CN114903352A - Meal temperature curve modulator - Google Patents

Abstract

The invention relates to a meal temperature curve modulator, which is a unit device, and comprises a heat storage unit, wherein an internal heat supply and transfer element is arranged in the heat storage unit, the upper surface of the heat storage unit generates heat radiation wave action to a combined food container, the temperature of food materials in the food container is indirectly compensated, so that the temperature drop curve of the food materials can be gradually reduced, and the upper end surface of the heat storage unit is provided with a carrying surface which is a deformable carrying surface and provides the shape of the bottom of the food container for compression joint, so that the contact area is increased, or is a planar carrying surface and provides the bottom of the food container for stable standing and positioning. The present invention provides a modulator capable of adding or smoothing the temperature drop curve of food materials to the food materials loaded in food containers such as dishes, soup, coffee, tea, etc. during the eating process, such as eating.

Description

Meal temperature curve modulator

Technical Field

The invention relates to a modulator for a meal temperature curve.

Background

In the process of eating, particularly in cold winter, hot and warm food materials contained in a food container are balanced into a curve with an equal ratio reduction due to the multiplication time of the environmental temperature, the taste of the food materials changes or loses aromatic taste due to the reduction of the temperature, particularly hot coffee, tea or soup food, at present, in order to preserve heat of the food materials in a restaurant, an alcohol stove is used for performing subsequent temperature compensation on the food materials in the food container to prolong the heat preservation application mode, an electric heat preservation tray is used for performing temperature curve relaxation on the food materials, the mode of converting combustible substances into heat preservation energy to delay the temperature reduction curve is adopted, particularly alcohol or gas is combustible, the waste gas such as carbon monoxide is contained to a certain extent, and the inconvenience of eating stopping interference is caused by the distribution configuration of the power required by the electric heat preservation tray.

Disclosure of Invention

The invention aims to provide a modulator for a meal temperature curve, which is a modulator capable of adding or smoothing a food material temperature drop curve in a meal process.

The invention is realized in this way, a meal temperature curve modulator, for providing a modulator capable of adding or smoothing temperature drop curve of food material in the process of meal, comprising: a heat storage unit with a flat block-shaped containing space inside, an inlet and an outlet are arranged at the upper end of the heat storage unit, and an inlet and an outlet are communicated with the containing space from the outside; a thermal transfer element is placed in the accommodating space, and a deformable carrying surface is formed on the upper surface of the thermal transfer element; a heat-resisting outer support with a plane area larger than that of the heat storage unit, a plane embedding space for accommodating the lower part of the heat storage unit is arranged at the upper concave part, and a handle structure is formed at the periphery.

The heat storage unit is made of ceramic.

The thermal transfer elements contained in the containing space are mineral particles.

A modulator for meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, comprising: a heat storage unit with a flat block shape, a containing space for containing the heat transfer element is arranged in the heat storage unit, the meter body is communicated with the containing space through an inlet and an outlet, and the upper surface of the heat storage unit is a plane-shaped carrying surface; a heat-resisting outer support, the upper surface of which is concavely provided with a plane for accommodating the embedding space at the lower part of the heat storage unit, and the periphery of which is formed with a handle structure; a sealing cover for elastically and movably covering the inlet/outlet.

The containing space can be internally loaded with liquid or solid mineral particle thermal transfer elements.

The heat storage unit is made of ceramic.

A modulator for meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, comprising: a heat storage unit, the upper end of which is integrally extended upward and combined with a feeder, the bottom of which forms a containing space for filling the heat transfer element, and the lower part of the containing space is communicated with the outside through an inlet and an outlet; a sealing cover, the elastic cover seals the inlet and outlet; a heat-resisting outer support which is sleeved on the outer surface of the lower part of the heat storage unit.

The heat storage unit is made of ceramic.

A modulator for meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, comprising: a cup-shaped heat storage unit, wherein the upper end surface of the cup-shaped heat storage unit is recessed downwards to form a containing space, the inner part and the bottom of the periphery of the body are integrated with a cup-shaped whole-boundless containing space, and the containing space is communicated with the outside downwards through an inlet and an outlet; a sealing cover, which is elastically and movably covered on the inlet and the outlet; a heat-resisting outer support which is sleeved on the outer surface of the lower part of the heat storage unit.

The heat storage unit is made of ceramic.

