KR20120002755U - . Functional bottle having heat and cold insulation function - Google Patents

Abstract

The present invention relates to a double container having a thermal insulation and cold storage function. The container itself has a vacuum or adiabatic gas chamber to improve the storage performance of the container, thereby preventing the contents from being deteriorated and preparing for leakage of the contents due to damage to the outer body. In the construction of a double container that can be used as a vacuum container, a vacuum or adiabatic gas chamber is formed in the entire area of the inner body and the outer body to enhance the contents storage performance and to change the sealed structure of the vacuum or the adiabatic gas chamber for a long time. The present invention relates to a double container having a thermal insulation and a cold insulation function that can be maintained at a low cost and can be mass produced by simplifying the overall structure while maintaining it.
According to the present invention, the inner body 20 has an outlet 21 at the top thereof, and a storage space 22 for containing contents is formed, and the outer body 30 forms the outside of the inner body 20 to form an inner portion. A chamber 40 which forms a surface of the body 20 and is spaced apart at intervals between the vertical wall surface and the bottom surface of the inner body 20 and the outer body 30; Coupling means 50 configured on the upper portion of the inner body 20 and the outer body 30 to couple the inner body 20 and the outer body 30; The airtight state of the chamber 40 which is formed on the outer wall surface of the inner body 20 and the outer body 30 in contact with the inner body 20 formed at intervals between the inner body 20 and the outer body 30. It characterized in that it comprises a; sealing means for maintaining a 60.

Description

Functional bottle having heat and cold insulation function

The present invention relates to a double container having a thermal insulation and cold storage function, and more particularly, to have a vacuum or adiabatic gas chamber on its own to improve the storage performance of the container to prevent contents deterioration and to prevent contents leakage due to damage to the outer body. In constructing a double container that can be used for various purposes, a vacuum or adiabatic gas chamber is formed in the entire area of the inner body and the outer body to enhance the contents storage performance and to change the sealed structure of the vacuum or the adiabatic gas chamber to change the vacuum or gas. The present invention relates to a double container having a heat / cold function that enables a low cost manufacturing and mass production by simplifying the overall structure while maintaining the injection state for a long time.

In general, the double container is a narrow neck container containing a liquid, and has a storage space for the contents and a stopper to prevent leakage of the stored contents. The material is made of various materials such as glass, synthetic resin, metal and nonmetal, and is used for storing or storing the contents, but it is not well maintained and kept in the air under the influence of external heat.

Thermos bottles are known to keep the temperature of the contents while storing the cold, hot water and the like for a long time.

The thermos is composed of a vacuum chamber that reduces the medium so that the amount of transfer of the medium is thinner on the outer surface of the bottle.If the liquid contents are stored in the thermos, the temperature is reduced by the vacuum chamber where the medium is diminished and stored in the body. The temperature of the contents is kept constant.

A common thermos bottle, a thermos bottle body, an outlet in which the diameter of the body is reduced on the upper side of the body, a vacuum bottle mounted to be spaced apart at regular intervals on the inside of the body, and to fix the vacuum bottle inside the body to maintain airtightness The upper side is provided with a sealing to closely contact the inner surface of the outlet and the inlet end of the vacuum bottle, and the lower side is provided with a control mechanism for adjusting by screw rotation to maintain the airtight compression.

A female screw is formed at the center of the body so that the adjusting mechanism is inserted and rotated, and a bottom lid configured to be screwed and fixed to the outer side of the bottom of the body is configured.

In addition, a protrusion projecting to be inserted into the same surface to the vacuum bottle inlet part and a ring for tightly contacting with the inside of the outlet inlet to be tightly inserted into the outer circumferential surface of the protrusion may be inserted by screwing the outside of the outlet inlet. A stopper is configured to keep the contents leaking and keeping warm.

In addition, there is also a lid that can be used as a substitute for the cup screwed to the upper outer side of the body to obtain a warming effect.

Also, as shown in Fig. 1, a plastic double container in which a vacuum chamber is formed on the wall by injection molding from a synthetic resin material is also known. 1 is an example of a double container 13 with a vacuum chamber 12 formed between an inner body 10 and an outer body 11.

The upper side of the inner body 10 and the outer body 11 constituting the double container 13 is sealed to form a vacuum chamber 12 to form a vacuum chamber 12 to the inner body 10 and the outer The vacuum chamber 12 is formed by treating the upper portion of the body 11. The stopper 15 is fitted to the upper portion of the sealing member 14.

The vacuum chamber 12 is formed along the circumference of the inner body 10 and the outer body 11, the bottom surface is not formed.

