Self-heating container for pre-cooked food

Abstract

This container comprises: an outer receptacle containing a lower vessel carrying calcium oxide, a water bag and a striker to break the bag and mix the water with the calcium oxide causing an exothermic reaction; and an upper vessel carrying the pre-cooked food and fixed on the lower vessel. The outer receptacle has on its side surface: recessed sectors and projecting sectors forming hollow side chambers between the lower container and the side surface of the outer receptacle and, in correspondence with the upper end of the mentioned vertical sectors, a perimetral step for the linear support of a projecting rim defined in the upper opening of the lower vessel. The upper vessel comprises a perimetral step in an area close to its upper end for its support and fixing by means of an adhesive on the projecting upper rim of the lower vessel.

Claims

1. A self-heating container for pre-cooked food comprising a round-shaped upper vessel carrying the pre-cooked food, provided with a base, a side surface and an upper opening with a closure lid; a round-shaped lower vessel having a base, a side surface and an upper opening, being housed in a round-shaped outer receptacle and carrying calcium oxide, a water bag and a striker to break the water bag and mix water from said water bag with the calcium oxide causing an exothermic reaction, wherein said round-shaped lower vessel is formed from aluminum foil and has side folds that expand during said exothermic reaction; and the round-shaped outer receptacle having a base, a side surface, an upper opening having an upper end and an outer receptacle perimetral step located below said upper end forming a first support surface of the round-shaped lower vessel, the round-shaped outer receptacle has alternately arranged along its outer side surface, vertical recessed sectors and vertical projecting sectors that project away from an interior of said round-shaped outer receptacle and longitudinally extend from said outer receptacle perimetral step to said outer receptacle base thereby optimizing use of the heat from the exothermic reaction from the round-shaped lower vessel for heating the pre-cooked food contained in the round-shaped upper vessel; the round-shaped lower vessel is centered with respect to the round-shaped outer receptacle by means of said vertical recessed sectors, wherein said vertical projecting sectors form hollow side chambers between the round-shaped lower vessel and the side surface of the round-shaped outer receptacle minimizing loss of heat through the side of the round-shaped outer receptacle and allowing the lower vessel side surface to expand laterally due to the exothermic reaction; said outer receptacle perimetral step supporting a lower vessel projecting rim defined in the upper opening of the round-shaped lower vessel, said round-shaped lower vessel has only a single pair of opposed vertical assembly guides on its side surface projecting away from an interior of said round-shaped lower vessel and longitudinally extending from said lower vessel projecting rim to said lower vessel base, said single pair of opposed vertical assembly guides being received only inside a single pair of opposed vertical projecting sectors of said plurality of vertical projecting sectors of the round-shaped outer receptacle preventing rotational movement of said round-shaped lower vessel inside said round-shaped outer receptacle and minimizing the contact surface between the round-shaped outer receptacle and the round shaped lower vessel, thereby reducing loss of heat and risk of burns for a user handling the container, wherein each of said single pair of opposed vertical projecting sectors has a stepped portion supporting a complementary stepped portion provided on each vertical assembly guide of said single pair of opposed vertical assembly guides, forming a second support surface of the round-shaped lower vessel so that the base of said round-shaped lower vessel is separated from the base of said round-shaped outer receptacle additionally minimizing outward heat loss through the base of the round-shaped outer receptacle; wherein the round-shaped lower vessel has a projecting diametrical portion at its base forming an inner housing for positioning the striker and contacting with the base of the round-shaped outer receptacle, the rest of the base of the round-shaped lower vessel being arranged spaced from the base of the round-shaped outer receptacle additionally minimizing loss of heat through the base of the round-shaped outer receptacle; and the round-shaped upper vessel comprises an upper vessel projecting rim defined in the upper opening and an upper vessel perimetral step located below said upper vessel projecting rim, wherein the upper vessel perimetral step is supported on said lower vessel projecting rim and the upper vessel projecting rim is supported on the upper end of said round-shaped outer receptacle, most of the outer surface of the round-shaped upper vessel being arranged under the outer receptacle perimetral step and inside the round-shaped lower vessel so that the base and the side surface of the round shaped upper vessel are directly exposed to the heat released by the exothermic reaction of the water and the calcium oxide contained in the round-shaped lower vessel.

2. The container according to claim 1, wherein said complementary stepped portions are located in an intermediate area of said single pair of opposed vertical assembly guides and said stepped portions are located in an intermediate area of said single pair of opposed vertical projecting sectors forming support areas for the round-shaped lower vessel with respect to the round-shaped outer receptacle.

