WO2020158131A1 - Ice slurry production system - Google Patents
Ice slurry production system Download PDFInfo
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- WO2020158131A1 WO2020158131A1 PCT/JP2019/046012 JP2019046012W WO2020158131A1 WO 2020158131 A1 WO2020158131 A1 WO 2020158131A1 JP 2019046012 W JP2019046012 W JP 2019046012W WO 2020158131 A1 WO2020158131 A1 WO 2020158131A1
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C1/00—Producing ice
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C1/00—Producing ice
- F25C1/12—Producing ice by freezing water on cooled surfaces, e.g. to form slabs
- F25C1/14—Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes
- F25C1/145—Producing ice by freezing water on cooled surfaces, e.g. to form slabs to form thin sheets which are removed by scraping or wedging, e.g. in the form of flakes from the inner walls of cooled bodies
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25C—PRODUCING, WORKING OR HANDLING ICE
- F25C1/00—Producing ice
- F25C1/18—Producing ice of a particular transparency or translucency, e.g. by injecting air
- F25C1/20—Producing ice of a particular transparency or translucency, e.g. by injecting air by agitation
Definitions
- the present invention relates to an ice slurry manufacturing system.
- ice slurry also called ice slurry, slurry ice, slurry ice
- Patent Document 1 an invention of a method for maintaining freshness of fresh seafood, in which fresh seafood is instantaneously frozen by immersing the fresh seafood in an ice slurry produced by mixing ice with which salt water with high salinity is frozen and salt water with the same salinity Is disclosed.
- Patent Document 2 an ice making part for continuously producing ice particles by cooling raw material water containing a component for lowering the freezing point of water, and ice particles fed from the ice making part and the raw material water are uniformly mixed.
- the invention of the slurry ice manufacturing apparatus provided with the mixing space which performs is disclosed.
- the present invention has been made in view of such circumstances, and it is possible to use solutions of various types and a wide range of concentrations as raw material liquids, the particle size of ice particles is smaller than in the past, and the adjustment of the ice filling rate is easy.
- An object of the present invention is to provide a simple ice slurry manufacturing system.
- the ice slurry manufacturing system is an ice maker that produces fine ice particles, and a raw material liquid is supplied to the ice maker, and the ice particles and the raw material liquid discharged from the ice maker. And a circulation pipe for circulating a raw material liquid between the ice making machine and the tank,
- the ice making machine includes a vertical drum whose inner peripheral surface is cooled to a temperature 15° C. to 25° C. lower than the freezing point of the raw material liquid, and a rotary shaft which is arranged on the central axis of the vertical drum and rotates at 10 rpm or more.
- a raw material liquid supply means arranged directly above the vertical drum and supplying a raw material liquid toward the inner peripheral surface of the vertical drum; and a raw material liquid supply means mounted on the rotary shaft and extending in the radial direction of the vertical drum.
- An arm that rotates together with the rotary shaft, a blade that is attached to a tip portion of the arm and applies a flow velocity to a raw material liquid that flows down an inner peripheral surface of the vertical drum, and is provided on a lower surface of the vertical drum, Equipped with an outlet for discharging ice particles and raw material liquid,
- the tank is characterized by including an agitator for agitating the ice particles and the raw material liquid stored in the tank.
- fine ice particles are ice particles with a particle size of about 0.05 mm to 0.1 mm.
- a flow velocity is applied to the raw material liquid flowing down the inner peripheral surface of the vertical drum, and the raw material liquid flowing down the inner peripheral surface is supercooled (below the temperature that should change during the phase change of the substance).
- the supercooled raw material liquid separates from the inner peripheral surface of the vertical drum to generate fine ice particles.
- the produced fine ice particles are discharged from the vertical drum together with the raw material liquid and stored in the tank.
- the ice particles in the tank By circulating the raw material liquid between the ice maker and the tank, the ice particles in the tank gradually increase. At that time, the ice particles and the raw material liquid in the tank are stirred by a stirrer so that the ice particles in the tank are not bonded to each other and the ice particles and the raw material liquid are uniformly mixed.
- the raw material liquid supply means has an annular upper plate which is installed immediately above the vertical drum in plan view and has a gap immediately below the upper plate. And a circular lower plate having a diameter smaller than the inner diameter of the vertical drum in plan view, the upper end is fixed along the inner peripheral edge of the upper plate, and the lower end is formed along the inner peripheral edge of the lower plate. And a ring material that is firmly fixed, The raw material liquid is supplied onto the lower plate through a liquid supply port formed in the upper plate, and the raw material liquid is discharged from the outer peripheral edge of the lower plate toward the inner peripheral surface of the vertical drum. Good.
- the injection nozzle When the injection nozzle is used as the raw material liquid supply means, if the concentration of the raw material liquid is high, the injection hole may be clogged. However, according to the above configuration, even if the concentration of the raw material liquid is high, the inner circumference of the vertical drum is high. The raw material liquid can be supplied toward the surface.
- fine ice particles can be produced by using various kinds of solutions having a wide range of concentrations as a raw material liquid. Further, since the ice particles in the tank gradually increase, it is easy to adjust the ice filling rate.
- FIGS. 1 and 2 An ice slurry manufacturing system 10 according to an embodiment of the present invention is shown in FIGS. 1 and 2.
- the ice slurry manufacturing system 10 is arranged immediately below the ice making machine 11 that produces fine ice particles, stores the ice particles and the raw material liquid discharged from the ice making machine 11, and stores the raw material liquid in the ice making machine 11.
- the tank 12 for supplying the water, the circulation pipe 13 for circulating the raw material liquid between the ice making machine 11 and the tank 12, and the refrigerator 14 for circulating the refrigerant to the ice making machine 11.
- Ice particles generated by the ice maker 11 float above the tank 12.
- the raw material liquid is discharged from the lower portion of the tank 12 and supplied to the upper portion of the ice making machine 11 via the circulation pipe 13.
- a pump 15 for feeding the raw material liquid to the ice maker 11 and a discharge adjusting valve 16 for adjusting the discharge amount of the raw material liquid are installed in the middle of the circulation pipe 13.
- FIG. 3 shows a partial cross-sectional perspective view of the ice making machine 11.