Since the double container 13 is a structure in which the sealing member 14 is simply covered on the upper surface of the inner body 10 and the outer body 11, there is a possibility of detachment during repeated use and also reacts to temperature and chemical atmosphere. When the sealing agent is applied, it is difficult to guarantee a long-term sealing state since it necessarily conforms to shrinkage expansion.

In addition, the vacuum chamber 12 is formed in a vertical region along the circumferential surface of the container so that the amount of medium delivery is similar to that of the general container in the remaining area where the vacuum chamber 12 is not formed. It was hard to expect enough.

In order to improve this problem, it is also known to form the vacuum chamber 12 by expanding the auxiliary cap 16 on the lower surface, but when the additional auxiliary cap 16 is added, the space of the vacuum chamber 12 does not correspond to each other. Since the performance is poor and the manufacturing process of the bottle is increased, there is a problem that productivity is lowered and manufacturing cost is increased. And the design of the bottle is also constrained.

In addition, it is also structurally complicated to seal between the inner body 10 and the outer body 11 using the sealing member (14).

The present invention was devised in view of the above circumstances, and an object of the present invention is to provide a long-term airtight state through the shape of the container body without depending on the sealing member in forming a vacuum or adiabatic gas chamber in the double container. will be.

Another object of the present invention is to obtain improved storage performance by allowing the vacuum or adiabatic gas chamber space to extend to the bottom surface, including the vertical wall portion, through the container body's own structure.

Still another object of the present invention is to provide a double container capable of low-cost production and mass production by structurally simplifying the sealing process by a sealing member for maintaining the airtight state of a vacuum or adiabatic gas chamber.

In order to achieve the above object, a double container having a thermal insulation and cold storage function according to the present invention,

It is divided into an inner body and an outer body, and a vacuum or adiabatic gas chamber is provided between the inner body and the outer body, and the medium or the medium transfer rate is reduced through the vacuum or the adiabatic gas chamber to improve the storage performance of the storage material. In

The inner body has an outlet opening at the top and a storage space for containing the contents is formed, the outer body forms the outer surface of the inner body to form the surface of the inner body, and the vertical wall surface of the inner body and the outer body and A chamber formed at intervals between the bottom surfaces;

Coupling means configured on an upper side of the inner body and the outer body to couple the inner body and the outer body;

It is characterized in that it comprises a; sealing means for maintaining the airtight state of the chamber formed at an interval between the inner body and the outer body is formed on the outer wall surface of the inner body and the inner body in contact with the inner body.

The space of the chamber which is formed at intervals between the vertical wall surface and the bottom surface of the inner body and the outer body is integrally communicated with each other.

The coupling means,

A flange formed to protrude along the outer wall face of the outlet opening of the inner body and configured to closely contact the tip of the outer body by face contact;

A close contact plane formed at the tip of the outer body to be in close contact with the flange of the inner body;

It characterized in that it further comprises a fastening portion for strengthening the close contact state of the inner body and the outer body on the outlet vertical outer wall of the inner body and the corresponding vertical surface inner wall of the outer body.

The fastening portion,

A thread is formed along the outer wall of the inlet and outlet of the inner body, and a corresponding thread is formed on the corresponding vertical surface of the outer body, so that the inner body and the outer body are fastened by screwing.

The fastening portion,

Protruding the projections on the inner wall of the vertical surface of the outer body, characterized in that formed by forming a corresponding projection groove on the vertical outer wall of the outlet opening of the inner body.

The fastening portion,

Protruding the projection on the inner wall of the vertical surface of the outer body, characterized in that formed on the vertical outer wall of the inlet and outlet of the inner body to form a locking step corresponding to the lower side of the projection to support the projection of the outer body.

The sealing means,

Sealing ring fitting groove formed between the contact surface between the inner body side flange and the contact plane of the outer body,

An O-ring seated in the sealing ring fitting groove to seal the chamber;

The inner body and the outer body is characterized in that it consists of a sealing member that is covered on the outside around the portion in close contact.

The inner body and the outer body is formed integrally using a transparent resin, characterized in that configured to enable the internal perspective.

The upper side tip height of the inner body is characterized in that it is configured to project relatively higher than the tip height of the outer body.

The present invention allows the contents to be kept in a good state for a long time by maintaining the airtight state of the space or vacuum gas or the double container chamber filled with adiabatic gas without relying on the sealing member. There is an effect to provide a reliable double container. In addition, the chamber space of the container body is extended to the bottom surface, including the vertical wall surface has the effect of increasing the space of the chamber to improve the storage performance of the container. In addition, there is an effect that it is possible to provide a double container capable of low-cost production and mass production by simplifying the sealing process by the sealing member for maintaining the airtight state of the chamber. In addition, by simply forming a chamber inside the double container without complicated, it can improve the cold and warm performance for the contents stored in the double container, prevent the contents from deterioration, and prepare for the leakage of contents due to the body breakage. It can be used for storage.