Description

DESCRIPTION OF THE DRAWINGS

(1) To complement the description that is being made and for the purpose of aiding to better understand the features of the invention, a set of drawings is attached to this specification in which the following is depicted with an illustrative and non-limiting character:

(2) FIGS. 1 and 2 show respective exploded top and bottom perspective views of the different elements forming the self-heating container for pre-cooked food according to the invention, with the exception of the calcium oxide which has not been depicted as it is a powder material contained in the lower vessel.

(3) FIG. 3 shows a perspective view of the self-heating container according to the invention in the assembled position.

(4) FIG. 4 shows an elevational view of the self-heating container of the previous figures in the assembled position.

(5) FIG. 5 shows a profile view of the self-heating container sectioned by the vertical plane referenced as A-A in FIG. 4.

PREFERRED EMBODIMENT OF THE INVENTION

(6) In the embodiment shown in the attached figures, the self-heating container comprises an outer receptacle (1) where a lower vessel (2) and an upper vessel (3) are stored, fixed to one another as described below.

(7) The outer receptacle (1), formed in this case from recycled cardboard, has a base (11), a side surface (12) and an upper opening (13). Said outer receptacle (1) has, alternately arranged on its side surface, (12) recessed sectors (14) and projecting sectors (15) finished at the top with a perimetral step (16) forming a first linear support surface of the lower vessel (2).

(8) Two diametrically opposed projecting sectors (15) have in their intermediate area a stepped portion (17) forming a second support surface for the lower vessel (2).

(9) The lower vessel (2), formed in this case from aluminum, has a base (21), a side surface, and an upper opening (23) with a projecting rim (24) for its linear support on the perimetral step (16) of the outer receptacle (1).

(10) This lower vessel (2) has a diametrical portion (25) at its base projecting forming an inner housing for positioning a striker (7) which, when pressed by the user from the bottom of the container, causes the water bag (6) housed inside the lower vessel to break and the water to mix with another component, in this case calcium oxide (5), also arranged inside the lower vessel, as shown in FIG. 5, causing an exothermic reaction releasing the heat necessary for heating the upper vessel (3) containing a pre-cooked food.

(11) The lower vessel (2) has two vertical guides (26) in diametrically opposed positions for its assembly in those projecting sectors (15) provided with the intermediate stepped portions (17).

(12) These vertical guides (26) have stepped portions (27) complementary to those of the outer receptacle (1), both stepped portions (17, 27) forming complementary support areas for the lower vessel (2) with respect to the outer receptacle (1).

(13) The upper vessel (3) containing the pre-cooked element to be heated has a base (31) and a side surface (32) having a perimetral step (33) in an area close to its upper opening (34).

(14) This upper opening (34) is provided with a closure lid (4) conserving the pre-cooked foods contained in the upper vessel (3) until the container is used.

(15) As can be seen in FIG. 5, the arrangement of the perimetral step (33) of the upper vessel (3) in an area close to its upper opening (34) determines that once the upper vessel (3) is fixed through its perimetral step (33) on the projecting rim (24) of the lower vessel (2) by means of a strip of adhesive (8), virtually the entire outer surface of the upper vessel (3) is housed inside the lower vessel (2) and therefore directly exposed to the heat released by the reaction of the components contained in the lower vessel (2).

(16) As mentioned above and as can be seen in FIG. 5, in the assembly position the base (21) of the lower vessel (2) is spaced from the base (11) of the outer receptacle, with the exception of the diametrical portion (25) containing the striker (7), considerably reducing the outward loss of heat through the mentioned base (11) of the outer receptacle (1)

(17) Likewise, the projecting sectors (15) defined in the side surface (12) of the outer receptacle (1) form hollow chambers between the side surfaces (12,22) of the outer receptacle (1) and of the lower vessel (2) which reduce the outward loss of heat through the side surface of the mentioned outer receptacle (1) and allow housing portions of the side surface of the lower vessel (2) if the latter expands laterally due to the effect of the exothermic reaction occurring therein.

(18) This expansion occurs primarily when said lower vessel is formed from aluminum foil and has side folds that readily expand during the exothermic reaction caused by the mixture of components contained therein.

(19) Having sufficiently described the invention as well as a preferred embodiment thereof, it is hereby stated for all effects and purposes that the materials, shape size and arrangement of the described elements can be modified provided that it does not entail an alteration of the essential features of the invention claimed below.