JP2015200457A - Ice making machine and ice manufacturing method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an ice making machine capable of manufacturing an ice whose desired place is white muddy.SOLUTION: An ice making machine 1 includes a body 2 having a recess part 4 having a shape corresponding to a manufactured ice, and a lid body 3 attached to the body 2 so as to cover the recess part 4. On the periphery of the recess part 4 inside the body 2 of the ice making machine 1, provided is a heat insulation material 5 for adjusting a speed at which water put into the recess part 4 freezes. The thickness of the heat insulation material 5 on the periphery of the recess part 4 is set so that a lower side is made thicker than an upper side.

Description

  The present invention relates to an ice maker and an ice manufacturing method.

  2. Description of the Related Art Conventionally, an ice maker that produces ice by putting water into a container and freezing it in a freezer compartment has been used. In the water put in the container, air does not escape and remains as small bubbles. In addition, when tap water is used in ordinary households, the water may contain chlor and impurities. Freezing water containing bubbles, chalk and impurities will make the resulting ice cloudy white. In view of this, an ice making device that makes ice with high transparency (ice that is not white and cloudy) has been proposed (see, for example, Patent Document 1).

JP-A-9-159334

  However, in a conventional ice making machine, although it is possible to make ice with high transparency (ice that is not white and cloudy), it is not possible to control the white cloudy part to the desired position when making ice.

  The present invention has been made in view of the above problems, and an object of the present invention is to provide an ice making device capable of producing ice in which a desired position is white and cloudy.

  An ice maker according to the present invention is an ice maker comprising a main body having a recess having a shape corresponding to the ice to be manufactured, and a lid attached to the main body so as to cover the recess. Is provided with a heat insulating material for adjusting the speed of freezing of water contained in the recess, and the thickness of the heat insulating material around the recess is set to be thicker on the lower side than on the upper side.

  As a result, when water is frozen in the concave portion of the ice making machine main body, the heat insulating material around the concave portion is thicker on the lower side than on the upper side, so the water freezes faster on the upper side of the concave portion (the concave portion The upper side of the frost freezes first), and the lower the recess, the slower the water freezes (the lower side of the recess freezes later). At this time, bubbles and impurities in the water are gathered toward the one that freezes more slowly (lower side), and in the finished ice, the part corresponding to the lower side of the recess becomes cloudy white. In this way, it is possible to control the white turbid part when making ice, to the desired position (the part corresponding to the lower side of the concave part), and the desired position (the part corresponding to the lower side of the concave part) becomes white and turbid. Ice can be produced.

  In the ice maker of the present invention, the shape of the ice to be manufactured is a mountain shape, the shape of the recess is an inverted mountain shape, and the thickness of the heat insulating material around the recess is lower than the upper side of the inverted mountain shape. It may be set to be thicker.

  This makes it possible to control the white turbid portion at the desired position (the peak portion of the mountain-shaped ice) during ice making, and it is possible to produce mountain-shaped ice with the mountain peak portion being white and cloudy.

  In the ice maker of the present invention, the shape of the ice to be manufactured is a cone shape or a pyramid shape, the shape of the recess is an inverted cone shape or an inverted pyramid shape, and the thickness of the heat insulating material around the recess is an inverted cone. The lower side of the shape or the inverted pyramid shape may be set to be thicker on the lower side.

  This makes it possible to control the white turbid part at the desired position (the top part of cone-shaped or pyramid-shaped ice) when making ice, and to produce cone-shaped or pyramid-shaped ice with a white cloudy top. Can do.

  In the ice maker of the present invention, the shape of the ice to be manufactured is a cylindrical shape or a prismatic shape, the shape of the recess is an inverted cylinder shape or an inverted prism shape, and the thickness of the heat insulating material around the recess is an inverted cylinder. The lower side of the shape or the inverted prism shape may be set to be thicker.

  This makes it possible to control the white turbid part when making ice to the desired position (the top part of the columnar or prismatic ice), and to produce cylindrical or prismatic ice with the top part white and cloudy. Can do.

  The ice manufacturing method of the present invention is an ice manufacturing method for manufacturing ice using an ice maker, and the ice maker is attached to the main body so as to cover the concave portion with a main body having a concave shape corresponding to the ice to be manufactured. A heat insulating material for adjusting the freezing speed of water contained in the concave portion is provided around the concave portion inside the main body, and the thickness of the thermal insulating material around the concave portion is the upper side The ice making method includes a step of putting water into the concave portion of the ice making machine, and cooling the ice making device to 0 degrees or less so that the water below the water above the concave portion is water. A step of freezing slowly.