BRIEF DESCRIPTION OF THE DRAWINGS The explanatory drawing of the double container which has a general thermal insulation.
2 is a cross-sectional view of a double container according to an embodiment of the present invention.
3 is a cross-sectional view of a double container according to another embodiment of the present invention.
4 is a cross-sectional view of a double container according to another embodiment of the present invention.
Figure 5 (a) (b) is an explanatory view of the body of a double container according to an embodiment of the present invention.
Figure 6 is a diagram illustrating a double container manufacturing process according to an embodiment of the present invention.
Figure 7 is another explanatory diagram showing a manufacturing process of the double container according to an embodiment of the present invention.
8 is a closed cross-sectional view of the double container according to an embodiment of the present invention.
Figure 9 is a schematic diagram illustrating the completion state of the double container according to an embodiment of the present invention.
10 is a view showing an example of a double container according to another embodiment of the present invention.

Hereinafter, described with reference to the accompanying drawings a preferred embodiment of the present invention as follows.

2 is a cross-sectional view of a double container according to an embodiment of the present invention. 3 is a cross-sectional view of a double container according to another embodiment of the present invention. 4 is a cross-sectional view of a double container according to another embodiment of the present invention. Figure 5 (a) (b) is a body explanatory diagram of a double container according to an embodiment of the present invention. Figure 6 is a schematic diagram illustrating a double container manufacturing process according to an embodiment of the present invention. 7 is another explanatory diagram showing a manufacturing process of a double container according to an embodiment of the present invention. 8 is a cross-sectional view of a closed container of a double container according to an embodiment of the present invention. 9 is a diagram illustrating a state of completing a double container according to an embodiment of the present invention. 10 is a view showing an example of a double container according to another embodiment of the present invention.

Double container having a heat retention and cooling function according to the present invention, is divided into the inner body 20 and the outer body 30, as shown in Figures 2 to 5, the inner body 20 and the outer body 30 It is a double container 100 having a chamber 40 that can be maintained in a vacuum space or filled with adiabatic gas.

When the vacuum is formed in the chamber 40, the medium transfer rate is lowered through the vacuum to improve the thermal insulation and cooling performance, and when the insulating gas is filled, the thermal conductivity may be lowered to improve the thermal insulation and cold storage performance.

The main part of the double container 100, the inner body 20 has an outlet 21 at the top and a storage space 22 for containing the contents is formed, the outer body 30 is the inner body 20 The outer surface of the inner body 20 to form the surface of the inner body 20 and the outer wall of the vertical wall and the bottom surface of the body 30 is formed with a chamber 40 formed at intervals.

The space of the chamber 40 may form a vacuum or fill adiabatic gas.

And, the coupling means 50 is configured on the upper portion of the inner body 20 and the outer body 30 to couple the inner body 20 and the outer body 30.

And, the outer wall surface of the inner body 20 and the inner body 20 of the chamber 40 is formed on the upper portion of the outer body 30 in contact with the interval formed between the inner body 20 and the outer body 30 It includes a sealing means 60 to maintain the airtight.

That is, it is preferable that the space of the chamber 40 formed by being spaced apart between the vertical wall surface and the bottom surface of the inner body 20 and the outer body 30 to be integrally in communication with each other.

Coupling means 50, the flange 22 formed to protrude along the outer wall surface of the outlet 21 of the inner body 20 so that the front end of the outer body 30 can be in close contact with the surface, A close contact surface 31 formed at the tip of the outer body 30 to be in close contact with the flange 22 of the inner body 20, the vertical outer wall and the outer side of the outlet inlet 21 side of the inner body 20 Corresponding vertical surface of the body 30 is composed of a fastening portion 70 to strengthen the close contact between the inner body 20 and the outer body 30.

In addition, as shown in FIG. 2, the fastening portion 70 forms a thread 23 along the outer wall of the outlet inlet 21 of the inner body 20, and a corresponding thread ( 32 is formed so that the inner body 20 and the outer body 30 is fastened by screwing.

In addition, as shown in FIG. 3, the fastening portion 70a protrudes the protrusion 33 to the inner wall of the vertical surface of the outer body 30, and the protrusion corresponding to the vertical outer wall of the outlet inlet 21 of the inner body 20. The groove 24 is formed.

Further, as shown in FIG. 4, the fastening portion 70b protrudes the protrusion 33 on the inner wall of the vertical surface of the outer body 30, and the outer body on the vertical outer wall of the outlet inlet 21 of the inner body 20. It is configured to form a locking step (25) corresponding to the lower side of the projection 33 so as to support the projection 33 of (30).