The invention relates to a meal temperature curve modulator, which is a modulator capable of adding or smoothing a temperature drop curve of food materials in a meal process and is a unit device.

The present invention is a heat transfer element loaded inside the heat storage unit, wherein the upper surface of the heat transfer element is a deformable loading surface, which provides the bottom shape of the food container with compression joint, thereby increasing the contact area.

The present invention is to seal the inlet and outlet of the heat storage unit by a pallet with heat conduction property, the upper surface of the pallet is a planar carrying surface to provide a stable standing position for the bottom of the tableware.

The inlet and outlet of the heat storage unit of the present invention can be sealed by a sealing cover, which is mainly used to seal the heat transfer element loaded in the storage space of the heat storage unit when the heat transfer element is in liquid state.

The invention is that the upper end of the heat storage unit is integrated with a food container to achieve the shortest heat transfer path, the interior of the heat storage unit is a containing space which is communicated outwards through an inlet and an outlet, the interior of the food container can be combined into an inner food container, the food container body can be used like a hot drinking cup, and the inner food container can be selected to selectively regulate the temperature of food materials in the inner food container due to the clutch state of the inner food container and the food container.

The heat storage unit is in a ring cup shape, a cup-shaped boundless containing space is formed inside the heat storage unit, the containing space is communicated outwards through an inlet and an outlet, the inlet and the outlet are sealed by a sealing cover so as to seal the liquid heat transfer element carried in the containing space or prevent the granular heat transfer element from falling out, and the concave containing space of the heat storage unit is used for accommodating food or another lining food container.

The invention combines a heat-resistant outer support on the periphery and the bottom surface of the heat storage unit, and the heat-resistant outer support can be further provided with a carrying handle structure for holding.

The invention is that the heat transfering element is a granular substance, the specific heat and the heat containing temperature of the granular substance are equal to or higher than those of food materials, and mineral gravel, ceramic particles or safe clean water can be taken as the material.

Drawings

FIG. 1 is a side view of an embodiment of the present invention.

FIG. 2 is a graph of the temperature change after the practice of the present invention.

FIG. 3 is a side view of an embodiment of the present invention.

Fig. 4 is a perspective view of another embodiment of the present invention.

Fig. 5 is a side view of an embodiment of the structure of fig. 4 in accordance with the present invention.

Fig. 6 is a side view of an embodiment of the structure of fig. 4 in accordance with the present invention.

FIG. 7 is a side view of yet another embodiment of the present invention.

Fig. 8 is an exploded view of the structure of fig. 7 according to the present invention.

Fig. 9 is a side view of yet another embodiment of the present invention.

FIG. 10 is a side view of an embodiment of the present invention in a ring cup configuration.

Description of the symbols:

inlet and outlet 12 of mounting surface 11 of heat storage unit 10

Dimple 13 accommodating space 14 accommodating space 16

Thermal transfer element 20 of modulator 100 and dispenser 200

Inner lining food container 300 for covering 30 pallet 31

Handle structure 42 of heat-resistant outer support 40 embedding space 41

Reflecting surface 44 through opening 45 of chassis 43

Span 46

Detailed Description

The invention relates to a modulator capable of adding or smoothing a temperature drop curve of food materials such as dishes, soup and coffee or tea when a meal is taken, which is a unit device and is a heat storage unit which is internally provided with a heat supply transplanting element, wherein the upper surface of the heat storage unit generates heat radiation waves to act on a combined food device, and indirectly compensates the temperature of the food materials in the food device, so that the temperature drop curve of the food materials is gradually reduced, the upper end surface of the heat storage unit is provided with a carrying surface, the carrying surface is a deformable carrying surface, the shape of the bottom of the food device is provided with a compression joint, the contact area is increased, or the carrying surface is a plane-shaped carrying surface, and the bottom of the food device is stably positioned.

The heat storage unit is provided with an inlet and an outlet for the inlet and the outlet of the heat transfer element, the inlet and the outlet can be sealed by a sealing cover, and the heat transfer element loaded in the accommodating space of the heat storage unit can be used as a sealing plug when being in a liquid state.

The upper end of the heat storage unit is integrally combined with a food container to achieve the shortest heat transfer path, the interior of the heat storage unit is a containing space, the heat storage unit is communicated with the heat supply transferring element from an inlet and an outlet to enter and exit, the interior of the food container can be combined into an inner food container, and the food container body can be used as a hot drink cup.

