support rod 18 without being rotatable. Mounting on the front wall 17 in opposite directions as shown in Figures 10 and u may occur. In this state, an impact force in the direction of arrow F1 on the partition plate 25 is caused by the ice cube c sliding on the / monthly path member 61 in the direction of the arrow E1, and the partition plate 25 is opened in the direction shown by the arrow E2. Does the part 25b receive an arrow? Impact force shown in 2. The impact force F2 acts on the side opposite to the opening 25c of the connection portion 251 ^ of the c-shaped cross-section. Such a force will not open the opening 25c and cause the partition plate 25 to fall off the shaft support rod 18. Therefore, the operation of each partition 25 can be improved. 557347 14 V. Description of the invention (Reliability. (Please read the precautions on the back before filling this page) In the above embodiment, the flat plate portions 25a of each partition 25 are adjacent to each other As shown by the solid lines in FIGS. 3 and 5, the gap of the side edge 27 is very narrow in the long axis direction and the thickness direction. In such a partition plate 25, it enters into each side edge. The surface tension of the ice-making water in the gap between 27 causes the adjacent partitions 25 to adhere to each other, so that the motion of each partition 25 is aggravated, and there may be a case where a small amount of ice remains on the ice slide 60. In order to solve such a problem, as shown by a two-dot chain line in FIG. 3, a small amount is provided on at least one of the mutually adjacent side edges 27 of the flat plate portions 25a of the partition plates 25 adjacent to each other (the example in the figure is: 2) convex portions 29a, 29b, and cutouts 28a, 28b, 28c with a certain width μ are provided on the portions other than these convex portions 29a, 29b to increase the gap between the adjacent side edges 27. Also, as the fifth As shown by two dotted lines 27a in the figure, at least An inclined surface is provided on the side to reduce the thickness of the front end of the side edge. Or a small number of convex portions 29a and 29b are provided on at least one side of the side edge 27 adjacent to each other to reduce the thickness of the front end portion. If a convex portion is provided on the side edge 27 of the flat plate portion 25a Portions 29a, 29b, the ice-making water entering due to the surface tension between the adjacent measuring edges 27 will reduce the portions of the convex portions 29a, 29b, thereby reducing the adjacent partition 25 caused by the surface tension of the entering ice-making water The adhesion force between the partitions 25 will not be excessively increased, and only one ice cube C can be used to open each partition 25. Therefore, the ice cubes will not remain on the ice cube slide 60. Each convex The lengths Nb and N2 of the sections 29a and 29b, and the lengths U, L2, L3, and width M of the cutouts 28a, 28b, and 28c can be taken into consideration. CNS) Α4 specification (210X297 mm) 557347 A7 __ B7_______ 5. Description of the invention (15) The meter takes the relay, and the leakage of ice-making water to the ice storage 72 is increased due to the notches 28a, 28b, and 28c. Just set it up. A slope 27a is provided on the side edge 27 of the flat plate portion 25a to reduce the thickness of the front end of the side edge 27. The amount of ice-making water that enters due to surface tension between adjacent side edges 27 decreases as the thickness of the front end decreases, thereby reducing surface tension. Due to the adhesive force between adjacent partitions 25, the action of each partition 25 will not be excessively increased, and ice cubes will not remain on the ice cube slide 60. In addition, in the third figure, the convex portion 29a, 29b, and the inclined surface 27a are marked with two dotted lines in one group among the adjacent side edges 27 of the flat plate portion 25a of the adjacent partition plate 25, which should be provided on all mutually adjacent side edges. According to the present invention, each partition partitioned into a plurality of partitions can be detachably attached to the ice-making section casing, and each partition can be easily removed from the ice-making section casing and installed. Therefore, it is easy to perform maintenance on the inside of the ice making unit housing provided with a water spray nozzle or an ice skateboard. A round rod-shaped shaft support rod is integrally connected to the lower edge of the front wall and a groove is formed. 