  Even with this ice manufacturing method, as in the above ice maker, it is possible to control the white cloudy part when making ice to the desired position (the part corresponding to the lower side of the concave part), and the desired position (the lower side of the concave part). It is possible to produce ice that is white and cloudy.

  According to the present invention, it is possible to produce ice that is cloudy in the desired position.

It is a perspective view of the ice making machine in embodiment of this invention. It is a back surface perspective view of the cover body of the ice maker in embodiment of this invention. It is a sectional side view of the ice making machine in embodiment of this invention. It is an exploded side sectional view of an ice making machine in an embodiment of the invention. It is a perspective view of the ice manufactured with the ice maker of an embodiment of the invention. It is a perspective view of the ice maker in other embodiments. It is a perspective view of the ice maker in other embodiment.

  Hereinafter, an ice making device according to an embodiment of the present invention will be described with reference to the drawings. In this Embodiment, the case of the ice maker used at a restaurant, a general household, etc. is illustrated.

  The configuration of the ice making device according to the embodiment of the present invention will be described with reference to FIGS. As shown in FIGS. 1 and 2, the ice making device 1 of the present embodiment includes a main body 2 and a lid 3. The main body 2 and the lid 3 are made of, for example, synthetic resin (such as silicon). A concave portion 4 having a shape corresponding to the ice to be manufactured is provided in the central portion of the main body 2 of the ice making device 1. In this case, the shape of the ice to be manufactured is a mountain shape, and the shape of the recess 4 is an inverted mountain shape. The lid 3 is attached to the main body 2 so as to cover the recess 4.

  As shown in FIGS. 3 and 4, in the body 2 of the ice making device 1, a heat insulating material 5 for adjusting the freezing speed of the water put in the recess 4 is provided around the recess 4. . As the heat insulating material 5, for example, foamed polystyrene, sponge, paper, gel, oil, or the like can be used. Moreover, a vacuum structure can also be utilized as the heat insulating material 5. The thickness of the heat insulating material 5 is set so that the lower side is thicker than the upper side. In this case, the thickness of the heat insulating material 5 is set so that the lower side (lower side in FIG. 3) is thicker than the upper side (upper side in FIG. 3) of the inverted mountain shape.

  When manufacturing ice using the ice maker 1 configured as described above, water is poured into the recess 4 of the ice maker 1 and then the ice maker 1 is placed in a freezer and cooled to below 0 degrees. The lower water is frozen more slowly than the upper water of the recess 4. In this way, mountain-shaped ice as shown in FIG. 5 (mountain-shaped ice having a cloudy white top) is produced. The lid 3 of the ice making device 1 can be used as a table on which the ice thus manufactured is placed.

  According to the ice making device 1 of the present embodiment, a white cloudy portion can be controlled to a desired position (general position in the vertical direction) when ice making, and the desired position (general position in the vertical direction) is determined. White cloudy ice can be produced.

  In the present embodiment, when water is poured into the recess 4 of the main body 2 of the ice making machine 1 and frozen, the thickness of the heat insulating material 5 around the recess 4 is thicker on the lower side than on the upper side. The water freezes faster toward the upper side (the upper side of the recess 4 freezes earlier), and the water freezes slower toward the lower side of the recess 4 (the lower side of the recess 4 freezes later). At this time, bubbles, impurities, etc. in the water are collected toward the one that freezes more slowly (lower side), and in the completed ice, the part corresponding to the lower side of the recess 4 becomes cloudy white. In this way, it is possible to control a white turbid portion when making ice, to a desired position (a portion corresponding to the lower side of the concave portion 4), and a desired position (a portion corresponding to the lower side of the concave portion 4) to be white. Cloudy ice can be produced.

  In this embodiment, the shape of the ice to be manufactured is a mountain shape, the shape of the recess 4 is an inverted mountain shape, and the thickness of the heat insulating material 5 around the recess 4 is lower than the upper side of the inverted mountain shape. The side is set to be thicker. This makes it possible to control the white turbid portion at the desired position (the peak portion of the mountain-shaped ice) during ice making, and it is possible to produce mountain-shaped ice with the mountain peak portion being white and cloudy.