The heat storage unit can be further designed into a ring cup shape, a cup-shaped boundless containing space is formed inside the heat storage unit, the containing space is communicated outwards through an inlet and an outlet, the inlet and the outlet are sealed by a sealing cover to block the liquid heat transferring element carried in the containing space or prevent the granular heat transferring element from falling out, and the periphery and the bottom surface of the heat storage unit are combined with a heat-resistant outer support which can be further provided with a lifting handle structure for supporting, and the heat transferring element is granular, the specific heat and the heat-containing temperature of the granular heat transferring element are preferably equal to or higher than those of food materials, and the granular heat, the ceramic particles or the safe clean water can be taken.

The invention is characterized in that a block-shaped heat storage unit with an inner accommodating space is provided, the upper end of the heat storage unit is provided with an inlet and outlet, the inlet and outlet is communicated with the accommodating space from outside, a heat transfer element is arranged, a deformable carrying surface is formed on the upper surface of the heat transfer element, a plane area is larger than a heat-resistant outer support of the heat storage unit, an embedding space for accommodating the lower part of the heat storage unit is arranged below an upper concave surface, a lifting handle structure is formed on the periphery of the embedding space, the upper end of the inlet and outlet is covered by a pallet, and the upper surface of the pallet is a plane-shaped carrying surface 11.

In addition, a block-shaped heat storage unit with an inner accommodating space is provided, the meter body is communicated with the accommodating space through an inlet and outlet, the upper surface of the heat storage unit is a planar carrying surface, and a heat-resisting outer support is used for extracting the embedding of the lower part of the heat storage unit.

Wherein the containing space can be loaded with liquid or solid mineral granular heat transfer elements, and the heat storage unit is made of ceramic.

In another embodiment, a heat storage unit is integrally extended upward from the upper end of the heat storage unit to form a food container, a receiving space for filling the heat transfer element is formed inside the food container, the lower portion of the receiving space is communicated with the outside through an inlet and outlet, and a heat-blocking outer support is sleeved on the outer surface of the lower portion.

The cup-shaped single body is further implemented by a cup-shaped heat storage unit, the upper end surface of the heat storage unit is recessed downwards to form a containing space, the inner part and the bottom of the periphery of the body are formed into a cup-shaped whole-boundless containing space, the containing space is communicated downwards to the outside through an inlet and outlet, the inlet and outlet are covered by a sealing cover in an elastic movable manner, the formed containing space can provide a food container lining, and a heat-resistant outer support is sleeved on the outer surface of the outer lower part of the heat storage unit.

For the structure and function of the present invention, please refer to the following description:

referring to fig. 1, the modulator 100 of the present invention is assembled by a heat storage unit 10, a food container 200 is provided on the upper surface, a heat-resistant outer support 40 is sleeved on the lower surface, a receiving space 14 is formed inside the heat storage unit 10, a heat transferring element 20 is provided therein, a deformable carrying surface 11 is formed on the upper end surface of the heat transferring element 20, and the lower outer bottom of the food container 200 is pressed to increase the contact area with the bottom of the food container 200 and make the contact closer to the bottom.

The heat storage unit 10 is made of ceramic material, the periphery and the lower surface are sleeved in the embedding space 41 of the heat-resistant outer support 40, the heat-resistant outer support 40 is made of plasticized foaming material or cork material, and the periphery of the upper end of the embedding space 41 of the heat-resistant outer support 40 can be provided with a span 46.

The food container 200 is a dish or a soup pot for holding dishes, such as a dish, and the outer surface of the dish is supported by the spanning opening 46 relative to the annular contact linear surface of the spanning opening 46, so that the weight of the food container 200 is transferred to the heat-resistant outer support 40, and the spanning is utilized to seal the hot air inside the heat storage unit 10, thereby avoiding the outflow.

The heat transferrable element 20 can be liquid, such as clear water, or solid particles, such as gravel or ceramic particles, with a specific heat higher than that of the common food material, or liquid, such as clear water, with a specific heat at least equal to that of soup.

