KR20130130345A - Wed source of self-heating and heat storage insulation and container port and integrated - Google Patents

Abstract

According to the present invention, the heating function, the heat insulation function, and the non-heated liquid are stored and warmed in double, and the temperature of the heating insulation pot part and the temperature of the raw water thermos are different, so as to enjoy the warm taste and the cold taste of the human and also to change the liquid for a long time. To prevent and invent from the concept of the burner to the port concept with the aim of portability, convenience and safety
It is.

Description

Wed source of self-heating and heat storage insulation and container port and integrated}

The present invention has a structure that combines the self-heating function and the warming function, the raw water storage and supply integrally burner and heat retention function to maximize the portability, and further combines a bottled water bottle, can bottles, etc. In addition, the ease of use relates to the maximum functionality.

The prior art is a burner has a structure that is likely to generate a lot of space and fire when used for outdoor climbing.

In addition, there is no warming function to drink beverages during mountain climbing, there is an uncomfortable point that can not be used before arriving at a safe place from the fire or the arrival of the camp site, to overcome the inconvenience of efficient use.

However, in the related art, as shown in FIG. 13, the external gas 20 of the burner 30 is connected, the burner 30 is ignited, the port 10 of the burner 30 is raised, and the fire of the burner 30 is used. Boil the liquid.

In addition, since the boiled liquid does not have a thermal insulation function, it should be stored using a separate thermos bottle, which is inconvenient for convenience and use due to limitations of space, management, and use environment.

Since a conventional burner is heated in a low thermal efficiency structure, many heating fuels must be used for heating in a general manner.

In addition, the heated container is easy to transfer the heat to the entire 1-ply iron plate, but the heated object easily radiates temperature, the heat retention is poor, and should be heated again each time it is used.

In addition, the liquid in the burner pot (container) cannot be divided into heating amount and non-heating amount.

In other words, you can divide as much as you want to use, but once heated,

(Milk, coffee, bottled water) should be thrown away if they change taste and cannot be used.

Therefore, there is a need to store the liquid as it is after heating.

And every time there is a lot of inconvenience in supplying the liquid in the outer container.

Therefore, there are many problems such as portability (mountain climbing, field, outdoor).

The present invention is to separate the containers in order to warm the drink for the shortest time as much as the amount of liquid used, each container using a two-ply iron plate and the vacuum treatment between the two-ply iron plate to strengthen the heat insulation and the heating part is liquid in one layer It is to ensure the warmth and heating at the same time by allowing easy heating.

In addition, by separating the container for storing the liquid not to be used as a container having a heating function and a thermal insulation function to maintain the temperature of the contents to prevent liquid deterioration.

In the operation method of the present invention [Fig. 12] was also invented a raw water bottle of the structure of the thermal insulation function and convenient storage of the liquid in the raw water bottle, injecting the liquid of the raw water bottle into the heating insulation pot enough to use and heat the required temperature It should be a structure that can be kept intact and stored as it is, the raw water bottle and the heating insulation port was invented a convenient structure for convenient matching and separation in use.

12, if the thermos [120A] is installed in the thermos cap [120B] is pressed, inverted in this state by the water pressure to open the hydraulic pressure control valve [120C] to supply the heating insulation pot [120J], the supply is complete When it is upright, it is set up again.

When the torch section [120E] is ignited and heated on one side of the heating insulation port, which is made up of one layer, the liquid is heated, and the heating heat is spread evenly to [120F] and transferred to [120G], and the remaining heat is opened. It is discharged from the discharge outlet 120i along the discharge outlet 120H.

When the contents boil as much as desired in the heating insulation pot while the ignition switch [120D] is pressed, the adjustable bimetal [121A] is operated to adjust the fuel supply amount.

When overheating occurs while the ignition switch [120D] is pressed, the bimetal [052B] of [Fig. 5], which is a safety device, is also operated to shut off.

As described above, the thermos bottle in the lower side according to the present invention includes a function of using the stock solution and the ability to keep the warming ability and the stock solution, and the heating insulation pot on the upper side has a heating function and a warming function In addition, it is possible to use only the heating insulation port even if the insulation port in the lower side is removed, thereby securing both variety, portability, and convenience, so that it can be used anywhere anytime and outdoors.

It improved the portability during mountain climbing, walking, military operations, and made outdoor workers the desired warm liquid, and improved storage capacity for cold and raw liquids.