- the ice maker 11 includes a vertical drum 20 whose inner peripheral surface is cooled to a temperature 15° C. to 25° C. lower than the freezing point of the raw material liquid by a refrigerant.
- a rotating shaft 25 that is rotated by a geared motor 28 at 10 rpm or more is arranged.
- a plurality of arms 26 extending in the radial direction of the vertical drum 20 and rotating with the rotating shaft 25 are attached to the rotating shaft 25.
- a blade 27 is attached to apply a flow velocity to the raw material liquid flowing down the inner peripheral surface of the vertical drum 20.
- a raw material liquid supply means 21 for supplying the raw material liquid toward the inner peripheral surface of the vertical drum 20 is installed directly above the vertical drum 20.
- the vertical drum 20 has an inner cylinder 20a through which the undiluted solution flows down on the inner peripheral surface, and an outer cylinder 20b surrounding the inner cylinder 20a.
- the inner cylinder 20a and the outer cylinder 20b are made of steel, and a clearance is provided between the inner cylinder 20a and the outer cylinder 20b.
- Refrigerant is circulated and supplied from the refrigerator 14 to the clearance via the refrigerant pipe 17.
- the lower surface of the vertical drum 20 serves as a discharge port 30 for discharging the ice particles and the raw material liquid.
- the outer peripheral surface of the vertical drum 20 is covered with a cylindrical protective cover 29, and a heat insulating material such as urethane is interposed between the vertical drum 20 and the protective cover 29.
- the raw material liquid supply means 21 is disposed directly above the vertical drum 20 and is arranged in an annular upper plate 22 in a plan view, and is arranged immediately below the upper plate 22 with a gap of about 3 mm to 5 mm.
- Two liquid feed ports 22a are formed in the upper plate 22, and the raw material liquid is supplied to the lower plate 23 from the circulation pipe 13 having a bifurcated end portion through the two liquid feed ports 22a. The raw material liquid is discharged from the outer peripheral edge of 23 toward the upper part of the inner peripheral surface of the vertical drum 20.
- the arm 26 is mounted so as to be symmetrical with respect to the rotation axis 25.
- the number of arms 26 is two.
- the blade 27 attached to the tip of each arm 26 is made of a stainless steel plate material having a length substantially equal to the entire length (total height) of the inner cylinder 20a, and the tip is formed into a claw shape having a rake face. (See Figure 4).
- a blade adjusting screw 32 for adjusting the gap between the tip of the blade 27 and the inner peripheral surface of the vertical drum 20 is attached to the arm 26 behind the blade 27.
- the tip of the blade 27 and the inner peripheral surface of the vertical drum 20 are not in contact with each other, and have a gap of about 0.1 mm to 0.2 mm.
- the blade 27 rotating at a high speed gives a flow velocity to the raw material liquid flowing down the inner peripheral surface of the vertical drum 20, and the raw material liquid flowing down the inner peripheral surface is supercooled.
- the subcooled raw material liquid separates from the inner peripheral surface of the vertical drum 20 to generate fine ice particles.
- the tank 12 is stirred to stir the ice particles and the raw material liquid stored in the tank 12 so that the ice particles in the tank 12 are not bonded to each other and the ice particles and the raw material liquid are uniformly mixed.
- the machine 31 is installed.
- a raw material liquid supply pipe 18 for injecting the raw material liquid into the tank 12 is provided on the upper side surface of the tank 12, and ice for discharging the ice slurry stored in the tank 12 is provided on the lower side surface of the tank 12.
- a slurry discharge pipe 19 is attached.
- the raw material liquid is stored in the tank 12 from the raw material liquid supply pipe 18.
- the raw material liquid may be at room temperature.
- As the raw material liquid water, an aqueous solution containing chloride, etc., an alcohol solution, a chemical liquid, juice or the like can be used.
- the refrigerator 14 is operated to lower the temperature of the inner surface of the vertical drum 20. The lower the temperature of the inner surface of the vertical drum 20 is, the higher the ice making capacity is, but the ice making efficiency is lowered in the refrigeration cycle. Therefore, the temperature of the inner surface of the vertical drum 20 is set to a temperature 15° C. to 25° C. lower than the freezing point of the raw material liquid.
- the geared motor 28 is operated to rotate the rotary shaft 25.
- the rotation speed of the rotating shaft 25 is 10 rpm or more, preferably 30 rpm or more, more preferably 50 rpm or more.
- the upper limit of the rotation speed is about 150 rpm, though it depends on the concentration of the raw material liquid.
- the pump 15 is operated to circulate and supply the raw material liquid from the tank 12 to the ice making machine 11 through the circulation pipe 13 to generate fine ice particles.
- the discharge amount of the raw material liquid is adjusted by the discharge adjusting valve 16.
- the particle size of the ice particles is about 0.05 mm to 0.1 mm.
- the diameter of the ice particles is about 0.5 mm to 1.0 mm because the frozen ice film is peeled off on the inner peripheral surface of the vertical drum.
- the present invention is not limited to the configuration described in the above embodiment, and other conceivable modifications are possible within the scope of the matters described in the claims. It also includes the examples and modified examples of.
- the ice maker is arranged directly above the tank, but the ice maker and the tank may be arranged in parallel, and a return pipe may be provided between the ice maker and the tank.
- the number of blades is two, but it may be three or more.
- the raw material liquid supply means is not limited to the above embodiment, and for example, the raw material liquid may be discharged toward the inner peripheral surface of the vertical drum from a plurality of pipes radially extending from the rotation shaft. You may
- the present invention can be used in the production of ice slurries. At this time, according to the present invention, it is not necessary to separately mix the ice and the raw material liquid, and an ice slurry having a predetermined ice filling rate is automatically produced, so that there is no loss of working time and a large amount of ice slurry is obtained. It is possible to produce.
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Abstract
Provided is an ice slurry production system that makes it possible to use a wide variety of solutions of a broad range of concentrations as a raw material solution, and also easy to adjust an ice filling rate, with ice particles of a smaller-than-conventional diameter. An ice slurry production system 10 comprises: an ice maker 11 for generating fine ice particles; a tank 12 for supplying a raw material solution to the ice maker 11 and storing ice particles and the raw material solution discharged from the ice maker 11; and a circulation tubing 13 for causing the raw material solution to circulate between the ice maker 11 and the tank 12. The ice maker 11 is provided with: a vertical drum in which an inner peripheral surface is cooled to a lower temperature than the freezing point of the raw material solution; a rotating shaft arranged on a central axis of the vertical drum; a raw material solution supplying means for supplying the raw material solution toward the inner peripheral surface; and a blade for rotating together with the rotating shaft and imparting a flow velocity to the raw material solution flowing down the inner peripheral surface. The tank 12 is provided with an agitator 31 for agitating the ice particles and the raw material solution inside the tank 12.
Description
本発明は、氷スラリー製造システムに関する。
The present invention relates to an ice slurry manufacturing system.
近年、シャーベット状の氷、いわゆる氷スラリー(アイススラリー、スラリー氷、スラリーアイスとも呼ばれる。)が様々な分野で活用されている。例えば、特許文献1では、高塩分濃度の塩水を凍結させた氷と同じ塩分濃度の塩水とを混合して製造した氷スラリーに生鮮海産物を浸漬して瞬間凍結させる生鮮海産物の鮮度保持方法の発明が開示されている。
In recent years, sherbet-shaped ice, so-called ice slurry (also called ice slurry, slurry ice, slurry ice) has been used in various fields. For example, in Patent Document 1, an invention of a method for maintaining freshness of fresh seafood, in which fresh seafood is instantaneously frozen by immersing the fresh seafood in an ice slurry produced by mixing ice with which salt water with high salinity is frozen and salt water with the same salinity Is disclosed.
また、特許文献2には、水の凝固点を下げる成分を含む原料水を冷却して氷粒子を連続して製造する製氷部と、製氷部から送り込まれた氷粒子と原料水とを均一に混合する混合空間とを備えるスラリーアイス製造装置の発明が開示されている。
Further, in Patent Document 2, an ice making part for continuously producing ice particles by cooling raw material water containing a component for lowering the freezing point of water, and ice particles fed from the ice making part and the raw material water are uniformly mixed. The invention of the slurry ice manufacturing apparatus provided with the mixing space which performs is disclosed.
しかしながら、特許文献1記載の方法の場合、塩分濃度が高濃度に限定されることに加えて、塩水氷と塩水とを混合する作業が必要となる。一方、特許文献2記載のスラリーアイス製造装置は、氷粒子と原料水とを均一に混合することができるが、スラリーアイスの氷充填率(氷/スラリーの重量比)が25~30%と低く、用途に応じて氷充填率を調整できないという課題がある。
However, in the case of the method described in Patent Document 1, in addition to the salt concentration being limited to a high concentration, an operation of mixing salt water ice and salt water is required. On the other hand, the slurry ice manufacturing apparatus described in Patent Document 2 can uniformly mix ice particles and raw water, but the ice filling rate of slurry ice (ice/slurry weight ratio) is as low as 25 to 30%. However, there is a problem that the ice filling rate cannot be adjusted according to the application.
また、氷スラリーを構成する氷粒子は粒径が小さいほど、流動性に優れ、被冷却物との接触面積が拡大して冷却効率が高くなるが、従来の氷スラリーを構成する氷粒子の場合、粒径のバラつきが大きいという課題がある。
In addition, the smaller the particle size of the ice particles that make up the ice slurry, the better the fluidity, the larger the contact area with the object to be cooled and the higher the cooling efficiency. However, there is a problem that there is a large variation in particle size.
本発明はかかる事情に鑑みてなされたもので、多様な種類且つ幅広い濃度の溶液を原料液として使用することができ、従来に比べて氷粒子の粒径が小さく、氷充填率の調整も容易な氷スラリー製造システムを提供することを目的とする。
The present invention has been made in view of such circumstances, and it is possible to use solutions of various types and a wide range of concentrations as raw material liquids, the particle size of ice particles is smaller than in the past, and the adjustment of the ice filling rate is easy. An object of the present invention is to provide a simple ice slurry manufacturing system.
上記目的を達成するため、本発明に係る氷スラリー製造システムは、微細な氷粒子を生成する製氷機と、前記製氷機に原料液を供給し、前記製氷機から排出される氷粒子及び原料液を貯留するタンクと、前記製氷機と前記タンクとの間で原料液を循環させる循環配管とを有し、
前記製氷機は、原料液の凝固点より15℃~25℃低い温度に内周面が冷却される竪型ドラムと、前記竪型ドラムの中心軸上に配置され、10rpm以上で回転する回転軸と、前記竪型ドラムの直上に配置され、前記竪型ドラムの内周面に向けて原料液を供給する原料液供給手段と、前記回転軸に装着されて前記竪型ドラムの半径方向に延出し、前記回転軸と共に回転するアームと、前記アームの先端部に装着され、前記竪型ドラムの内周面を流下する原料液に流速を付与するブレードと、前記竪型ドラムの下面に設けられ、氷粒子及び原料液を排出する排出口とを備え、
前記タンクは、該タンク内に貯留された氷粒子及び原料液を撹拌する撹拌機を備えることを特徴としている。 In order to achieve the above object, the ice slurry manufacturing system according to the present invention is an ice maker that produces fine ice particles, and a raw material liquid is supplied to the ice maker, and the ice particles and the raw material liquid discharged from the ice maker. And a circulation pipe for circulating a raw material liquid between the ice making machine and the tank,
The ice making machine includes a vertical drum whose inner peripheral surface is cooled to atemperature 15° C. to 25° C. lower than the freezing point of the raw material liquid, and a rotary shaft which is arranged on the central axis of the vertical drum and rotates at 10 rpm or more. A raw material liquid supply means arranged directly above the vertical drum and supplying a raw material liquid toward the inner peripheral surface of the vertical drum; and a raw material liquid supply means mounted on the rotary shaft and extending in the radial direction of the vertical drum. An arm that rotates together with the rotary shaft, a blade that is attached to a tip portion of the arm and applies a flow velocity to a raw material liquid that flows down an inner peripheral surface of the vertical drum, and is provided on a lower surface of the vertical drum, Equipped with an outlet for discharging ice particles and raw material liquid,
The tank is characterized by including an agitator for agitating the ice particles and the raw material liquid stored in the tank.