The use method is that the thermal transferring element 20 is heated in advance, and is placed into the containing space 14 after reaching a desired temperature, the upper surface of the containing space 14 is provided with a pressing combination for the outer surface of the bottom of the food container 200, and the heat wave radiated by the thermal transferring element 20 directly acts on the food material (not shown in the figure) inside through the bottom of the food container 200 indirectly.

If the heating method is applied to the above-mentioned occasions such as restaurants, the heat transferring element 20 can be boiled in advance to absorb heat energy, or can be made solid by frying in a frying pan to be prepared, and obtain sterilization effect, or can be placed in the heat storage unit 10 in advance, and then enter the heat storage unit 10 to be heated by microwave together with the heat storage unit 10, and then the modulator 100 which is used as a heating after being saturated is taken out, and the food container 200 is placed on the food container 200 to achieve the effect of heat transferring, so as to heat the food material in the food container 200, and the carrying surface 11 can also provide a placement combination of the cup-shaped food container 200 such as a coffee cup.

The heat wave emitted from the heat transferring element 20 will be upward or heated at the periphery of the food container 200, and is indirectly transferred to the food material loaded through the body of the food container 200.

The heat storage unit 10 is located and assembled in an embedding space 41 formed in the heat-resistant outer holder 40, and a group of handle structures 42 are arranged on the periphery of the heat-resistant outer holder 40 at least at the symmetrical plane angle positions to provide end-holding operation.

The heat-resistant outer support 40 is made of foamed or heat-resistant material, the cork is more environment-friendly, and various materials have no electromagnetic wave effect, so that the heat storage operation of the heat transferring element 20 in advance can combine the heat storage unit 10 with the heat-resistant outer support 40 integrally and then place the combined heat storage unit into a microwave space, so as to only perform magnetic wave temperature rise on the heat transferring element 20, and then the combined heat storage unit is contacted and taken out by the non-magnetic-responsive heat-resistant outer support 40.

The thermal transfer element 20 is mineral particles, the thermal content of the thermal transfer element can be heated to more than one hundred degrees and higher than the boiling point of water, and more heat is generated by the total mass of the thermal transfer element 20, so that after the conditions of the modulator 100 are completed, the thermal compensation is performed on the food container 200, and the purposes of food taking process and food temperature maintenance can be met.

Referring again to fig. 2, the serving temperature generally decreases in an equal ratio with time, the decreasing curve is a, the curve forms an arc-shaped curve when the initial temperature of the inner food material is high in a first time period from the initial time period to the decreasing of the equal ratio series, and the temperature of the inner food material is balanced by the ambient temperature ED, which is generally defined as the cold food material, and decreases to a second time period,

the curve C shows a curve after the modulator 100 of the present invention is implemented (please refer to fig. 1), since the specific heat of the thermal transferring element 20 is higher than the food material, and the thermal temperature of the stored value is higher than the food material, the temperature of the food material is increased at a first time, and then decreased by the thermal temperature balance of the environmental temperature, and finally reaches the environmental temperature.

Since the temperature and specific heat of the thermal transferring element 20 are higher than those of the general food materials and the temperature is slowly dissipated in the same structural space of the device, the descending slope of the curve is also slow.

The temperature curve C and curve A generated by the modulator 100 are used to compensate and modulate the temperature of the food material into curve B, so that the cooling rate of the food material can be delayed to relax the curve, the eating process can be provided, and the temperature can be maintained for a longer time, thereby maintaining the flavor, especially the temperature stimulation of aroma molecules in the coffee or tea with fragrance.

Referring to fig. 3, the inlet/outlet 12 of the heat storage unit 10 of the present invention can be covered by a pallet 31 with heat conductivity, and the upper surface of the pallet 31 is a carrying surface 11 for stably placing the flat bottom of the tableware 200, such as a dish or a soup pot, or a coffee cup or a tea cup.

The carrying surface 11 is a plane and can be attached to and combined with the food container 200, so as to provide convenience for assembling the food container 200.

The heat-resistant outer holder 40 is provided with a handle structure 42 at a height position at which the outer periphery thereof can provide the hand limbs for operation, so that the high-temperature food container 200 can be used for serving food immediately after the food is served, and the high temperature in the heat storage unit 10 can protect the hand limbs and can be used for carrying the food on a table conveniently.

Preferably, the receiving space 14 of the thermal storage unit 10 is provided with a solid granular heat transfer element 20, and the heat transfer element 20 is made of mineral material or processed ceramic material, and can have a higher density, a higher specific heat, and a temperature at which minerals can receive high heat, thereby increasing the modulation power.