'A plurality of partition plates can be hoisted freely through a connecting portion having an arc-shaped inner surface'. The shaft support rod is supported to cause easy rotation. Because it is divided into multiple pieces, the weight of each partition is reduced and it can be opened with very few ice cubes. Therefore, ice cubes will not remain on the ice cube slide. Also, the width of the opening between the ends of the arc-shaped inner surface of each connecting portion is smaller than the outer diameter of the rod-shaped shaft support rod. After the connecting portion is elastically deformed, the width of the opening is increased, so that it can rotate freely. The ground is connected to the shaft support rod. It is not easy to lift the partitions on the shaft support rod from the shaft support rod. The paper size is applicable to China National Standard (CNS) A4 specification (210X297). (Please read the back Please fill in this page again for your attention.) Bund ·: Line 丨 18 V. Description of the invention (16) α Luo 'can improve the reliability of the operation of each partition. In addition, each connection part is connected from the autumn part to the outside of the ice-making part housing on each partition: branches, so that the ice cubes sliding on the ice skateboards are punched on 2 sticks. This is six, 冼 m 丄When the inner side of the same plate is pressed on the C-shaped truncated shape, the shaft support rod is pressed, so that the impact force is not equal to j; the partition on the opposite side falls off from the support rod of the vehicle; Actionability. Steps are taken to increase the shape of each partition in the lateral direction of the connecting portion from the center to the outside: a fan-shaped protrusion is formed on the slot of the connecting portion corresponding to the fan ^: The fan-shaped protrusion is formed at a position corresponding to the fan ^: In the concave shape, the connection part of the partition plate is not mistakenly hooked on the M material in the opposite direction, and the opening part is set on the shaft support rod toward the inside of the ice-making part housing. The aforementioned effect is achieved more clearly. In addition, at least one convex portion is provided on at least one of the adjacent side edges of the flat plate portions adjacent to each other. In this case, the portion other than the convex portion will increase the gap between the adjacent flat plate portions. And reduce the amount of ice-making water caused by the surface tension between adjacent side edges. In this way, the adhesion between adjacent partitions caused by the surface tension of the incoming ice-making water is reduced, and the motion of each partition will not be excessively increased, and ice cubes will not remain on the ice cube slide. In addition, by reducing the thickness of the front end of at least one of the adjacent side edges of each flat plate portion of each of the partition plates adjacent to each other, it is possible to reduce the thickness of the portion corresponding to the reduced thickness of the side edges due to the surface tension between the adjacent side edges. 19 paper sizes for ice-making water are in accordance with Chinese National Standard (CNS) A4 specifications (21 × 297 mm) 557347 A7 B7 V. Description of the invention (17). Therefore, the drilling force between adjacent partitions caused by the surface tension of the incoming ice-making water is reduced, and the movement of each partition will not be excessively increased, and ice cubes will not remain on the ice cube slide. 20 (Please read the precautions on the back before filling this page) This paper size applies to Chinese National Standard (CNS) A4 (210X297 mm) 557347 A7 V. Description of the invention (18) 10L, 10R ... bracket 17 ... front wall 18 … Shaft support rod 19 ·· cutout 19a · " concave part 2 5 ... deck 25a ·· flat pole part 25b ·· connecting part 25c ·· opening part 26 ... fan-shaped convex part 2 7 ... side edge element number Contrast 29a, 29b ... Projection 40 ... Water spray nozzle 43 ... Ejection port 50 ... Ice making chamber 52 ... Ice making tray 53 ... Cooling pipe 60 ... Ice slide A ... Ice making mechanism part B ... Shell of ice part Ba ... Opening C ... Ice cube (please read the precautions on the back before filling this page) This paper size is applicable to China National Standard (CNS) A4 (210X297 mm) 21

Claims (1)

557347 A B c D a、申請專利範圍 • 一種自動製冰機,在包括、由前壁下側形成有開口的 相狀製冰部殼體,安裝在該製冰部殼體内下部具有向 上方噴射製冰水的喷出口的喷射喷嘴,安裝在所述製 冰部殼體内上部的向下開口的具有接受從所述噴出 口向上噴出的製冰水的多個製冰格同時由冷卻管冷 卻的製冰室,在所述冰部殼體内的上下方向中間部傾 斟安裝的接受從所述製冰格落下的冰塊並傾斜向下 方滑動並通過所述開口從所述製冰部殼體將冰塊送 出的冰塊滑板、可自由轉動地吊裝在所述製冰部殼體 内並可自由開閉的關閉所述開口的隔板、所構成的製 冰機構部的自動製冰機中,其特徵是所述隔板被分割 成多個同時所分割的各隔板的上部可裝卸地卡接在 所述製冰部殼體上。 2 ·如申请專利範圍第1項所述的自動製冰機,其特徵是 所述前壁下緣上一體連接橫方向延伸的圓棒狀的軸 支撐棒,所述多個各隔板由平板部、與其上緣一體形 成的具有可自由轉動地卡接在所述軸支撐棒上的圓 弧狀内面的C形截面形狀並在橫方向延伸的連接部所 構成,通過將所述連接部卡接在所述軸支撐棒上而可 自由轉動地吊接所述各隔板。 3. 如申請專利範圍第2項所述的自動製冰機,其特徵是 所述各連接部的圓弧狀内面兩端之間的開口部的寬 度比所述軸支撐棒的外徑要小,通過讓所述各連接部 彈性變形擴大所述開口部的寬度而可自由轉動地卡 本紙張尺度適用中國國家標準(CNS) A4·規格(210X297公釐) 22 A、申請專利範圍 接在所述軸支撐棒上。 4·如申請專利範圍第2或3項所述的自動製冰機,其特徵 是在所述各隔板自然吊接的狀態下讓所述開口部朝 向所述製冰部殼體的外側商將所述各連接部卡接在 所述軸支撐棒上。 5·如申請專利範圍第4項所述的自動製冰機,其特徵是 在所述前壁下緣上在和所述軸支撐棒之間與所述各 隔板對應的位置上分別形成可插入所述連接部的 槽,在所述各隔板上在所述連接部的橫方向上形成從 中心向外的位置的外周面上沿圓周方向延伸的扇狀 凸部,在所述槽上與所述扇狀凸部對應的位置上形成 可插入該扇狀凸部的凹部。 6·如申請專利範圍第2項所述的自動製冰機,其特徵是 相互相鄰各所述隔板的各平板部的相互相鄰側緣中 的至少一方中設置至少1個凸部。 7·如申請專利範圍第2項所述的自動製冰機,其特徵是 讓相互相鄰各所述隔板的各平板部的相互相鄰側緣 中的至少一方的前端的厚度減少。557347 AB c D a. Patent application scope • An automatic ice maker includes a phase-shaped ice-making part housing including an opening formed on the lower side of the front wall, and the upper part of the inside of the ice-making part housing has an upward spray. A spray nozzle of an ice-making water ejection outlet, a plurality of ice-making compartments having downward openings installed in the upper part of the inside of the ice-making part housing and having ice-making water ejected upwardly from the ejection outlet are simultaneously cooled by a cooling pipe An ice-making chamber, which is installed in the middle of the ice part casing in an up-down direction to receive and drop the ice cubes falling from the ice-making compartment and slides downward obliquely through the opening from the ice-making part shell The ice skateboard that sends the ice cubes is rotatably hoisted in the housing of the ice making unit and can be opened and closed to close the opening. The automatic ice maker of the ice making mechanism unit is formed. It is characterized in that the partition is divided into a plurality of partitions which are divided at the same time, and the upper part of the partition is removably clamped to the ice-making part casing. 2 · The automatic ice maker according to item 1 of the scope of patent application, wherein the lower edge of the front wall is integrally connected with a horizontal rod-shaped shaft support rod extending in the horizontal direction, and the plurality of partition plates are formed by flat plates. It is formed by a connecting portion integrally formed with its upper edge and having a C-shaped cross-sectional shape with an arc-shaped inner surface rotatably engaged with the shaft support rod and extending in the horizontal direction. The partition plates are connected to the shaft support rods to rotatably suspend the partition plates. 3. The automatic ice maker according to item 2 of the scope of patent application, wherein the width of the opening between the two ends of the arc-shaped inner surface of each connecting portion is smaller than the outer diameter of the shaft support rod The size of the paper can be freely rotated by expanding the width of the openings by elastically deforming the respective connecting portions. The paper size is in accordance with Chinese National Standard (CNS) A4 · Specifications (210X297 mm). Said shaft support rod. 4. The automatic ice maker according to item 2 or 3 of the scope of patent application, characterized in that the opening part is directed toward the outer side of the housing of the ice making part in a state where the partition plates are naturally hung. The connection parts are clamped on the shaft support rod. 5. The automatic ice maker according to item 4 of the scope of application for a patent, characterized in that the lower edge of the front wall is respectively formed on the lower edge of the front wall at positions corresponding to the partitions between the shaft support rod and the shaft support rod. A slot-shaped projection extending in the circumferential direction on the outer peripheral surface of the connecting portion from the center in the lateral direction of the connecting portion is formed in the groove of the connecting portion, and is formed in the groove on the groove. A recess corresponding to the fan-shaped convex portion is formed at a position corresponding to the fan-shaped convex portion. 6. The automatic ice maker according to item 2 of the scope of patent application, characterized in that at least one convex portion is provided on at least one of mutually adjacent side edges of the flat plate portions of each of the partition plates adjacent to each other. 7. The automatic ice maker according to item 2 of the scope of patent application, wherein the thickness of at least one of the ends of the mutually adjacent side edges of the flat plate portions of each of the partition plates is reduced.
TW91116887A 2001-01-31 2002-07-29 Automatic ice making machine TW557347B (en)

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JP2001023647A JP4598169B2 (en) 2001-01-31 2001-01-31 Automatic ice machine

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Publication number Priority date Publication date Assignee Title
CN110513933A (en) * 2019-08-05 2019-11-29 浙江久景制冷设备有限公司 A kind of fountain ice cube ice machine

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Publication number Priority date Publication date Assignee Title
US7444828B2 (en) 2005-11-30 2008-11-04 Hoshizaki Denki Kabushiki Kaisha Ice discharging structure of ice making mechanism
CN109642764B (en) * 2016-07-15 2021-03-30 真实制造有限公司 Ice maker and ice discharging device for vertical jet type ice maker
KR102338299B1 (en) * 2020-04-29 2021-12-13 주식회사 스타리온 ice maker
CN114747913B (en) * 2022-03-20 2023-04-07 潍坊科技学院 Sculpture art is with intelligent show table platform

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JPS6086876U (en) * 1983-11-18 1985-06-14 ダイキン工業株式会社 ice machine
JPS60111863A (en) * 1983-11-18 1985-06-18 ダイキン工業株式会社 Ice machine
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JP2003014348A (en) * 2001-06-28 2003-01-15 Hoshizaki Electric Co Ltd Open cell type ice making machine

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Publication number Priority date Publication date Assignee Title
CN110513933A (en) * 2019-08-05 2019-11-29 浙江久景制冷设备有限公司 A kind of fountain ice cube ice machine

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EP1400768B1 (en) 2008-06-18
EP1400768A4 (en) 2007-06-06
EP1400768A1 (en) 2004-03-24
WO2002061352A1 (en) 2002-08-08
JP4598169B2 (en) 2010-12-15
JP2002228311A (en) 2002-08-14

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