It is heated by the amount to be used and it has high heat efficiency after heating.

Representative view is a perspective view of the outline and cross-sectional exploded view according to an embodiment of the present invention,
1 is a perspective view for each structure that can be used according to an embodiment of the present invention,
2 is a perspective view of the stopper according to an embodiment of the present invention,
3 is a perspective view of a cup according to an embodiment of the present invention;
Figure 4 is a perspective view of the port portion cut according to an embodiment of the present invention,
5 is a perspective view of a boiler section according to an embodiment of the present invention;
6 is a perspective view of a thermos bottle according to an embodiment of the present invention,
7 is a perspective view of a thermos fastening bottle configuration according to an embodiment of the present invention,
8 is a perspective view of the can bottle fastening configuration according to an embodiment of the present invention,
9 is a perspective view of the PET bottle constitution according to an embodiment of the present invention,
Figure 10 is a perspective view of the secondary raw material additional fastening [100] configuration according to an embodiment of the present invention,
Figure 11 is a perspective view of the assembly method of the turboport according to the embodiment of the present invention.
12 is an operation flowchart according to an embodiment of the present invention.
Figure 13 is a reference diagram of the existing product of the present invention

Hereinafter, the invention has been invented for widening the range of use and diversity and portability. When described in detail with reference to the accompanying drawings, preferred embodiments of the self-heating function and thermal insulation function, raw water storage and supply port as follows.

The device of the present invention is of its own system as shown in [Figure 5] and five structural representations of the present invention usable as shown in [Figure 1].

The minimum single set of [FIG. 1] for the present invention consists of a basic structure including a cup for heating, keeping warm, and supplying liquid to the liquid outlet for ease of use and control of usage.

In the present invention can be added to the present invention the auxiliary gas for extending the fuel use period for heating in the present invention,

The supplementary thermos of [Fig. 1] to keep the raw water (raw liquid) and prevent the deterioration is a double layer case, and the vacuum between the double layers to maintain the temperature inside, keeping the raw water independent It is possible to add a supplementary thermos that can keep warm and use

In the present invention, the use of the various beverages of FIG. 1 has a wide bottle and a narrow bottle, and when the user purchases and fastens the beverage bottle, the wide bottle is naturally fixed in a wide position, and the small inlet bottle is used. 1 includes a function consisting of a structure that is fixed in the inlet small bottle fixed position.

When heating the heating insulation pot of the present invention as the device plug portion [Fig. 2] the port plug portion discharges the liquid in the port and the pressure rises when the liquid is heated. In order to adjust this air pressure to an appropriate level, OFF [002A] can be operated by turning ON [002B].

In addition, the port water discharge switch so as to enjoy the drink is for the switch to close and open the port liquid barrier membrane up and down, the method is as follows.

When the port water discharge switch [0021] of the picture [0020A] is tilted as shown in [0020B], the port water discharge switch is fixed to [0021] as shown in [0020B] and tilted in conjunction with the diagonal And it is a structure that is switched to the horizontal and closed or open by moving the position difference when switching vertically and horizontally.

Port water blocking valve silicon for blocking the gap with the outer container and the port water blocking valve spring for operation, and consists of the port water blocking valve as a door using the stored liquid. .

In addition, the air pressure rises during heating, which may cause damage to the container and spillage of contents, thereby maintaining safety in the following manner.

In the present invention, the pressure adjustment valve is added and the function is as follows.

When the liquid boils, the air pressure increases, when the port water pressure shaft, which was fixed by the port water pressure spring [0025], receives a pressure and operates upwards from OFF [002A] to ON [002B], the air pressure is discharged. The air pressure is lowered.

When the air pressure drops, it returns to prevent warmth and loss of contents.

Represented by ON [002B] in FIG. 2 as OFF [002A].

In addition, the component is the port water pressure axis as the axis of force, the port water pressure silicone pressure port, the port water pressure spring and the spring water pressure using the spring tension of the gateway of air pressure port water pressure Composed of a spring fixed plate works as port water pressure operation OFF [002A] and port water pressure operation ON [002B].

The apparatus of the present invention [FIG. 3] is a cup-and-port stopper as shown in [030] as shown in FIG. It is structured.

