JP2005192680A - Heat insulation container - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a heat insulation container in which a part between a metallic inner container and an outer container is vacuumed, capable of directly boiling hot water to be heat-insulated in the heat insulation container without boiling it in a different container, boiling the hot water in the heat insulation container as it is again without discharging cooled hot water from the heat insulation container in the case that a hot water temperature declines, cold-insulating ice and cold water as well and being freely carried indoors, outdoors and to open air. <P>SOLUTION: The inner container (1) is metallic, the part between the inner container (1) and the outer container (2) is vacuumed (7), and a magnetic force generating coil (3) is provided internally between the inner container (1) and the outer container (2). A terminal (4) and a terminal (5) are provided on the bottom part of the outer container (2), one end of the magnetic force generating coil (3) is joined to the terminal (4) and the other end of the magnetic force generating coil (3) is joined to the terminal (5). <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

Detailed Description of the Invention

  This invention consists of an inner container and an outer container, a magnetic force generating coil for heating that heats the inner container in a vacuum between the inner container and the outer container, and between the inner container and the outer container, This is related to the insulated container installed inside.

  A conventional heat insulation container is a heat insulation container in which a vacuum layer is formed between inner and outer two layers of glass or stainless steel composed of an inner container and an outer container, and boiled hot water is poured into the inner container for heat insulation. However, as time elapses, the temperature of the inner vessel drops, and the cooled hot water is discharged from the inner vessel to be replaced with new hot water, boiled hot water in another container, and the boiled hot water is There are inconveniences such as re-injection into the inner container to keep warm. In addition, the inner and outer containers are made of stainless steel, only the side has two layers, the inner and outer two layers are vacuum, but the bottom is a single-layer stainless steel electric pot. The water in the inner container is boiled by heating at the bottom, and since the bottom of the inner container is a single layer, when the power is turned off, the boiling water starts to cool from the bottom of the inner container, so that it does not cool down. Wasteful electric power is consumed, for example, by always supplying electric power for keeping warm from an outlet in the room to keep hot water. In this way, there are inconveniences that can not be used outdoors where there is no power source for heat insulation, and it is possible to keep ice inside this container by putting ice or cold water etc. There are no drawbacks.

Problems to be solved by the invention

  The present invention seeks to eliminate the above inconvenience, waste and drawbacks. A heat insulation container with a vacuum between the metal inner container and the outer container. The hot water to be kept in a separate container is not boiled in the container. Instead, the water can be boiled directly in the heat insulation container. Let's develop a heat-insulating container that can be freely carried indoors and outdoors, so that hot water is not released from the heat-insulating container, and can be boiled in the heat-insulating container again, and ice and cold water can be kept cold. It is what.

Means for solving the problem

Now, referring to the drawings, a vacuum (7) is formed between the inner container (1) and the outer container (2), and a magnetic force is generated between the bottom surface of the inner container (1) and the bottom of the outer container (2). The coil (3) is installed inside, the terminal (4) and the terminal (5) are provided at the bottom of the outer container (2), one end of the magnetic force generating coil (3) is joined to the terminal (4), The other end of the magnetic force generating coil (3) is joined to the terminal (5).
The present invention is a heat insulating container having the above-described configuration.