前記製氷機は、原料液の凝固点より15℃~25℃低い温度に内周面が冷却される竪型ドラムと、前記竪型ドラムの中心軸上に配置され、10rpm以上で回転する回転軸と、前記竪型ドラムの直上に配置され、前記竪型ドラムの内周面に向けて原料液を供給する原料液供給手段と、前記回転軸に装着されて前記竪型ドラムの半径方向に延出し、前記回転軸と共に回転するアームと、前記アームの先端部に装着され、前記竪型ドラムの内周面を流下する原料液に流速を付与するブレードと、前記竪型ドラムの下面に設けられ、氷粒子及び原料液を排出する排出口とを備え、
前記タンクは、該タンク内に貯留された氷粒子及び原料液を撹拌する撹拌機を備えることを特徴としている。 In order to achieve the above object, the ice slurry manufacturing system according to the present invention is an ice maker that produces fine ice particles, and a raw material liquid is supplied to the ice maker, and the ice particles and the raw material liquid discharged from the ice maker. And a circulation pipe for circulating a raw material liquid between the ice making machine and the tank,
The ice making machine includes a vertical drum whose inner peripheral surface is cooled to a
The tank is characterized by including an agitator for agitating the ice particles and the raw material liquid stored in the tank.
ここで、「微細な氷粒子」は、粒径が0.05mm~0.1mm程度の氷粒子である。
”Here, “fine ice particles” are ice particles with a particle size of about 0.05 mm to 0.1 mm.
高速でブレードを回転させることによって、竪型ドラムの内周面を流下する原料液に流速が付与され、内周面を流下する原料液は過冷却(物質の相変化において、変化するべき温度以下でもその状態が変化しないでいる状態を指す。例えば、液体が凝固点を過ぎて冷却されても固体化せず、液体の状態を保持する現象)となる。過冷却となった原料液が竪型ドラムの内周面から離れることにより微細な氷粒子が生成される。生成された微細な氷粒子は原料液と共に竪型ドラムから排出され、タンク内に貯留される。製氷機とタンクとの間で原料液を循環させることにより、タンク内の氷粒子が徐々に増加する。その際、タンク内の氷粒子同士が結合せず、氷粒子と原料液が均一に混合されるように、タンク内の氷粒子及び原料液を撹拌機で撹拌する。
By rotating the blade at a high speed, a flow velocity is applied to the raw material liquid flowing down the inner peripheral surface of the vertical drum, and the raw material liquid flowing down the inner peripheral surface is supercooled (below the temperature that should change during the phase change of the substance). However, it refers to a state in which the state does not change, for example, a phenomenon in which the liquid does not solidify even when it is cooled past the freezing point and the state of the liquid is retained). The supercooled raw material liquid separates from the inner peripheral surface of the vertical drum to generate fine ice particles. The produced fine ice particles are discharged from the vertical drum together with the raw material liquid and stored in the tank. By circulating the raw material liquid between the ice maker and the tank, the ice particles in the tank gradually increase. At that time, the ice particles and the raw material liquid in the tank are stirred by a stirrer so that the ice particles in the tank are not bonded to each other and the ice particles and the raw material liquid are uniformly mixed.
また、本発明に係る氷スラリー製造システムでは、前記原料液供給手段は、前記竪型ドラムの直上に設置された平面視して円環状の上板と、前記上板の直下に間隙を有して配置され、前記竪型ドラムの内径より小径とされた平面視して円環状の下板と、上端が前記上板の内周縁に沿って固着され、下端が前記下板の内周縁に沿って固着されたリング材とを有し、
前記上板に形成された送液口を介して前記下板上に原料液が供給され、前記下板の外周縁から前記竪型ドラムの内周面に向けて原料液が吐出するようにしてもよい。 Further, in the ice slurry manufacturing system according to the present invention, the raw material liquid supply means has an annular upper plate which is installed immediately above the vertical drum in plan view and has a gap immediately below the upper plate. And a circular lower plate having a diameter smaller than the inner diameter of the vertical drum in plan view, the upper end is fixed along the inner peripheral edge of the upper plate, and the lower end is formed along the inner peripheral edge of the lower plate. And a ring material that is firmly fixed,
The raw material liquid is supplied onto the lower plate through a liquid supply port formed in the upper plate, and the raw material liquid is discharged from the outer peripheral edge of the lower plate toward the inner peripheral surface of the vertical drum. Good.
前記上板に形成された送液口を介して前記下板上に原料液が供給され、前記下板の外周縁から前記竪型ドラムの内周面に向けて原料液が吐出するようにしてもよい。 Further, in the ice slurry manufacturing system according to the present invention, the raw material liquid supply means has an annular upper plate which is installed immediately above the vertical drum in plan view and has a gap immediately below the upper plate. And a circular lower plate having a diameter smaller than the inner diameter of the vertical drum in plan view, the upper end is fixed along the inner peripheral edge of the upper plate, and the lower end is formed along the inner peripheral edge of the lower plate. And a ring material that is firmly fixed,
The raw material liquid is supplied onto the lower plate through a liquid supply port formed in the upper plate, and the raw material liquid is discharged from the outer peripheral edge of the lower plate toward the inner peripheral surface of the vertical drum. Good.
原料液供給手段として噴射ノズルを使用した場合、原料液の濃度が高いと、噴射孔が閉塞するおそれがあるが、上記構成によれば、原料液の濃度が高くても竪型ドラムの内周面に向けて原料液を供給することができる。
When the injection nozzle is used as the raw material liquid supply means, if the concentration of the raw material liquid is high, the injection hole may be clogged. However, according to the above configuration, even if the concentration of the raw material liquid is high, the inner circumference of the vertical drum is high. The raw material liquid can be supplied toward the surface.
本発明に係る氷スラリー製造システムでは、多様な種類且つ幅広い濃度の溶液を原料液として微細な氷粒子を生成することができる。また、タンク内の氷粒子が徐々に増加するので、氷充填率の調整も容易である。
In the ice slurry production system according to the present invention, fine ice particles can be produced by using various kinds of solutions having a wide range of concentrations as a raw material liquid. Further, since the ice particles in the tank gradually increase, it is easy to adjust the ice filling rate.