Heating and keeping warm in the structure of the present invention at the same time as the heat insulating portion [Fig. 4]

Plug mounting portion [041] to be used in conjunction with the stopper, and a double torch layer [042] to maximize the insulation effect and torch connection structure [043] structured to fix the torch and the initial torch is directly heated Located in the heating start portion consisting of a lower height and the position higher than the heating start portion and the heating intermediate air flow portion that is generated by the rising air flow is easily transferred heat, located above the heating intermediate air flow portion [045] There is a heated end air flow section [046], which is located in a place where heat transfer is well conducted, and sufficient air flow is provided. The heated hot air discharger [047] and the boiler connection [048] are constructed so that the heat is discharged without deformation of the internal components. It is provided.

In the boiler unit of the present invention [FIG. 5] 050A ~ 050F is a boiler case technology as follows.

Various beverage bottles are fixed to the boiler case [050A], and the inlet large bottle holder [050B] and the inlet small bottle holder [050C] are provided, and additional external fuel can be installed for long time use. An external fuel fastening unit and a boiler case cooling unit [050D] are provided to be ripe, and an external fuel fastening unit and a boiler case cooling unit [050D] are structured to prevent deformation of components in the boiler. ], A raw water supply unit [050F] structure for supplying the raw water from the external raw water bottle to the heating insulation pot.

The ignition process of the boiler components consists of [051A] to [051F].

When the ignition switch is pressed by the ignition switch button [051A] for ignition, the high pressure generator for ignition [051B], and the fuel opener [051C], the fuel is opened, and the fuel outlet [051D] for fuel is ejected. It ignites at the same time as the final fuel ejection in the torch section [051F] through the fuel pipe [051E].

The components of the safety device as a boiler component are composed as follows.

The heat shield [052A] is configured to shield the heat generated when the torch unit [051F] is ignited and a part of the heat is transmitted downward, and is configured as a heat shield fixing unit [052A1] for fixing the boiler case. The bimetal part [052B] is configured to control safety and heating heat, and a heating indicator [053A] is provided for the purpose of supplying air and a window for checking the heating of the torch, and a hot air outlet [053B] for discharging the heating heat. have.

[060A] to [060C] are configured as the thermos [Fig. 6] structure of the present invention.

The thermos case part [060A] outer shell is a double layer for the thermal insulation function, the middle layer is vacuumed, and consists of a thermos and boiler fixture [060B], a thermos and thermos cap stopper [060C].

The thermos cap of the thermos component is comprised of [061A] to [061D].

Thermos bottle stopper body [061A] by the outer case of the stopper, the thermos stopper opening button [061B] that is naturally pressed open when connected to the boiler and the thermos stopper open button is opened at the same time when pressing the thermos bottle protection plate of the structure to use the raw water [ 061C] and a thermos cap spring [061D] which serves to move the thermos cap from ON to OFF.

Description of the method for fastening the thermos to the basic set of the present invention [Fig. 7].

The developed thermos section [070B] is fixed to the basic thermoset component heating thermos and boiler section [070A] until the developed thermos fixed position [070C].

Description of the method for fastening the thermos to the basic set of the present invention [FIG. 8].

It is fixed to a large inlet general [080B] beverage bottle bottle up to a position [080C] for a beverage can bottle generally sold in the boiler portion [080A] of the base set component heating thermos.

Description of the method for fastening the thermos to the basic set of the present invention [FIG. 9].

The base set components are fixed to the small inlet general beverage bottle [090B] to the position [090C] where the beverage PET bottle normally sold in the heating thermos and boiler section [090A] is fixed.

Description of the method for fastening the auxiliary fuel to the basic set of the present invention [FIG. 10].

The amount of the main fuel part in the heating thermos and the boiler part [100A] of the basic set components is fastened to the auxiliary fuel outlet [100D] of the main fuel injecting part [100C] by installing the auxiliary fuel part [100B]. The function which may be filled in the auxiliary fuel injection part 100E is also comprised.

As a technique for a method of assembling the basic set of the present invention as shown in FIG.

11 shows the assembly method of the present invention relates to a method of assembling the basic assembly diagram [110] by a method of fixing without using an external bolt.

This is done in the following order:

 Align the projections [111A] and [111C] with the heating section [110A] to the grooves [111B] and [111D] with the boiler section [110B], and with the male screw [110C1] in the backflow prevention case section [110C].

Structural system is matched by fastening to female thread [110C2] in boiler case

When washing and producing the heating thermos [110A], the convenience, appearance and production are improved compared to the bolt fixing method on the outside, and the heating thermos plug [110D] and the cup [110E] are assembled.

