JP2012528665A - Self-heating container - Google Patents

Abstract

  The present invention relates to a heating container. There is food to eat warm at home and restaurants. Soups and hot pots are eaten while being heated on a gas stove, but teppanyaki, mature meat, tempura, potatoes, etc. cannot be heated on a gas stove or are very inconvenient. The exothermic container of the present invention itself has a heat generating function, and after heating it, if you put various foods on it and eat it, you can eat it warmly until you eat all the food, so that food has It is a very useful fever container that can be eaten while tasting its unique taste.

Description

  The present invention relates to a heating container. Conventional heating containers often use a method in which the container itself is heated to retain heat. I still use it. Such a method does not have the function of being heated by itself, so there is a disadvantage that the heat cools down and it cools down before eating the food. When heat was applied to make it hold a lot of heat, it was too hot at first and then slowly cooled down, and the temperature difference was too large, thus hindering the taste of food. Also, it is very inconvenient to use.

  At home, it takes a housewife's efforts to eat more delicious food. At mass restaurants, the taste of food influences the success or loss of business. Yes. However, when serving delicious food to the customer's table, food that must be eaten while it is warm quickly gets cold, making the food delicious and giving the customer a bad impression, and the customer may not come again Occur. Therefore, it is important to make delicious food, but it is also important to have an environment where you can eat delicious food until you finish eating it. From such a point of view, the exothermic container of the present invention is an exothermic container capable of serving very useful food that protects the taste of food to the end.

  The problems to be solved by the present invention are to provide a function capable of generating heat by itself, to easily control the heat generation, to be an appropriate temperature suitable for food, to maintain the temperature for a long time, It must be a safe and inexpensive configuration with all the features of being available.

  In the present invention, in order to solve the above-mentioned problems, a function capable of generating heat using a solution or an aqueous solution of sodium acetate, sodium thiosulfate or the like used in a hand fireplace is provided, and the heat generation control can be shocked. By using a snap impact device that can be operated efficiently, it is made into a module and mounted on the container, and the container thickness is adjusted. The heat generation time is short. The temperature can be adjusted by adjusting the amount of aqueous solution or aqueous solution of sodium acetate, sodium thiosulfate, etc. and the proportion of water, and the vessel used can be dissolved in boiling water or electronically adjusted to the required conditions. A range is also possible. All of the components were equipped with a heat-generating container that was inexpensive and cost effective.

  As described above, the heat generating container of the present invention can be reused semipermanently while having its own self-heating function, heat generation control is simple, it can be configured at low cost, and industrialization is possible. Very useful.

4 is a cut perspective view of a self-heating container equipped with an impact module 35. FIG. 4 is a cut front view of a self-heating container equipped with an impact module 30. FIG. It is sectional drawing to which the principal part of FIG. 2 was expanded. FIG. 4 is a cross-sectional view showing the shock module 32 mounted in FIG. 3. FIG. 5 is a cross-sectional view showing the impact module 35 mounted in FIG. 4. FIG. 6 is a cross-sectional view showing the impact module 36 mounted.

  Hereinafter, the configuration and embodiments of the present invention will be described in detail with reference to the accompanying drawings. In FIG. 1, a double container internal space 12 is formed inside a double container upper plate 10 and a double container lower plate 11 to form a typical container. That is, it is a cut perspective view of a self-heating container made by mounting a shock module 35 in the center of the double container internal space portion 12 in a double container having the double container internal space portion 12. 2 and 3 include an impact module 30 in the double container internal space 12 of the self-heating container. The impact module 30 has a circular outer peripheral portion protruding into a small container shape, and is provided with an impact module internal space 17. The lower end and upper end of the impact module 30 are formed to form an assembly tank 16 at the upper end of the outer peripheral protrusion. Each of the protrusions was formed to form an assembly tank 16. The assembly tank 16 is provided with an impact elastic member means 21, and has an upper end protruding and a lower end bent. The impact elastic member means 21 may be formed in a polygonal shape. However, in the present invention, a circular impact elastic member means 21 is illustrated, and a lower end portion of the impact elastic member means 21 is provided with a restoring spring 20, and an impact is provided. The elastic member means 21 is restored. The restoring spring 20 shown in the present invention may use impact elastic member means as the spring means, or may be replaced with another form of elastic member means having elastic force. The upper end portion of the impact elastic member means 21 is provided with a protruding portion 22 provided on the double container upper plate 10 adjacent thereto, and the protruding portion 22 of the double container upper plate 10 is manually provided by a person. When the center portion is pushed, the projecting portion 22 strongly presses the impact elastic member means 21, and the impact elastic member means 21 is recessed at the upper end portion by the outer peripheral portion being locked by the separation preventing convex portion 14, It changes into the form which a lower end protrudes. And the impact elastic member means 21 comes to store an elastic force. At this time, if a person releases the hand pressing the double container upper plate 10, the protrusion 22 does not press the impact elastic member means 21. Although the impact elastic member means 21 can be restored by itself, it is easily restored by the elasticity of the compressed impact elastic member means 21 and is instantly restored at this time, so that the impact is very large. At this time, since it is locked by the detachment prevention convex portion 15, it does not detach from the assembly tank 16 and reacts with a solution or an aqueous solution such as sodium acetate or sodium thiosulfate in the double container internal space portion 12 by a restoring impact. Thus, reaction heat is generated, whereby the double container upper plate 10 and the double container lower plate 11 are heated to form a self-heating container as a whole. In FIG. 4, the impact module 32 has a more reliable impact module 32 by forming a projecting portion 23 on the curved upper end portion of the center of the impact elastic member means 21 to serve as the projecting portion 22. 5, the impact module 35 is covered with a slide lid 34 on the upper end of the impact module 30, and the protrusion 22 is formed inside thereof. When the upper plate 10 of the double container is pushed, the slide lid 34 is pressed to slide. The protrusion 22 provided inside the center of the lid 34 pushes the impact elastic member means 21. FIG. 6 shows the impact module 32 covered with a slide lid 34. The impact module internal space 17 of the impact module 30, the impact module 32, the impact module 35, and the impact module 36 has a double container internal space 12 and at least one side connection portion, and a solution such as sodium acetate or sodium thiosulfate or It has a porous part in which aqueous solutions can flow freely. It can be prepared by dissolving a solution or an aqueous solution of sodium acetate, sodium thiosulfate or the like, and a supersaturated sodium acetate aqueous solution reacts by an impact module, but also reacts by friction. The reaction is caused by friction of each part of the impact module of the present invention or by friction between other metals. Therefore, if necessary, the double container upper plate 10 and the double container lower plate 11 are provided with a portion that rubs against each other, and the portion is configured to be uneven so that the frictional force is increased. When pressed with force, friction is generated between the two so that the sodium acetate solution or aqueous solution can react with the friction force. Or, in order to prepare the same condition or similar conditions, it can be used with necessary means in a warm storage or a microwave oven. The sodium thiosulfate solution or aqueous solution is also as described above. The body of the self-heating container is most preferably stainless steel. It should be clarified that the garlic can be made of aluminum or a synthetic resin material with uniform conditions.