  The embodiments of the present invention have been described above by way of example, but the scope of the present invention is not limited to these embodiments, and can be changed or modified according to the purpose within the scope of the claims. is there.

  For example, in the above description, the ice making device 1 that produces one piece of ice has been described. However, a plurality of ice making devices 1 may be connected to produce a plurality of ice pieces.

  Moreover, the shape of the ice to be manufactured may be a cone shape or a pyramid shape. The pyramid shape includes a triangular pyramid, a quadrangular pyramid, a pentagonal pyramid, and the like. In this case, as shown in FIG. 6, the shape of the recess 4 of the ice making device 1 is an inverted cone shape or an inverted pyramid shape, and the thickness of the heat insulating material 5 around the recess 4 is an inverse cone shape or an inverted pyramid shape. The lower side is set to be thicker than the upper side.

  Thereby, cone-shaped or pyramid-shaped ice can be manufactured. And, when making ice, the white cloudy part can be controlled to the desired position (the top part of cone-shaped or pyramid-shaped ice), and the cone-shaped or pyramid-shaped ice whose top part is cloudy white can be produced. it can.

  Moreover, the shape of the ice to be manufactured may be a cylindrical shape or a prismatic shape. The prismatic shape includes a triangular prism, a quadrangular prism (cube or rectangular parallelepiped), a pentagonal prism, etc. In this case, as shown in FIG. 7, the shape of the concave portion 4 of the ice making device 1 is an inverted cylindrical shape or an inverted prism shape, and the thickness of the heat insulating material 5 around the concave portion 4 is an inverted cylindrical shape or an inverted prism shape. The lower side is set to be thicker than the upper side.

  Thereby, cylindrical or prismatic ice can be produced. And, when making ice, the white turbid part can be controlled to the desired position (the top part of the columnar or prismatic ice), and the columnar or prismatic ice with the top part white can be produced. it can.

  1 to 6, the shape of the main body 2 of the ice maker 1 is illustrated as an example in which the diameter decreases from the upper side to the lower side of the main body 2. The diameter may be larger toward the lower side than the upper side, and the upper and lower diameters of the main body 2 may be the same.

  As described above, the ice making device according to the present invention has an effect of producing white cloudy ice at a desired position, and is useful in restaurants and general households.

DESCRIPTION OF SYMBOLS 1 Ice maker 2 Main body 3 Lid 4 Recessed part 5 Thermal insulation

Claims (5)

A main body having a recess having a shape corresponding to the ice to be manufactured;
A lid attached to the main body so as to cover the recess;
An ice maker comprising:
Inside the main body, around the recess is provided with a heat insulating material for adjusting the freezing speed of the water put in the recess,
The ice making machine, wherein the thickness of the heat insulating material around the recess is set so that the lower side is thicker than the upper side. The shape of the ice to be manufactured is a mountain shape, and the shape of the recess is an inverted mountain shape,
The ice maker according to claim 1, wherein a thickness of the heat insulating material around the concave portion is set so that a lower side is thicker than an upper side of the inverted mountain shape. The shape of the ice to be manufactured is a cone shape or a pyramid shape, and the shape of the concave portion is an inverted cone shape or an inverted pyramid shape,
2. The ice maker according to claim 1, wherein a thickness of the heat insulating material around the concave portion is set to be thicker on a lower side than an upper side of the inverted cone shape or the inverted pyramid shape. The shape of the ice to be manufactured is a cylindrical shape or a prismatic shape, and the shape of the concave portion is an inverted cylindrical shape or an inverted prismatic shape,
2. The ice maker according to claim 1, wherein a thickness of the heat insulating material around the concave portion is set to be thicker on a lower side than an upper side of the inverted cylindrical shape or the inverted prism shape. An ice production method for producing ice using an ice maker,
The ice maker comprises a main body having a recess having a shape corresponding to the ice to be manufactured, and a lid attached to the main body so as to cover the recess.
Inside the main body, around the recess, a heat insulating material for adjusting the freezing speed of water contained in the concave portion is provided, and the thickness of the heat insulating material around the concave portion is lower than the upper side. Is set to be thicker,
The ice manufacturing method includes:
Putting water into the recess of the ice maker;
Cooling the ice maker to 0 degrees or less and freezing the water below the upper side of the recess more slowly;
A method for producing ice, comprising: