KR101480165B1 - Self-heating container which is possible for temperature setting - Google Patents

Abstract

The present invention relates to an outer container (100) having a hollow interior in a vertical direction; An inner vessel 200 installed inside the outer vessel 100 and having a lid 210 installed therein and having an upper end opened to cover the inner vessel 200; A support container 300 covering the lower end of the outer container 100 and containing a heating element 400 that generates heat by reacting with water in the inner space; A hermetically sealed container 500 which covers the upper end of the outer container 100 and has a plurality of through holes 501 through which vapor raised in the heating body 400 passes, And a discharge port 610 covering the upper end of the hermetically sealed container 500 and discharging the vapor raised in the passage hole 501. The discharge port 610 is openably and closably provided in the discharge port 610, And a temperature setting container (600) including an opening / closing unit for adjusting the temperature of the self-heating container (1000).

Description

[0001] The present invention relates to a self-heating container,

The present invention relates to a self-heating container capable of setting a self-heating and rising temperature to a specific value.

In general, when performing specific tasks such as management of a building or specific facilities such as leisure activities or expenses such as mountain climbing, fishing, sports, or training in winter or low temperature in low atmospheric temperature, beverages such as coffee heated at an appropriate temperature Or hot water for cooking instant foods such as ramen noodles is required.

In addition, even when the baby goes out together with the infant, it is necessary to heat the milk to an appropriate temperature or to heat the milk to an appropriate temperature in order to ride the milk powder according to the atmospheric temperature.

However, heating means such as a portable burner is preferably used in order to obtain a beverage having a proper temperature or to heat milk powder or milk. However, it is considerably inconvenient to carry such a heating means separately when carrying out leisure activities or a specific operation Not only is it possible to carry a heating means, but also carries a safety concern such as a fire depending on a place of a leisure activity and prohibits the carrying of a heating means.

In addition, it is impossible to carry the actual heating means when the infant is going out of the house.

Therefore, when carrying out a leisure activity or a special work in case of going out with an infant, it is common to store hot water or milk heated to a proper temperature in a so-called 'thermos', but carrying hot water or milk stored in the thermos It is difficult to eliminate the possibility of deterioration such as occurrence of an unpleasant smell during storage for a long time as well as the temperature is likely to change with the lapse of time.

Therefore, from the above reasons, it is necessary to take measures to obtain hot water for cooking, such as instant food, which can be easily heated while being easily portable.

To solve this problem, Korean Patent Laid-Open Publication No. 2014-0019143 discloses a container having an accommodating space, an outer container having an upper portion formed in a stepped shape so that a content container to be described later is seated; A flange is formed on the outer peripheral side portion so as to be received in the receiving space of the outer container and to be seated thereon, the flange having a "A" shape having a "B" shape bent at an end so that a packing to be described later can be fitted; A heating element located in the receiving space of the outer container and generating heat by reacting with water; The upper end of the arc-shaped portion is in contact with the outer container, and the outer end of the arc-shaped portion is in contact with the outer container. A packing for placing the content container apart from the container; A lid seated on the top of the container; An outer container and a part of the content container are accommodated between the upper and lower horizontal parts and are formed in a "C" shape, And a hinge protrusion formed on the hinge protrusion. The hinge protrusion is received in the annular ring so that the hinge protrusion is rotatably mounted on the fixed piece. The lower portion of the clamp is connected to the clamp to form a pair of clamps And a locking means formed of a connecting member for connecting the cooking cavity and the cooking cavity.

The prior art uses a vapor generated during heating in a heating element to heat the content container.

However, the conventional technology has a problem in that the internal temperature of the content container can not be set to a specific temperature because the content container is continuously heated by the steam generated during the heat generation in the heating element.

Therefore, it is necessary to develop a self-heating container capable of setting various temperatures to solve the above-mentioned problems.

Korean Patent Publication No. 2014-0019143 (Feb. 14, 2014)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide a method and apparatus for controlling the amount of steam generated during heat generation in a heating element, To provide a self-heating container.