The operation representation of the present invention is configured as shown in FIG.

Thermos [120A] and fixing thermos cap [120B] and hydraulic pressure control valve [120C],

A heated heat insulating port [120J] is provided, and the temperature of the lower portion of the vaporization furnace at the time of combustion is lowered on the lower surface of the ignition switch [120D], the ignition torch section [120E], and the heat insulating port [120J]. Lower one side to raise the temperature above 300 degrees

There is a hot air distal end [120G] opposite the hot air start [120F] and at the hot air outlet [120H]

It is provided to be discharged to the hot air discharge [120i] outlet, the heating heat insulation port [120J] is heated and maintained with a pressure control valve [120K] for pressure control and a cup [120L] with a discharge outlet for discharge out The pot and the thermal insulation pot of the heating [Fig. 5] is provided with a bimetal for the temperature adjustment and vaporization of the contents, the main fuel inlet of the heating thermos and the boiler [100A] in [10] [100C], a detachable structure consists of an auxiliary fuel outlet [100D] and an auxiliary fuel injection unit [100E] of the auxiliary fuel unit [100B] for extending the use.

When the thermos [120A] is fixed, the thermos stopper [120B] is pressed and inverted in this state, the hydraulic pressure regulating valve [120C] is opened and supplied to the heating thermostat port [120J] due to the water pressure. When the thermos [120A] is fixed when it is separated from the thermos, the thermos stopper [120B] is released so that it can be used without spilling liquid from the heating thermos.

After pressing the ignition switch [120D] to ignite, the pressure is maintained, and the torch part [120E] is ignited and heated on one side of the lower side of the heating insulation port consisting of one layer of the lower side of the heating insulation port [120J]. Heating takes place and the heat spreads evenly from the start of the heat [120F] to the hot end [120G] at a certain angle so that the heat transfer is upstream and heat direction from bottom to top improves the heating rate. do. The remaining hot air is discharged from the hot air outlet [120i] along the hot air outlet [120H].

.

0100 in [Figure]: Outline Drawing and Sectional Exploded View
010: Cup
020: Port Stopper
030: Heating Insulation Pot
040: boiler section
050: auxiliary gas part
060: enemies
[010] 010: auxiliary gas, raw water bottle fastening method of the basic structure
1000: basic structure
2000: Added auxiliary gas
050: auxiliary gas
3000: Add auxiliary thermos
060: Thermos Supplement
4000: entrance wide bottle
070: wide mouth
5000: Add entrance vial
080: Entrance Small Common Bottle
0020: Port Stopper
0020: Port Stopper
0021: Port Water Discharge Switch
0022: Port Water Barrier Silicon
0023: Port Water Barrier Spring
0024: Port Water Barrier
0025: Port Water Pressure Axis
0026: Pot Water Pressure Silicone
0027: Port Water Pressure Spring
0028: Port Water Pressure Spring Fixing Plate
002A: OFF port water pressure operation
002B: port water pressure operation ON
030: Cup cum pot stopper
030A: Convenience to drink when used as a discharge cup and cup to keep warmth and air pressure
[040] 040: heating insulation unit
041: Stopper Mount
042: double layer vacuum layer
043: torch connection
044: heating start
045: heating intermediate airflow
046: heating start air flow part
047: heated hot exhauster
048: boiler connection
049: Air supply and ignition display window
[050] 050: Boiler Part
050A: Boiler Case
050B: Entrance Big Bottle Fixture
050C: Entrance Small Bottle Fixture
050D: External Fuel Fastening and Boiler Case Cooling
050E: fuel level indicator
050F: Raw water supply
051A: Ignition Switch Button
051B: Ignition High Pressure Generator
051C: Fuel Opener
051D: Fuel Outlet
051E: Fuel Piping
051F: Torch
052A: Heat Shield
052A1: Heat shield fixing part
052B: Bimetal Part
053A: heating indicator
053B: Hot Air Outlet
051G: Main Fuel Division
[060] 060: Thermos
060A: Thermos Case
060B: Thermos and Boiler Fixture
060C: Thermos and Thermos Stopper Fixing Part
061A: Thermos Stopper Body
061B: Thermos Stopper Open Button
061C: Thermos Enemy Shield
061D: Thermos Stopper Spring
[Figure 7] 070 of the present development: thermos sign
070A: heating thermos and boiler
070B: above developed thermos department
070C: position where the above development thermos is fixed
070D: Auxiliary Fuel Division
[080] of 080: large inlet bottled general beverage
080A: Heating thermos and boiler
080B: Large Drinking Water Bottle
080C: Where Can Bottles Are Fixed
090 of the Fig .: Small bottled general beverage drinking
090A: heating thermos and boiler
090B: Combined with small entrance general beverages
090C: Location where PET bottle is fixed
100 in Figure 10: auxiliary gas
100A: heating thermos and boiler
100B: auxiliary fuel unit
100C: main fuel injection
100D: Auxiliary Fuel Outlet
100E: auxiliary fuel inlet
110 in FIG. 11: Basic assembly diagram
110A: heating insulation pot
110B: Boiler Part
110C: backflow prevention case
110C1: Male thread in the non-return case part [110C]
110C2: Female thread inside the boiler case
110D: heating insulation pot plug
110E: Cup
111A, 111C: Protrusions in the heating thermal insulation pot [110A]
      111B, 111D: Grooves in the boiler section [110B]
 [Fig 12] 120: thermos
120A: Thermos
120B: Thermos bottle cap
120C: Hydraulic pressure control valve
120D: Ignition Switch
120E: Torch
120F: Opening start
120G: hot end
120H: hot air outlet
120i: hot exhaust
120J: Heating Insulation Pot
120K: Pressure regulating valve
120L: pressure outlet