Referring to fig. 4, the brewer 100 of the present invention is designed with a liquid thermal transfer element 20 as the main application material, and can be designed with an inlet and outlet 12 of a sealing cap 30 for sealing the heat storage unit 10, the upper surface of the heat storage unit 10 is a planar carrying surface 11, the inlet and outlet 12 can be recessed by a recess 13 for providing the sealing cap 30 to cover and maintain the surface of the carrying surface 11 flat, the inner accommodating space 14 provides the liquid thermal transfer element 20 to be placed therein, the thermal transfer element 20 is a high temperature water liquid boiled with clear water, and is placed into the rear cap sealing cap 30 through the inlet and outlet 12, or the thermal transfer element 20 can be general cold water, and the heat storage unit 10 carrying the liquid thermal transfer element 20 is then heated by external heating, such as steaming, microwave, or bottom heating, and the temperature is raised, and the sealing cap 30 is taken out after reaching a desired temperature, in consideration of the expansion of steam, the heat transfer element 20 is preferably used with hot water that is boiled in advance, which is suitable for home use.

The external surface of the lower part of the heat storage unit 10 is arranged in an embedding space 41 arranged on a heat-resisting outer support 40, the upper end surface of the embedding space 41 can form a reflecting surface 44 so as to radiate heat waves emitted by the periphery of the heat storage unit 10 to the upper space direction as much as possible, a carrying handle structure 42 is formed on the periphery of the heat-resisting outer support 40, a slidable chassis 43 can be arranged at the bottom of the heat-resisting outer support, the carrying handle structure 42 can provide the whole to be held and moved by a hand limb, the heat-resisting outer support 40 is not influenced by the electromagnetic action, if mineral particles are filled in the heat storage unit 10, the whole heat storage unit can be heated in a microwave oven, and the whole heat storage unit can be taken out of the microwave oven without heating by the carrying handle structure 42 after being heated.

Referring to fig. 5, after the assembly shown in fig. 4 and the temperature storage, the carrying surface 11 of the heat storage unit 10 can be used for placing a food container 200, and the food container 200 can be a coffee cup, a tea cup, a dish, or other food apparatus.

The surface of the carrying surface 11 is kept flat after the carrying surface 11 is covered with the sealing cover 30 due to the concave action of the concave groove 13, and the heat waves radiated by the heat transferring element 20 are transferred to the inside of the feeder 200 through the carrying surface 11 formed on the upper surface of the heat storage unit 10.

Referring to fig. 6, the inlet/outlet 12 of the thermal storage unit 10 and the sealing cap 30 can be combined in a downward direction, such that the upper end forms a complete planar carrying surface 11, and a through hole 45 is opened on the bottom plate 43 of the heat-blocking outer holder 40 at a position corresponding to the sealing cap 30 for closing the sealing cap 30, and the thermal storage unit 10 needs to be inverted when the heat transfer element 20 enters.

Referring to fig. 7 and 8, another embodiment of the present invention is a thermal storage unit 10 formed of a mineral material such as ceramic or glass, the upper end of the thermal storage unit extends upward to form a food container 200, the receiving space 16 inside the food container 200 is provided for receiving a food container 300, the body of the food container 200 is a cup body such as a coffee cup or a tea cup for receiving food, the food container 300 and the food container 200 can be detachably connected, and the separation between the food container 300 and the food container 200 is a convenient design for temperature modulation to rapidly cool the food in the food container 300 and prevent the food from being hot.

The heat storage unit 10 forms a receiving space 14 for the solid or liquid heat transferring element 20 to enter, the bottom of the heat storage unit 10 is opened with an inlet/outlet 12 covered by a cover 30, the outer surface of the lower portion of the heat storage unit 10 is sleeved with an embedding space 41 of a heat-resistant outer support 40, the bottom of the embedding space 41 is a chassis 43, the chassis 43 can be anti-slip, and the heat-resistant outer support 40 is a structure formed by heat-resistant plasticized material or cork or heat-resistant fiber material.

Referring again to fig. 9 and 10, the modulator 100 of the present invention has a cup-shaped thermal storage unit 10, which forms a cup-shaped boundless receiving space 14 inside, and the thermal transfer element 20 is distributed around and at the bottom of the cup-shaped thermal storage unit 10.