A self-heating container (1000) capable of setting a temperature according to the present invention comprises: an outer container (100) hollow inside in a vertical direction; An inner vessel 200 installed inside the outer vessel 100 and having a lid 210 installed therein and having an upper end opened to cover the inner vessel 200; A support container 300 covering the lower end of the outer container 100 and containing a heating element 400 that generates heat by reacting with water in the inner space; A hermetically sealed container 500 which covers the upper end of the outer container 100 and has a plurality of through holes 501 through which vapor raised in the heating body 400 passes, And a discharge port 610 covering the upper end of the hermetically sealed container 500 and discharging the vapor raised in the passage hole 501. The discharge port 610 is openably and closably provided in the discharge port 610, And a temperature setting container 600 including opening and closing means for adjusting the temperature of the container.

The opening and closing means may include a lid 620 provided inside the discharge port 610 and a lid 620 coupled to the lid 620 through the lid 610 and the lid 620, And a rotating shaft 630 that forms a discharge space through which steam is discharged between the outer surface of the lid 620 and the inner surface of the discharge port 610.

The cover 620 is divided into a first separating lid 621 and a second separating lid 622. The first separating lid 621 is separated from the first separating lid 621 by a contact surface contacting the second separating lid 622, A seating protrusion 622-1 which is seated in the recessed hole 621-1 is formed on a contact surface of the second separation cover 622 abutting against the first separation cover 621, And the rotation shaft 630 passes through the discharge port 610, the first separation lid 621 and the mounting projection 622-1 and is coupled with the mounting projection 622-1, 630 rotate only the second separation lid 622 to form a discharge space between the outer surface of the second separation lid 622 and the inner surface of the discharge port 610 to discharge the steam.

The lid 620 is installed on the upper side and the lower side of the discharge port 610 and is connected to the second separation lid 622 of the lid 620 installed inside the discharge port 610 and the discharge port 610 And the second separating lid 622 of the lid 620 provided inside the lower portion of the second separating lid 622 are arranged to be shifted in the vertical direction from each other.

The hermetically sealed container 500 is characterized in that a sealing ring 510 protruding from the lower end of the inner container 200 to cover the upper end of the inner container 200 is formed.

In addition, the receiving container 300 is formed with a receiving ring 310 protruding from the upper end to cover the lower end of the inner container 200.

Accordingly, the self-heating container capable of setting the temperature according to the present invention has an advantage of being able to set the temperature of the inner container accommodating the indoor plant to a specific temperature by constituting opening / closing means for controlling the amount of steam discharged from the outlet .

1 is a cross-sectional view of a self-heating container capable of setting a temperature according to the present invention;
Fig. 2 is a perspective view of the outlet and the opening /
Fig. 3 is an exploded perspective view of the discharge port and the opening /
Fig. 4 is a view showing the operation of the outlet and the opening /

Hereinafter, the technical idea of the present invention will be described more specifically with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the technical concept of the present invention, are incorporated in and constitute a part of the specification, and are not intended to limit the scope of the present invention.

1 is a cross-sectional view of a self-heating container capable of setting a temperature according to the present invention.

1, a self-heating container 1000 capable of setting a temperature according to the present invention includes an outer container 100, an inner container 200, a receiving container 300, a heating element 400, a sealed container 500 ), And a temperature setting container 600.

The inside of the outer container 100 is hollowed in the vertical direction.

The outer container 100 may be formed in a cylindrical shape, but is not limited thereto.

The inner container 200 is installed inside the outer container 100, and has a lid 210 which is open at its upper end and is covered with the lid 210.

In addition, the inner container 200 may further include a mounting ring 220 protruding from the periphery of the inner container 200 to be mounted on the upper end of the outer container 100.

At this time, an elastic material is bonded to the surface of the mounting ring 220 to enhance airtightness.

Further, at the lower end of the mounting ring 220, a first mounting tuck 221 to be pressed on the inner surface of the outer container 100 may be further formed.

The support container 300 accommodates a heating element 400 that covers the lower end of the outer container 100 and reacts with water to generate steam to generate steam.

Further, at the upper end of the receiving container 300, a supporting protrusion 301 may be further formed for pressing the inner surface of the outer container 100 for airtight sealing.

In the heating element 400, quicklime is received therein, and the quicklime reacts with water to generate an exothermic reaction.

The steam generated by the heat generated by the heating element 400 is moored in the outer vessel 100 to heat the inner vessel 200.

The hermetically sealed container 500 covers the upper end of the outer container 100 and has a plurality of through holes 501 through which vapor raised in the heat generating body 400 passes.

At this time, the closed container 500 can be mounted on the upper end of the mounting ring 220. The upper end of the mounting ring 220 is provided with a second mounting portion The jaw 222 may be further formed.

The temperature setting vessel 600 covers the upper end of the closed vessel 500 and has an upper end formed with a discharge port 610 through which steam raised in the through hole 501 is discharged, And opening and closing means for controlling the discharge amount of the steam as much as possible.

That is, the opening / closing means serves to regulate the amount of steam heated inside the outer vessel 100 and heating the inner vessel 200.

Accordingly, the self-heating vessel 1000 capable of setting the temperature according to the present invention includes the opening / closing means for adjusting the amount of steam discharged from the discharge port 610, so that the temperature of the inner vessel 200 There is an advantage that it can be set to a specific temperature.

The upper end of the hermetically sealed container 500 may be further formed with a hermetic seal 502 which is pressed to the inside of the temperature setting container 600 for hermetic sealing.

Fig. 2 is a perspective view of the outlet and the opening and closing means according to the present invention, Fig. 3 is an exploded perspective view of the outlet and the opening and closing means according to the present invention, and Fig. 4 is an operation drawing of the outlet and the opening and closing means according to the present invention.

As shown in FIGS. 2 to 4, the opening and closing means may include a lid 620 and a rotating shaft 630.

The lid 620 may have a shape corresponding to an end surface of the discharge port 610, and the discharge port 610 may be formed inside.

The rotating shaft 630 is coupled to the lid 620 through the discharge port 610 and the lid 620 and rotates the lid 620 to rotate the outer surface of the lid 620 and the inner surface of the discharge port 610 Thereby forming a discharge space through which steam is discharged.

In this case, a bearing (not shown) for facilitating the rotation of the rotation shaft 630 may be installed between the rotation shaft 630 and the discharge port 610.

The cover 620 is separated into a first separating lid 621 and a second separating lid 622.

The first separating lid 621 is formed with a depression hole 621-1 recessed inward at a contact surface abutting against the second separating lid 622. [

In the figure, the depression hole 621-1 is formed in a 'C' shape, but the present invention is not limited thereto.

The second separating lid 622 is formed with a seating protrusion 622-1 which is seated in the depression hole 621-1 on a contact face abutting against the first separating lid 621. [

At this time, the rotation shaft 630 passes through the discharge port 610, the first separation lid 621, and the mounting projection 622-1, and is coupled with the mounting projection 622-1, and the rotation shaft 630 ) Rotates only the second separation lid 622 to form a discharge space through which steam is discharged between the outer surface of the second separation lid 622 and the inner surface of the discharge port 610.

That is, a discharge space through which the steam is discharged only between the second separation lid 622 and the discharge port 610 is formed, so that the discharge amount of the steam can be more finely controlled.

Meanwhile, the rotating shaft 630 is preferably manually rotated.

The lid 620 is installed on the upper side and the lower side of the discharge port 610 and is connected to the second separation lid 622 of the lid 620 provided above the discharge port 610 and the discharge port 610, The second separating lid 622 of the lid 620 provided on the lower side of the second separating lid 622 may be arranged in a structure in which the second separating lid 622 is displaced upward and downward.

With the structure as described above, the steam elevated in the passage hole 501 can flow more stably, and the amount of steam discharged can be controlled more precisely, and the flow velocity of the steam can be slowed down.

The hermetically sealed container 500 may be formed with a sealing ring 510 protruding from the lower end to cover the upper end of the inner container 200.

The sealing ring 510 covers the upper end of the inner container 200 to prevent steam from reaching the upper end of the inner container 200 as much as possible so that the upper end of the inner container 200 is heated .

At this time, even if the user grasps the top edge of the inner container 200, the user does not wear the image.

In addition, the receiving container 300 may be formed with a receiving ring 310 protruding from the upper end to cover the lower end of the inner container 200.

The support ring 310 guides the steam generated by the heat generated by the heating element 400 directly against the periphery of the inner vessel 200 to heat the inner vessel 200 more quickly .

A self-heating container 1000 capable of setting the temperature according to the present invention includes a temperature sensitive body 700 installed on an outer surface of the outer container 100 and changing color according to an internal temperature change of the outer container 100, As shown in FIG.

The temperature sensitive body 700 may be composed of a composition in which a thermochromic pigment is added to rubber.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

1000: self-heating container with temperature setting
100: outer container
200: inner container
210: lid
220: mounting ring
300: Support container
310:
400: heating element
500: sealed container
501: through hole
510: sealing ring
600: Temperature setting container
610:
620: cover
621: first separating lid 621-1: recessed groove
622: second separation lid 622-1:
630:
700: Temperature sensor

Claims (6)

An outer container 100 hollow inside in a vertical direction;
An inner vessel 200 installed inside the outer vessel 100 and having a lid 210 installed therein and having an upper end opened to cover the inner vessel 200;
A support container 300 covering the lower end of the outer container 100 and containing a heating element 400 that generates heat by reacting with water in the inner space;
A hermetically sealed container 500 which covers the upper end of the outer container 100 and has a plurality of through holes 501 through which vapor raised in the heating body 400 passes, And
A discharge port 610 is formed at an upper end of the closed container 500 and discharges the vapor raised in the passage hole 501. The discharge port 610 is openably and closably connected to the discharge port 610, And a temperature setting container (600) including opening and closing means for adjusting the temperature,
The opening / closing means includes a lid 620 installed inside the outlet 610,
The steam is discharged between the outer surface of the lid 620 and the inner surface of the discharge port 610 by rotating the lid 620 through the discharge port 610 and the lid 620 to be coupled to the lid 620 And a rotary shaft (630) for forming a discharge space.
delete The method of claim 1, wherein the cover (620)
Is separated into a first separation lid 621 and a second separation lid 622,
A depression hole 621-1 formed in the contact surface of the first separating lid 621 abutting on the second separating lid 622 is formed,
A seating protrusion 622-1 which is seated in the recessed hole 621-1 is formed on a contact surface of the second separation lid 622 abutting against the first separation lid 621,
The rotation shaft 630 passes through the discharge port 610, the first separation lid 621 and the mounting projection 622-1, and is coupled with the mounting projection 622-1,
Wherein the rotary shaft (630) rotates only the second separation lid (622) to form a discharge space through which steam is discharged between an outer surface of the second separation lid (622) and an inner surface of the discharge port (610) A self-heating container (1000) which can be set.
4. The apparatus of claim 3, wherein the cover (620)
A second separation lid 622 of the lid 620 provided on the upper side of the discharge port 610 and a lid provided on the inner lower side of the discharge port 610 are provided on the upper and lower sides of the discharge port 610, 620) are disposed in a structure in which they are vertically offset from each other.
The hermetic container according to claim 1,
And a sealing ring (510) protruding from the bottom of the inner container (200) to cover the upper end of the inner container (200).
[3] The apparatus according to claim 1,
And a support ring (310) protruding from the upper end to cover the lower end of the inner container (200) is formed.

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