Claims (15)

In FIG. 12, the thermos [120A] and the thermos cap [120B] and the hydraulic pressure regulating valve [120C] are provided, and the supplied heating insulation port [120J] is provided, and an ignition switch [120D] for fuel ignition is provided. Tooth [120E] and the lower side of the heat insulating pot [120J], the lower one side hot air opening [120F] and the other side hot air end [120G] to raise the temperature of the lower portion of the vaporization furnace at about 300 degrees upon combustion. It is provided to discharge from the hot air outlet [120H] to the hot air discharge [120i] outlet, a cup having a pressure control valve [120K] for pressure control heating heating port [120J] and a discharge outlet for discharge out A heating insulated pot equipped with a pressure outlet [120L] and a bimetallic [052B] of [FIG. 5] for temperature control and vaporization stop are provided in the heating insulated pot, and a heating thermos and a boiler in [FIG. 10] Main fuel equipped with part [100A] Ipbu [100C], heat insulating ports, characterized in the structure and composed of a detachable auxiliary fuel unit for use as a structure capable of extending the secondary fuel outlet having the [100B] [100D] and the auxiliary fuel injection unit [100E] 12, when the thermos [120A] is fixed in [12], the thermos cap [120B] is pressed and inverted in this state to open the hydraulic pressure regulating valve [120C] due to the water pressure and supply it to the heating insulation pot [120J]. When the supply is completed, it is used to stand up again and the thermos [120A] when it is separated, and the thermos plug [120B] is released, the heat insulated pot is characterized by the structure and configuration to use without liquid spill from the thermos . 12, the pressurization is maintained after pressing the ignition switch [120D] in Fig. 12, the torch part 120E is ignited, and the heat insulating pot consisting of one layer of the lower side of the heat insulating pot 120J. When heated from one side to the bottom, the liquid is heated and the heat spreads evenly from the start of the hot start [120F] to the hot end [120G] at an angle so that heat transfer is lowered in the upward airflow and heat direction. The heating rate is improved on the upward direction at. The remaining hot air is a heated insulation port characterized by the construction and structure of the discharge at the hot air outlet [120i] outlet along the hot air outlet [120H]. According to claim 1, when the liquid of the heating insulation port [120J] in Fig. 12 is heated, the pressure rises and the pressure control valve portion 120K operates to discharge the air pressure and the discharged air pressure is discharged out of the cup [120L] do.
After the temperature is adjusted to the bimetal [052B] of the [Fig. 5] by the temperature control device, the contents of the heating insulation port in the state of pressing the ignition switch [120D] when the temperature is as much as desired [Fig. 5] the bimetal [052B] is operated Fuel supply is adjustable.
Heating overheating port characterized in that the configuration and structure of the bimetal [052B] of the safety device [Fig. 5] to operate and block when overheating occurs while the ignition switch [120D] is pressed. 10, the fuel may be injected into the main fuel injecting section 100C of the heating thermos and the boiler section 100A in FIG. 10, fixed to the auxiliary fuel outlet 100D, and supplementary at the time of fuel injection. A fuel addition attaching and injecting method characterized by a structure and a structure capable of injecting fuel in the injecting unit (100E). [Figure 1] auxiliary gas of the basic structure, auxiliary gas addition [2000], auxiliary gas [050], auxiliary thermos [3000], auxiliary thermos [060], inlet wide as a method of fastening the raw water bottle Add bottle [4000], wide inlet bottle [070], add small bottle inlet [5000], small bottle inlet [080]. [4] in the heating and the heat insulation port structure as a heating plug [040] in the plug mounting portion [041] and a double layer vacuum layer for keeping warm, torch connection for receiving heating [043], the raw water The feed is located at the relatively central boiler connection [048], the torch connection [043] at the bottom side, the air supply and ignition indicator window [049] for the oxygen supply, and the heated and low position at the heating start [044]. The intermediate position heating intermediate airflow and the high position heating beginning air flow portion [046] to make a high difference to diffuse the heat of the bottom surface of the heating insulation pot, the heat comprises a diffusion prevention base plate of the boiler and the raw water. Heating hot air discharger [047] A heating thermal insulation port characterized by a structure and structure. In the present invention, the inlet large bottle fixing unit [figure 5] structure of the raw water supply unit [050F] to receive a variety of raw water to the boiler case [050A] as a device for heating the heating pot to the boiler unit [050] in FIG. 050B] and the inlet vial holder [050C]
And a cooling unit [050D] structure as an external fuel fastening unit for extending fuel outside the boiler internal fuel and a boiler case air vent inlet for protecting the internal components of the boiler.
The ignition spark is generated by the fuel amount display unit [050E] for displaying the amount of fuel in the boiler, the ignition switch button [051A] for ignition and the high pressure generator for ignition, and the fuel opener [051C] for fuel supply is pressed. When the outlet is turned on and the fuel outlet [051D] is ignited from the fuel pipe [051E] to the torch unit [051F], the flame is displayed on the heating display unit [053A], and the hot air outlet [053B] structure is discharged for combustion. Include,
The heat shield is configured by fixing the heat shield [052A] to the heat shield fixing part [052A1] to prevent the heat radiating to the lower side of the torch, and constructs and structures a bimetal part [052B] that is connected to a heat insulating port to sense heat. Heating insulation pot characterized in that. [6] of the present invention is a thermos bottle made of a screw thread fixing the thermos of the thermos case part [060A], which is a thermos container with a thermos structure diagram [060], and a thermos stopper in a thermos container. Threaded thermos and thermos cap stopper [060C] for the protection of the thermos container contents and the thermos cap body [061A] and the thermos cap open button for safe use of the thermos container contents [061B] A heating thermostat port comprising a thermos raw water protection plate [061C] and a thermos cap spring [061D] that are pressed to operate. It relates to a method of attaching the auxiliary gas [100] in FIG.
A heating thermos pot comprising a heating thermos and boiler section [100A], an auxiliary fuel section [100B], a main fuel injection section [100C], an auxiliary fuel outlet [100D], and an auxiliary fuel injection section [100E]. 11 shows the assembly method of the present invention relates to a method of assembling the basic assembly diagram [110] by a method of fixing without using an external bolt.
This is done in the following order:
Align the projections or grooves [111A] and [111C] with the heating insulation pot [110A] to the grooves or projections [111B] and [111D] with the boiler [110B], and the internal thread [110C1] in the non-return case part [110C]. By connecting to the internal thread [110C2] inside the boiler case, the structural system is matched, and the convenience, appearance and production are improved compared to the bolt fixing method when washing and producing the heating thermos [110A]. Heating insulation pot characterized in that the structure is fastened by 110D] and the cup [110E]. In the present invention, the heating insulation pot using as a structure capable of fastening and detaching the container having the lower insulating capacity to the container having the upper heating capacity. In the present invention, the heating insulation pot used as a structure capable of fastening and detaching a container having a lower heat insulating ability to a container having an upper heat insulating ability. In the present invention, the heating insulation pot used as a structure capable of fastening and detaching the container for supplying raw water on the lower side to a container having an upper heating ability and an insulating ability. 15. The insulating pot according to claim 12, 13, or 14, wherein the lower heat insulating capacity is upper side of the container, and the heat insulating port may be provided in a structure that can be fastened and detached by using a container having an upper heating and heat insulating ability on the lower side.

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