以下、本発明に係る氷スラリー製造システムの実施例について図面に基づいて説明する。
本発明の一実施例に係る氷スラリー製造システム10を図1及び図2に示す。
氷スラリー製造システム10は、微細な氷粒子を生成する製氷機11、製氷機11の直下に配置され、製氷機11から排出される氷粒子及び原料液を貯留すると共に、製氷機11に原料液を供給するタンク12、製氷機11とタンク12との間で原料液を循環させる循環配管13、及び、製氷機11に冷媒を循環供給する冷凍機14を備えている。 An embodiment of an ice slurry manufacturing system according to the present invention will be described below with reference to the drawings.
An iceslurry manufacturing system 10 according to an embodiment of the present invention is shown in FIGS. 1 and 2.
The iceslurry manufacturing system 10 is arranged immediately below the ice making machine 11 that produces fine ice particles, stores the ice particles and the raw material liquid discharged from the ice making machine 11, and stores the raw material liquid in the ice making machine 11. The tank 12 for supplying the water, the circulation pipe 13 for circulating the raw material liquid between the ice making machine 11 and the tank 12, and the refrigerator 14 for circulating the refrigerant to the ice making machine 11.
本発明の一実施例に係る氷スラリー製造システム10を図1及び図2に示す。
氷スラリー製造システム10は、微細な氷粒子を生成する製氷機11、製氷機11の直下に配置され、製氷機11から排出される氷粒子及び原料液を貯留すると共に、製氷機11に原料液を供給するタンク12、製氷機11とタンク12との間で原料液を循環させる循環配管13、及び、製氷機11に冷媒を循環供給する冷凍機14を備えている。 An embodiment of an ice slurry manufacturing system according to the present invention will be described below with reference to the drawings.
An ice
The ice
製氷機11によって生成された氷粒子は、タンク12の上部を浮遊する。原料液は、タンク12の下部から排出され、循環配管13を介して製氷機11の上部に供給される。循環配管13の途中には、原料液を製氷機11に送給するためのポンプ15と、原料液の吐出量を調整するための吐出調整弁16が設置されている。
Ice particles generated by the ice maker 11 float above the tank 12. The raw material liquid is discharged from the lower portion of the tank 12 and supplied to the upper portion of the ice making machine 11 via the circulation pipe 13. A pump 15 for feeding the raw material liquid to the ice maker 11 and a discharge adjusting valve 16 for adjusting the discharge amount of the raw material liquid are installed in the middle of the circulation pipe 13.
図3に製氷機11の部分断面斜視図を示す。製氷機11は、冷媒により内周面が原料液の凝固点より15℃~25℃低い温度に冷却される竪型ドラム20を備えている。竪型ドラム20の中心軸上には、ギヤードモータ28により10rpm以上で回転する回転軸25が配置されている。回転軸25には、竪型ドラム20の半径方向に延出し、回転軸25と共に回転する複数のアーム26が取り付けられている。各アーム26の先端部には、竪型ドラム20の内周面を流下する原料液に流速を付与するブレード27が装着されている。また、竪型ドラム20の直上には、竪型ドラム20の内周面に向けて原料液を供給する原料液供給手段21が設置されている。
FIG. 3 shows a partial cross-sectional perspective view of the ice making machine 11. The ice maker 11 includes a vertical drum 20 whose inner peripheral surface is cooled to a temperature 15° C. to 25° C. lower than the freezing point of the raw material liquid by a refrigerant. On the central axis of the vertical drum 20, a rotating shaft 25 that is rotated by a geared motor 28 at 10 rpm or more is arranged. A plurality of arms 26 extending in the radial direction of the vertical drum 20 and rotating with the rotating shaft 25 are attached to the rotating shaft 25. At the tip of each arm 26, a blade 27 is attached to apply a flow velocity to the raw material liquid flowing down the inner peripheral surface of the vertical drum 20. Further, a raw material liquid supply means 21 for supplying the raw material liquid toward the inner peripheral surface of the vertical drum 20 is installed directly above the vertical drum 20.
竪型ドラム20は、内周面を原液が流下する内筒20aと、内筒20aを囲繞する外筒20bとを有している。内筒20a及び外筒20bは鋼製とされ、内筒20aと外筒20bの間にはクリアランスが設けられている。クリアランスには、冷媒配管17を介して冷凍機14から冷媒が循環供給される。竪型ドラム20の下面は、氷粒子及び原料液を排出する排出口30とされている。
竪型ドラム20の外周面は円筒状の保護カバー29で覆われ、竪型ドラム20と保護カバー29の間にはウレタン等の断熱材が介装されている。 Thevertical drum 20 has an inner cylinder 20a through which the undiluted solution flows down on the inner peripheral surface, and an outer cylinder 20b surrounding the inner cylinder 20a. The inner cylinder 20a and the outer cylinder 20b are made of steel, and a clearance is provided between the inner cylinder 20a and the outer cylinder 20b. Refrigerant is circulated and supplied from the refrigerator 14 to the clearance via the refrigerant pipe 17. The lower surface of the vertical drum 20 serves as a discharge port 30 for discharging the ice particles and the raw material liquid.
The outer peripheral surface of thevertical drum 20 is covered with a cylindrical protective cover 29, and a heat insulating material such as urethane is interposed between the vertical drum 20 and the protective cover 29.
竪型ドラム20の外周面は円筒状の保護カバー29で覆われ、竪型ドラム20と保護カバー29の間にはウレタン等の断熱材が介装されている。 The
The outer peripheral surface of the
原料液供給手段21は、竪型ドラム20の直上に設置された平面視して円環状の上板22と、上板22の直下に3mm~5mm程度の間隙を有して配置され、竪型ドラム20の内筒20aの内径より小径とされた平面視して円環状の下板23と、上端が上板22の内周縁に沿って固着され、下端が下板23の内周縁に沿って固着されたリング材24とを有している。上板22には送液口22aが2つ形成されており、終端部が二股に分岐する循環配管13から2つの送液口22aを介して下板23上に原料液が供給され、下板23の外周縁から竪型ドラム20の内周面の上部に向けて原料液が吐出する。
The raw material liquid supply means 21 is disposed directly above the vertical drum 20 and is arranged in an annular upper plate 22 in a plan view, and is arranged immediately below the upper plate 22 with a gap of about 3 mm to 5 mm. The lower plate 23, which is annular and has a diameter smaller than the inner diameter of the inner cylinder 20a of the drum 20, is fixed along the inner peripheral edge of the upper plate 22, and the lower end is fixed along the inner peripheral edge of the lower plate 23. It has the ring material 24 fixed. Two liquid feed ports 22a are formed in the upper plate 22, and the raw material liquid is supplied to the lower plate 23 from the circulation pipe 13 having a bifurcated end portion through the two liquid feed ports 22a. The raw material liquid is discharged from the outer peripheral edge of 23 toward the upper part of the inner peripheral surface of the vertical drum 20.