An example of the present plan will be described with reference to the drawings.
First Example A vacuum (7) is formed between the stainless steel inner container (1) and the stainless outer container (2), and a magnetic force is generated between the bottom surface of the inner container (1) and the bottom of the outer container (2). The generator coil (3) is installed, the terminal (4) and the terminal (5) are provided on the bottom cover (6) on the bottom surface of the outer container (2), and one end of the magnetism generating coil (3) is attached to the bottom cover. A thermal insulation container joined to the terminal (4) of (6) and the other end of the magnetic force generating coil (3) joined to the terminal (5) of the bottom cover (6) is placed on the high-frequency power device (8). The terminal (4) and the terminal (5) of the bottom cover (6) of the heat insulation container are bonded to the terminal (9) and the terminal (10) of the high-frequency power device (8), and the power plug (12) is connected to the commercial AC When plugged into a power outlet, the contact of the changeover switch (14) is switched to the contact on the terminal side, and the power switch (13) is turned on, The high frequency power is output from the inverter (16) to the terminal (9) and the terminal (10), and this high frequency power is the terminal of the bottom cover (6) of the heat insulating container bonded to the terminal (9) and the terminal (10). Via the terminal (5) and the terminal (5), it is supplied to the magnetic force generating coil (3) installed in the bottom surface of the inner container (1) to generate a high frequency magnetic field in the magnetic force generating coil (3). An eddy current flows on the bottom surface of the inner container (1) made of stainless steel, and this current acts on the resistance of the bottom surface of the inner container (1) to generate heat. The water contained in the inner container (1) is The inner container (1) is heated at the bottom surface where heat is generated to become hot water.
Second Embodiment A vacuum (7) is formed between the stainless steel inner container (1) and the stainless outer container (2), and the lower part of the outer container (2) is aluminum which is not subjected to heat generation by a high frequency magnetic field. A magnetic force generating coil (3) is installed between the bottom of the outer container (2) made in (20) and the bottom surface of the inner container (1), and the resistor (17) is used as an electric heating element to generate magnetic force. One end of the coil (3) is joined to one end of the resistor (17), and the other end of the resistor (17) is joined to the terminal (4) of the bottom cover (6). The other end of the magnetic force generating coil (3) is joined to the terminal (5) of the bottom cover (6). A magnetic force generating coil (18) is provided between the bottom surface of the outer container (3) and the bottom cover (6), and one end of the magnetic force generating coil (18) and the terminal (5) of the bottom cover (6) The other end of the magnetic force generating coil (18) is joined to the terminal (4) of the bottom cover (6). The heat insulation container having the above configuration is filled with water in the inner container (1), placed on the upper surface portion of the magnetic force generation coil (11) of the high frequency electric power device (8), and the contact of the changeover switch (14) is connected to the magnetic force generation coil ( 11), the power plug (12) is inserted into a commercial AC power outlet, the power switch (13) is turned on, and the high frequency power is output from the high frequency inverter (16). ) To generate a high-frequency magnetic field in the magnetic force generating coil (11), and between the bottom surface of the outer container (2) and the bottom cover (6) of the heat retaining container at the upper surface portion of the magnetic force generating coil (11). The magnetic force generating coil (18) attached to the magnetic force generating coil (11) generates an electromotive force in the magnetic force generating coil (18) due to a mutual induction action with the high frequency magnetic field of the magnetic force generating coil (11), thereby generating an inner container (1). One end of the magnetic force generating coil (3) provided in the bottom surface of the resistor is joined to one end of the resistor (17) having the electric heating element as the resistor (17), and the other end of the resistor (17). Is joined to the terminal (4) of the bottom cover (6) and the other end of the magnetic force generating coil (3) is joined to the terminal (5) of the bottom cover (6). When the high frequency current generated in the magnetic force generating coil (3) flows through the terminal (4) and the terminal (5) of the bottom cover (6) as the induced current of the resistor (17), A high frequency magnetic field is generated in the magnetic force generating coil (3), and this high frequency magnetic field causes an eddy current to flow to the bottom surface of the stainless steel inner container (1), and this current acts on the resistance of the bottom surface of the inner container (1). The bottom surface of the inner container (1) itself generates heat, and the water put in the inner container (1) It will be heated by the heating the bottom of the water.

The invention's effect

  In the heat insulating container of the present invention, since the hot water can be directly boiled by the heat insulating container itself, the trouble of transferring the hot water from other containers can be saved. When the hot water is cooled in the heat insulation container, it is not necessary to replace it with new hot water, and it can be boiled again as it is. Inconveniences such as re-injection into the inner container to keep warm were eliminated. In addition, since the heat retention effect of the heat insulation container of the present invention is equivalent to that of a conventional thermos bottle, it does not require power for heat insulation, so the power consumed by the conventional electric pot for heat insulation can be omitted as wasted power. Was made. As described above, since the heat can be kept for a long time without using electric power, there is an economic effect such as not wasting unnecessary electric power. In addition, since the space between the inner and outer containers is vacuum, not only can hot water be kept, but cold water can also be kept and ice can be stored, so that hot water can be kept for a long time without using electricity. So you can carry it indoors or outdoors. 3 can be placed on the heating part of the electromagnetic induction heating cooker to generate a high frequency magnetic field for heating and boil the hot water.

It is the front view which notched a part of this invention. It is the front view which notched a part of high frequency electric power device (8). It is the front view which notched a part which shows 2nd Example of this invention. FIG. 4 is a block circuit diagram of “FIG. 3”. It is a block circuit diagram of a high frequency electric power device (8).

Explanation of symbols

1 inner container 2 outer container 3 magnetic force generating coil 4 terminal 5 terminal 6 bottom cover 7 vacuum 8 high frequency power generator 9 terminal 10 terminal 11 magnetic force generating coil 12 power plug 13 power switch 14 changeover switch 15 rectifier circuit 16 high frequency inverter 17 resistor 18 Magnetic coil 19 Stainless steel 20 Aluminum

Claims (6)

  The inner container (1) is made of metal, a vacuum (7) is provided between the inner container (1) and the outer container (2), and a magnetic force generating coil (between the inner container (1) and the outer container (2)) 3), the terminal (4) and the terminal (5) are provided at the bottom of the outer container (2), one end of the magnetic force generating coil (3) is joined to the terminal (4), and the magnetic force generating coil A heat insulating container in which the other end of (3) is joined to the terminal (5). A magnetic force generating coil (3) is provided between the bottom surface of the inner container (1) and the bottom of the outer container (2).
Insulation container. A magnetic force generating coil (3) is provided around the outer periphery of the side surface of the inner container (1).
Insulation container. A resistor (17) is joined between one of both ends of the magnetic force generating coil (3) and one of the terminals (4) and (5) on the bottom of the outer container (2). Item 1 "
Insulation container. A magnetic force generating coil (18) is attached to the bottom surface of the outer container (2), one end of the magnetic force generating coil (18) is joined to the terminal (5) at the bottom of the outer container (2), and the magnetic force generating coil The other end of (18) is joined to the terminal (4) at the bottom of the outer container (2).
Insulation container. The outer container (2) is made of metal, and the lower part of the outer container (2) is a metal outer container (2) that is not subjected to heat generation by a high-frequency magnetic field.
Insulation container.

Images