An inlet/outlet 12 is provided under the thermal transfer element 20, and can be sealed by a sealing cover 30, the heat storage unit 10 is sleeved with a heat-resistant outer holder 40 at the periphery and lower part thereof to form a space with an embedding space 41, and a through hole 45 is provided at the center of a base 43 of the embedding space 41 corresponding to the position of the sealing cover 30.

The storage space 16 formed inside the thermal storage unit 10 is combined with a lining food container 300 for food to be inserted or for an outer surface to be lined, and thus, the above-mentioned structure can be used in a multifunctional way.

The heat transferring device 20 filled in the containing space 14 can be liquid, or granular mineral material, and the heat-resistant outer holder 40 can be put into the microwave as a whole, or the heat storage unit 10 can store heat in advance alone, or the heat transferring device 20 is liquid, and then the heated rolling water is poured through the inlet and outlet 12 and sealed by the sealing cover 30, and the heat wave transmission can be generated to the containing space 16 by utilizing the heat recharging and the subsequent heat dissipation of the heat transferring device 20, or the food container 300 is indirectly lined to heat the food material inside.

The invention utilizes an upper surface to combine the food container and the internal heat transfer element for loading, the heat transfer element can be heated in advance or after being filled to achieve heat recharging, and after the food container is combined, the temperature compensation is carried out on food materials in the food container indirectly so as to achieve the relaxation of the temperature drop curve of the food materials.

Claims (10)

1. A modulator of meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, and is characterized in that the modulator comprises:

a heat storage unit with a flat block-shaped containing space inside, an inlet and an outlet at the upper end, an inlet and an outlet communicating with the containing space from outside;

a thermal transfer element is placed in the accommodating space, and a deformable carrying surface is formed on the upper surface of the thermal transfer element;

a heat-resisting outer support with a plane area larger than that of the heat storage unit, a plane embedding space for accommodating the lower part of the heat storage unit is arranged at the upper concave part, and a handle structure is formed at the periphery.

2. The meal temperature profile modulator according to claim 1, wherein the heat storage unit is a ceramic.

3. The meal temperature profile modulator according to claim 1, characterized in that the thermal transfer elements carried by the containment space are mineral pellets.

4. A modulator of meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, and is characterized in that the modulator comprises:

a heat storage unit with a flat block shape, a containing space for containing the heat transfer element is arranged in the heat storage unit, the meter body is communicated with the containing space through an inlet and an outlet, and the upper surface of the heat storage unit is a plane-shaped carrying surface;

a heat-resisting outer support, the upper surface of which is concavely provided with a plane for accommodating the embedding space at the lower part of the heat storage unit, and the periphery of which is formed with a handle structure;

a sealing cover for elastically and movably covering the inlet/outlet.

5. Meal temperature profile modulator according to claim 4, characterized in that the containing space is internally loadable with liquid or solid mineral granulate heat-transferrable elements.

6. The meal temperature profile modulator of claim 4, wherein the thermal storage unit is a ceramic.

7. A modulator of meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, and is characterized in that the modulator comprises:

a heat storage unit, the upper end of which is integrally extended upward and combined with a feeder, the bottom of which forms a containing space for filling the heat transfer element, and the lower part of the containing space is communicated with the outside through an inlet and an outlet;

a sealing cover, the elastic cover seals the inlet and outlet;

a heat-resisting outer support which is sleeved on the outer surface of the lower part of the heat storage unit.

8. The meal temperature profile modulator of claim 7, wherein the thermal storage unit is a ceramic.

9. A modulator of meal temperature curve, which is a modulator for providing food temperature drop curve in meal process, and is characterized in that the modulator comprises:

a cup-shaped heat storage unit, wherein the upper end surface of the cup-shaped heat storage unit is recessed downwards to form a containing space, the inner part and the bottom of the periphery of the body are integrated with a cup-shaped whole-boundless containing space, and the containing space is communicated with the outside downwards through an inlet and an outlet;

a sealing cover, which is elastically and movably covered on the inlet and the outlet;

a heat-resisting outer support which is sleeved on the outer surface of the lower part of the heat storage unit.

10. The meal temperature profile modulator according to claim 9, wherein the thermal storage unit is a ceramic.

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