アーム26は回転軸25に関して対称となるように装着されている。本実施例では、アーム26の本数は2本とされている。
各アーム26の先端部に装着されているブレード27は、内筒20aの全長(全高)にほぼ等しい長さを有するステンレス製の板材からなり、先端部は、すくい面を有する鉤爪状とされている(図4参照)。 Thearm 26 is mounted so as to be symmetrical with respect to the rotation axis 25. In this embodiment, the number of arms 26 is two.
Theblade 27 attached to the tip of each arm 26 is made of a stainless steel plate material having a length substantially equal to the entire length (total height) of the inner cylinder 20a, and the tip is formed into a claw shape having a rake face. (See Figure 4).
各アーム26の先端部に装着されているブレード27は、内筒20aの全長(全高)にほぼ等しい長さを有するステンレス製の板材からなり、先端部は、すくい面を有する鉤爪状とされている(図4参照)。 The
The
ブレード27後方のアーム26には、ブレード27先端部と竪型ドラム20の内周面との間隙を調節するためのブレード調節ネジ32が取り付けられている。ブレード27先端部と竪型ドラム20の内周面は非接触とされ、0.1mm~0.2mm程度の間隙を有している。
高速で回転するブレード27によって、竪型ドラム20の内周面を流下する原料液に流速が付与され、内周面を流下する原料液は過冷却となる。過冷却となった原料液が竪型ドラム20の内周面から離れることにより微細な氷粒子が生成される。 Ablade adjusting screw 32 for adjusting the gap between the tip of the blade 27 and the inner peripheral surface of the vertical drum 20 is attached to the arm 26 behind the blade 27. The tip of the blade 27 and the inner peripheral surface of the vertical drum 20 are not in contact with each other, and have a gap of about 0.1 mm to 0.2 mm.
Theblade 27 rotating at a high speed gives a flow velocity to the raw material liquid flowing down the inner peripheral surface of the vertical drum 20, and the raw material liquid flowing down the inner peripheral surface is supercooled. The subcooled raw material liquid separates from the inner peripheral surface of the vertical drum 20 to generate fine ice particles.
高速で回転するブレード27によって、竪型ドラム20の内周面を流下する原料液に流速が付与され、内周面を流下する原料液は過冷却となる。過冷却となった原料液が竪型ドラム20の内周面から離れることにより微細な氷粒子が生成される。 A
The
また、タンク12内の氷粒子同士が結合せず、氷粒子と原料液が均一に混合されるように、タンク12には、タンク12内に溜められている氷粒子及び原料液を撹拌する撹拌機31が設置されている。
タンク12の側面上部には、原料液をタンク12内に注入するための原料液供給管18が、タンク12の側面下部には、タンク12内に貯留されている氷スラリーを排出するための氷スラリー排出管19が取り付けられている。 Further, thetank 12 is stirred to stir the ice particles and the raw material liquid stored in the tank 12 so that the ice particles in the tank 12 are not bonded to each other and the ice particles and the raw material liquid are uniformly mixed. The machine 31 is installed.
A raw materialliquid supply pipe 18 for injecting the raw material liquid into the tank 12 is provided on the upper side surface of the tank 12, and ice for discharging the ice slurry stored in the tank 12 is provided on the lower side surface of the tank 12. A slurry discharge pipe 19 is attached.
タンク12の側面上部には、原料液をタンク12内に注入するための原料液供給管18が、タンク12の側面下部には、タンク12内に貯留されている氷スラリーを排出するための氷スラリー排出管19が取り付けられている。 Further, the
A raw material
次に、上記構成を有する氷スラリー製造システム10を用いて氷スラリーを製造する手順について説明する。
(1)原料液供給管18からタンク12内に原料液を貯留する。原料液は常温でよい。
原料液には、水、塩化物等を含む水溶液、アルコール溶液、薬液、ジュースなどを使用することができる。
(2)冷凍機14を作動させ、竪型ドラム20の内表面の温度を低下させる。竪型ドラム20の内表面の温度が低いほど製氷能力は向上するが、冷凍サイクル上、製氷効率が低下する。そのため、竪型ドラム20の内表面の温度を原料液の凝固点より15℃~25℃低い温度に設定する。 Next, a procedure for manufacturing ice slurry using the iceslurry manufacturing system 10 having the above configuration will be described.
(1) The raw material liquid is stored in thetank 12 from the raw material liquid supply pipe 18. The raw material liquid may be at room temperature.
As the raw material liquid, water, an aqueous solution containing chloride, etc., an alcohol solution, a chemical liquid, juice or the like can be used.
(2) Therefrigerator 14 is operated to lower the temperature of the inner surface of the vertical drum 20. The lower the temperature of the inner surface of the vertical drum 20 is, the higher the ice making capacity is, but the ice making efficiency is lowered in the refrigeration cycle. Therefore, the temperature of the inner surface of the vertical drum 20 is set to a temperature 15° C. to 25° C. lower than the freezing point of the raw material liquid.
(1)原料液供給管18からタンク12内に原料液を貯留する。原料液は常温でよい。
原料液には、水、塩化物等を含む水溶液、アルコール溶液、薬液、ジュースなどを使用することができる。
(2)冷凍機14を作動させ、竪型ドラム20の内表面の温度を低下させる。竪型ドラム20の内表面の温度が低いほど製氷能力は向上するが、冷凍サイクル上、製氷効率が低下する。そのため、竪型ドラム20の内表面の温度を原料液の凝固点より15℃~25℃低い温度に設定する。 Next, a procedure for manufacturing ice slurry using the ice
(1) The raw material liquid is stored in the
As the raw material liquid, water, an aqueous solution containing chloride, etc., an alcohol solution, a chemical liquid, juice or the like can be used.
(2) The
(3)ギヤードモータ28を作動させて、回転軸25を回転させる。回転軸25の回転速度は10rpm以上、好ましくは30rpm以上、より好ましくは50rpm以上とする。回転速度の上限としては、原料液の濃度にもよるが、150rpm程度である。
(3) The geared motor 28 is operated to rotate the rotary shaft 25. The rotation speed of the rotating shaft 25 is 10 rpm or more, preferably 30 rpm or more, more preferably 50 rpm or more. The upper limit of the rotation speed is about 150 rpm, though it depends on the concentration of the raw material liquid.
(4)ポンプ15を作動させて、タンク12から製氷機11に循環配管13を介して原料液を循環供給し、微細な氷粒子を生成する。原料液の吐出量は吐出調整弁16により調整する。
氷粒子の粒径は0.05mm~0.1mm程度である。一方、回転軸の回転速度が2~3rpmである従来の製氷機の場合、竪型ドラムの内周面上に凍結した氷膜を剥がすため、氷粒子の径は0.5mm~1.0mm程度となる。 (4) Thepump 15 is operated to circulate and supply the raw material liquid from the tank 12 to the ice making machine 11 through the circulation pipe 13 to generate fine ice particles. The discharge amount of the raw material liquid is adjusted by the discharge adjusting valve 16.
The particle size of the ice particles is about 0.05 mm to 0.1 mm. On the other hand, in the case of a conventional ice making machine in which the rotation speed of the rotating shaft is 2 to 3 rpm, the diameter of the ice particles is about 0.5 mm to 1.0 mm because the frozen ice film is peeled off on the inner peripheral surface of the vertical drum. Becomes
氷粒子の粒径は0.05mm~0.1mm程度である。一方、回転軸の回転速度が2~3rpmである従来の製氷機の場合、竪型ドラムの内周面上に凍結した氷膜を剥がすため、氷粒子の径は0.5mm~1.0mm程度となる。 (4) The
The particle size of the ice particles is about 0.05 mm to 0.1 mm. On the other hand, in the case of a conventional ice making machine in which the rotation speed of the rotating shaft is 2 to 3 rpm, the diameter of the ice particles is about 0.5 mm to 1.0 mm because the frozen ice film is peeled off on the inner peripheral surface of the vertical drum. Becomes
(5)製氷機11からタンク12内に排出された氷粒子同士が結合せず、氷粒子と原料液が均一に混合されるように、タンク12内の氷粒子及び原料液を撹拌機31で撹拌する。
(6)タンク12内に貯留する氷スラリーの氷充填率が所定の値となった時点でポンプ15及びギヤードモータ28を停止し、氷スラリー排出管19から別容器に氷スラリーを排出する。 (5) The ice particles and the raw material liquid in thetank 12 are stirred by the stirrer 31 so that the ice particles discharged from the ice making machine 11 into the tank 12 do not combine with each other and the ice particles and the raw material liquid are uniformly mixed. Stir.
(6) When the ice filling rate of the ice slurry stored in thetank 12 reaches a predetermined value, the pump 15 and the geared motor 28 are stopped, and the ice slurry is discharged from the ice slurry discharge pipe 19 to another container.
(6)タンク12内に貯留する氷スラリーの氷充填率が所定の値となった時点でポンプ15及びギヤードモータ28を停止し、氷スラリー排出管19から別容器に氷スラリーを排出する。 (5) The ice particles and the raw material liquid in the
(6) When the ice filling rate of the ice slurry stored in the
以上、本発明の一実施例について説明してきたが、本発明は何ら上記した実施例に記載の構成に限定されるものではなく、請求の範囲に記載されている事項の範囲内で考えられるその他の実施例や変形例も含むものである。例えば、上記実施例では、製氷機をタンクの直上に配置しているが、製氷機とタンクを並設し、製氷機とタンクの間に復路管を設けてもよい。また、上記実施例では、ブレードの枚数を2枚としているが、3枚以上でもよい。さらにまた、原料液供給手段は上記実施例に限定されるものではなく、例えば、回転軸から放射状に延出する複数のパイプから、竪型ドラムの内周面に向けて原料液を吐出するようにしてもよい。
Although one embodiment of the present invention has been described above, the present invention is not limited to the configuration described in the above embodiment, and other conceivable modifications are possible within the scope of the matters described in the claims. It also includes the examples and modified examples of. For example, in the above embodiment, the ice maker is arranged directly above the tank, but the ice maker and the tank may be arranged in parallel, and a return pipe may be provided between the ice maker and the tank. Further, in the above embodiment, the number of blades is two, but it may be three or more. Furthermore, the raw material liquid supply means is not limited to the above embodiment, and for example, the raw material liquid may be discharged toward the inner peripheral surface of the vertical drum from a plurality of pipes radially extending from the rotation shaft. You may
本発明は、氷スラリーの製造に利用することができる。その際、本発明によれば、氷と原料液を別途混合する必要がなく、所定の氷充填率を有する氷スラリーが自動的に製造されるので、作業時間のロスがなく、氷スラリーの大量生産が可能である。
The present invention can be used in the production of ice slurries. At this time, according to the present invention, it is not necessary to separately mix the ice and the raw material liquid, and an ice slurry having a predetermined ice filling rate is automatically produced, so that there is no loss of working time and a large amount of ice slurry is obtained. It is possible to produce.
10:氷スラリー製造システム、11:製氷機、12:タンク、13:循環配管、14:冷凍機、15:ポンプ、16:吐出調整弁、17:冷媒配管、18:原料液供給管、19:氷スラリー排出管、20:竪型ドラム、20a:内筒、20b:外筒、21:原料液供給手段、22:上板、22a:送液口、23:下板、24:リング材、25:回転軸、26:アーム、27:ブレード、28:ギヤードモータ、29:保護カバー、30:排出口、31:撹拌機、32:ブレード調節ネジ
10: Ice slurry production system, 11: Ice maker, 12: Tank, 13: Circulation pipe, 14: Refrigerator, 15: Pump, 16: Discharge adjusting valve, 17: Refrigerant pipe, 18: Raw material liquid supply pipe, 19: Ice slurry discharge pipe, 20: vertical drum, 20a: inner cylinder, 20b: outer cylinder, 21: raw material liquid supply means, 22: upper plate, 22a: liquid supply port, 23: lower plate, 24: ring material, 25 : Rotary shaft, 26: arm, 27: blade, 28: geared motor, 29: protective cover, 30: discharge port, 31: agitator, 32: blade adjusting screw
Claims (2)
- 微細な氷粒子を生成する製氷機と、前記製氷機に原料液を供給し、前記製氷機から排出される氷粒子及び原料液を貯留するタンクと、前記製氷機と前記タンクとの間で原料液を循環させる循環配管とを有し、
前記製氷機は、原料液の凝固点より15℃~25℃低い温度に内周面が冷却される竪型ドラムと、前記竪型ドラムの中心軸上に配置され、10rpm以上で回転する回転軸と、前記竪型ドラムの直上に配置され、前記竪型ドラムの内周面に向けて原料液を供給する原料液供給手段と、前記回転軸に装着されて前記竪型ドラムの半径方向に延出し、前記回転軸と共に回転するアームと、前記アームの先端部に装着され、前記竪型ドラムの内周面を流下する原料液に流速を付与するブレードと、前記竪型ドラムの下面に設けられ、氷粒子及び原料液を排出する排出口とを備え、
前記タンクは、該タンク内に貯留された氷粒子及び原料液を撹拌する撹拌機を備えることを特徴とする氷スラリー製造システム。 An ice maker that produces fine ice particles, a tank that supplies a raw material liquid to the ice maker and stores the ice particles and the raw material liquid discharged from the ice maker, and a raw material between the ice maker and the tank. It has a circulation pipe for circulating the liquid,
The ice making machine includes a vertical drum whose inner peripheral surface is cooled to a temperature 15° C. to 25° C. lower than the freezing point of the raw material liquid, and a rotary shaft which is arranged on the central axis of the vertical drum and rotates at 10 rpm or more. , A raw material liquid supply means arranged directly above the vertical drum and supplying a raw material liquid toward the inner peripheral surface of the vertical drum, and extending in the radial direction of the vertical drum attached to the rotary shaft. An arm that rotates together with the rotary shaft, a blade that is attached to the tip of the arm and applies a flow velocity to the raw material liquid that flows down the inner peripheral surface of the vertical drum, and is provided on the lower surface of the vertical drum, Equipped with an outlet for discharging ice particles and raw material liquid,
The ice slurry manufacturing system, wherein the tank includes an agitator for agitating the ice particles and the raw material liquid stored in the tank. - 請求項1記載の氷スラリー製造システムにおいて、前記原料液供給手段は、前記竪型ドラムの直上に設置された平面視して円環状の上板と、前記上板の直下に間隙を有して配置され、前記竪型ドラムの内径より小径とされた平面視して円環状の下板と、上端が前記上板の内周縁に沿って固着され、下端が前記下板の内周縁に沿って固着されたリング材とを有し、
前記上板に形成された送液口を介して前記下板上に原料液が供給され、前記下板の外周縁から前記竪型ドラムの内周面に向けて原料液が吐出することを特徴とする氷スラリー製造システム。 2. The ice slurry production system according to claim 1, wherein the raw material liquid supply means has an annular upper plate in plan view which is installed directly above the vertical drum, and a gap immediately below the upper plate. An annular lower plate, which is arranged and has a diameter smaller than the inner diameter of the vertical drum in a plan view, has an upper end fixed along the inner peripheral edge of the upper plate, and a lower end along the inner peripheral edge of the lower plate. Having a fixed ring material,
The raw material liquid is supplied onto the lower plate through a liquid feed port formed in the upper plate, and the raw material liquid is discharged from the outer peripheral edge of the lower plate toward the inner peripheral surface of the vertical drum. Ice slurry manufacturing system.
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PCT/JP2019/046012 WO2020158131A1 (en) | 2019-01-28 | 2019-11-25 | Ice slurry production system |
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JP (1) | JP6589123B1 (en) |
WO (1) | WO2020158131A1 (en) |
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JP7426441B2 (en) | 2022-06-27 | 2024-02-01 | ニチモウ株式会社 | Flow ice production equipment and flow ice production system |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6423075A (en) * | 1987-07-17 | 1989-01-25 | Daikin Ind Ltd | Ice making equipment |
US5261485A (en) * | 1991-08-21 | 1993-11-16 | Hpd, Incorporated | Slurry distributor |
US6301904B1 (en) * | 1995-02-27 | 2001-10-16 | Sunwell Engineering Company Limited | Ice slurry delivery system |
JP2002350017A (en) * | 2001-05-28 | 2002-12-04 | Yatsunori Yotsuya | System for producing fluid ice |
JP2006029609A (en) * | 2004-07-12 | 2006-02-02 | Takuma Co Ltd | Ice maker |
JP2019002614A (en) * | 2017-06-13 | 2019-01-10 | 高知県公立大学法人 | Slurry ice manufacturing device |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US6131397A (en) * | 1999-03-04 | 2000-10-17 | Boeing North American Inc. | Slush producing process and device |
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- 2019-01-28 JP JP2019012167A patent/JP6589123B1/en active Active
- 2019-11-25 WO PCT/JP2019/046012 patent/WO2020158131A1/en active Application Filing
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6423075A (en) * | 1987-07-17 | 1989-01-25 | Daikin Ind Ltd | Ice making equipment |
US5261485A (en) * | 1991-08-21 | 1993-11-16 | Hpd, Incorporated | Slurry distributor |
US6301904B1 (en) * | 1995-02-27 | 2001-10-16 | Sunwell Engineering Company Limited | Ice slurry delivery system |
JP2002350017A (en) * | 2001-05-28 | 2002-12-04 | Yatsunori Yotsuya | System for producing fluid ice |
JP2006029609A (en) * | 2004-07-12 | 2006-02-02 | Takuma Co Ltd | Ice maker |
JP2019002614A (en) * | 2017-06-13 | 2019-01-10 | 高知県公立大学法人 | Slurry ice manufacturing device |
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JP6589123B1 (en) | 2019-10-16 |
JP2020118417A (en) | 2020-08-06 |
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