DESCRIPTION OF SYMBOLS 10 Double container upper board 11 Double container lower board 12 Double container inner space part 13 Impact module fixing tool 14 Detachment prevention convex part 15 Detachment prevention convex part 16 Assembly tank 17 Impact module inner space 20 Restoration spring 21 Impact elastic member means 22 Projection 23 Projection 30 Impact Module 32 Impact Module 34 Slide Cover 35 Impact Module

Claims (6)

  The internal double container internal space (12) composed of the double container upper plate (10) and the double container lower plate (11) is filled with a solution or aqueous solution such as sodium acetate or sodium thiosulfate, and the impact elastic member means A self-heating container comprising an impact module (35) provided with (21).   The self-heating container according to claim 1, wherein the double container upper plate (10) and the double container lower plate (11) are made of stainless steel.   The self-heating container according to claim 1, wherein the material of the double container upper plate (10) and the double container lower plate (11) is a synthetic resin.   Either the double container upper plate (10) or the double container lower plate (11) is a metal means that does not rust, the other is a synthetic resin means, and acetic acid is added to the internal double container internal space (12). A self-heating container comprising an impact module (35) filled with a solution such as sodium or sodium thiosulfate or an aqueous solution and provided with impact elastic member means (21).   The internal double container internal space (12) consisting of the double container upper plate (10) and the double container lower plate (11) is filled with a solution or aqueous solution such as sodium acetate or sodium thiosulfate, and ultrasonic waves are applied from the outside. A self-heating container that induces a reaction in a solution or aqueous solution of sodium acetate, sodium thiosulfate, etc. by applying an impact by means of shaking.   The impact module (30) can be formed in a small container shape with a circular outer peripheral portion protruding, is provided with an impact module internal space (17), and an assembly tank (16) at the upper end of the protruding portion of the outer peripheral portion. To form an assembly tank (16) by forming protrusions on the lower end and the upper end thereof, and the impact elastic member means (21) can be formed into a polygon in the assembly tank (16). The lower end of the impact elastic member means (21) is provided with a restoring spring (20) so that the impact elastic member means (21) can be restored, and the upper end of the impact elastic member means (21) is doubled. The protrusion (22) provided on the container upper plate (10) is adjacently provided, and when the central portion where the protrusion (22) of the double container upper plate (10) is formed is pressed, the protrusion (22 ) Came to strongly press the impact elastic member means (21) The impact elastic member means (21) changes into a form in which the upper end portion is recessed and the lower end portion protrudes only by the relationship that the outer peripheral portion is locked to the separation preventing convex portion (14), and the impact elastic member means (21) is elastic. When the force is stored and at this time the person releases the hand pressing the upper plate (10) of the double container, the protrusion (22) does not press the impact elastic member means (21), and the impact elastic member means (21 ) Can be restored by itself, but is easily restored by the elasticity of the compressed impact elastic member means (21). At this time, it is locked by the separation preventing projection (15) of the impact elastic member means (21). Therefore, the self-heating container that induces a reaction of a solution or an aqueous solution of sodium acetate, sodium thiosulfate, or the like in the double container internal space (12) without restoring from the assembly tank (16).

Images