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    • 3. 发明专利
    • Ice dispenser
    • ICE分配器
    • JP2008014539A
    • 2008-01-24
    • JP2006184491
    • 2006-07-04
    • Hoshizaki Electric Co Ltdホシザキ電機株式会社
    • YAMAMOTO JIRONOJIRI MOTOKIKAWACHI MOTOHIROTAKAGI TOSHIKATSUTASHIRO HIDEYUKIHIRANO YUJI
    • F25C5/02F25C5/16F25C5/18
    • PROBLEM TO BE SOLVED: To provide an ice dispenser capable of increasing an ice storage amount in an ice storage.
      SOLUTION: An agitator 12 is disposed inside of the ice storage 3. The rotating direction of the agitator 12 is switchable and its rotating speed is variable. An ice discharging portion 4 communicated with the inside of the ice storage is formed on a side wall 10 of the ice storage 3 at a position symmetrical to an ice making portion 2 with respect to a rotating shaft 13. The ice discharging portion 4 comprises an ice lead-out passage 23 and an ice discharging port 25. The ice lead-out passage 23 extends in the tangential direction of a side wall 10 of the ice storage 3, and communicated with the inside of the ice storage 3 through an opening portion 17 formed on a lower part of the side wall 10 of the ice storage 3. The ice discharging port 25 is communicated with the ice lead-out passage 23, and has a discharge opening 25a directing downward. A connecting portion of the ice lead-out passage 23 and the ice discharging port 25 is provided with an opening and closing cover 27 mounted by a hinge to openably and closably cover the ice lead-out passage 23.
      COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:提供一种能够增加冰储存器中的储冰量的冰分配器。 解决方案:搅拌器12设置在冰储存器3的内部。搅拌器12的旋转方向是可切换的并且其转速是可变的。 与储冰部3的侧壁10相对于旋转轴13相对于制冰部2对称的位置形成有与冰存储器内部连通的冰排出部4.冰排出部4包括: 冰引出通道23和排冰口25.冰引出通道23沿着储冰室3的侧壁10的切线方向延伸,并通过开口部分与冰储存器3的内部连通 17形成在储冰部3的侧壁10的下部。冰排出口25与冰引出通道23连通,具有向下方引导的排出口25a。 冰引出通道23和排冰口25的连接部分设置有由铰链安装以可开启和关闭地覆盖冰引出通道23的打开和关闭盖27.版权所有(C )2008,JPO&INPIT
    • 6. 发明专利
    • ICE DISPENSER
    • JP2002022325A
    • 2002-01-23
    • JP2000211587
    • 2000-07-12
    • HOSHIZAKI ELECTRIC CO LTD
    • IGARI HIDEYUKI
    • F25C5/02F25C5/00
    • PROBLEM TO BE SOLVED: To prevent the axial runout of an agitating member provided in an ice storage chamber. SOLUTION: A cover body 45 of the ice storage chamber 30 is divided into a fixed cover 46 and a movable cover 47, and the fixed cover 46 is fixed by screwing or the like, while the movable cover 47 is made removable. An agitator 51 is formed by bending round one rod material in the shape of a helix having a radius lessening gradually toward the upper end and is fixed to a rotating shaft 53. The lower end part of the rotating shaft 53 is fitted in a lower bearing 56 of an upper compression member 34, and the upper end in an upper bearing 55 formed in the fixed cover 46 and the shaft is supported above and below like a center impeller. The rotating shaft 53 is connected to an auger 23 in a refrigerating casing 20. On the occasion of rotation of the agitator 51, the runout of the rotating shaft 53 is suppressed to the utmost, although a considerable resistance is received from ice pieces, and thus the abrasion in the portions of the bearings is prevented. By opening the movable cover 47, it is possible to meet the cases when the inside of the ice storage chamber 30 is cleaned and when the ice pieces are supplemented into the ice storage chamber 30 from an upper-side opening.
    • 8. 发明专利
    • JPH05250559A
    • 1993-09-28
    • JP5140992
    • 1992-03-10
    • FUJI ELECTRIC CO LTD
    • KOIKE TERUO
    • G07F13/06F25C1/00F25C1/14F25C3/00F25C5/02
    • PURPOSE:To prevent over load from being given to an ice chipper motor by successively supplying ice to an ice tank by operating the ice chipper motor so as not to stock ice in an ice-maker during a period when over cooling is generated. CONSTITUTION:In a CPU to execute centralized control for this controller, an over cooling is generating period detection part is provided to detect the period when over cooling is generated (such as just after stopping a cooling unit during pump down and just after switching a cooling medium valve), and a timer is provided to operate an ice chipper motor 6 for fixed time just after stopping the cooling unit and just after switching the cooling medium valve. Then, the ice chipper motor 6 is driven for fixed time just after stopping the cooling unit and just after switching the cooling medium valve during pump clown. Namely, since the hardness of ice is increased by generating over cooling just after stopping the cooling unit and just after switching the cooling medium valve during pump down, ice is successively supplied to an ice tank 7 by operating the ice chipper motor 7 so as not to stock ice in an ice-maker 5 during this period.