2 to 4, the sealing means 60 is a sealing ring fitting groove 34 formed between the contact surface between the flange 22 of the inner body 20 side and the contact surface 31 of the outer body 30. And an O-ring 80 seated in the sealing ring fitting groove 34 to seal the chamber 40, and a seal that is covered on the outside of the inner body 20 and the outer body 30 in close contact with each other. The member 81 is comprised.

And, the inner body 20 and the outer body 30 is preferably formed integrally using a transparent resin to configure the internal perspective is possible.

In addition, the height of the upper outlet side 21 of the inner body 20 protrudes relatively higher than the tip height of the outer body 30 so that the outer body 30 is centered on the outlet inlet 21 of the inner body 20. To be easily coupled to, the inner body 20 and the outer body 30 is configured to be coupled through the coupling means 50 and the sealing means (60).

In this case, it is preferable to use polyethylene, polypropylene, polyethylene terephthalate material which is commonly used as a material for producing a container, and improve the vacuum holding performance by mixing and mixing a polyvinyl alcohol-based resin or nylon, which is another material having excellent sealing property. You may.

The operation of the main part constituting the double container according to the present invention will be described in detail with reference to FIGS. 2 to 5 and 5 to 10.

Storage space that can contain the contents is formed in the inner body (20). The inner body 20 has an inlet and outlet 21 so that the contents can be put in or taken out through it, and the outer body 30 forming a surface separate from the inner body 20 is coupled through the coupling means 50 to the chamber. 40 is formed.

The inner body 20 and the outer body 30 can be injection molded using a synthetic resin material, and can also be manufactured using glass and metal materials. Molding the inner body 20 and the outer body 30 by a transparent treatment enables external identification of the contents.

Separately configuring the double container 100 into the inner body 20 and the outer body 30 is to form a chamber 40 between the inner body 20 and the outer body 30.

When the chamber 40 is placed, an effect that can be obtained in a normal thermos bottle is obtained. The medium which directly transfers heat is thinned by the chamber 40 in which a vacuum is formed, such that an impact including heat transfer is performed on the inner body 20 or the like. It is to use the principle to reduce the transmission to the outer body 30 to a minimum.

Vacuum means a state in which the gas pressure in the space is lower than atmospheric pressure, i.e., the molecular density is less than about 2.5 * 1019 molecules / cm3. Vacuum formation in the chamber 40 is maintained through the coupling means 50 and the sealing means 60 for sealing the upper portion of the inner body 20 and the outer body 30.

The vacuum of the chamber 40 is a general container forming method, as shown in Figure 5, after manufacturing the inner and outer body 20, 30 constituting a double container, respectively, the next step is shown in Figures 6 and 7 As shown, a vacuum pump is used to remove air and gas from the work chamber, and then as shown in FIG. 8, the coupling means 50 are mechanically fastened to simplify the space in the chamber 40 into a vacuum space. Can be.

In addition, the space in the chamber 40 may be filled with a heat insulating gas to lower heat transfer, thereby improving thermal insulation and cold storage performance. The adiabatic gas may be a gas having a thermal insulation which is commonly used, and the injection of the adiabatic gas is preferably performed during the process of forming the chamber 40.

The present invention is formed so that the chamber 40 is integrally mutually in communication with each other in the entire vertical wall and bottom surface area of the inner body 20 and the outer body 30 to increase the warming and cooling effect. In the prior art, the chamber was partially provided, and the warming and cooling effect was insufficient. This was because the chamber was placed between the inner body 20 and the outer body 30 to be structurally sealed and difficult to combine. The present invention allows the chamber 40 to be formed in the entire area of the container body through the coupling means 50 and the sealing means 60 in the coupling of the inner body 20 and the outer body 30.

The height of the upper end portion of the inner body 20 is formed to protrude relatively higher than the outer body 30, which is to allow the inflow and outflow of the contents through the outlet 21 to be more desired, At the same time to combine the coupling means 50 and the sealing means (60).

Coupling means 50 for coupling the inner body 20 and the outer body 30, a variety of coupling means 50, such as screw coupling type of Figure 2, one-way protrusion coupling type of Figure 3, bidirectional protrusion coupling type of Figure 4 You can select and apply).

Coupling means 50 is formed in a shape projecting along the outer wall surface of the outlet opening 21 of the inner body 20, the flange 22 formed so that the front end of the outer body 30 can be in close contact with the surface, the inside A contact plane 31 formed at the tip of the outer body 30 to be in close contact with the flange 22 of the body 20, the vertical outer wall and the outer body (side) of the outlet opening 21 side of the inner body 20 ( A fastening part 70 is provided on the inner wall of the corresponding vertical surface 30 to enhance the close contact between the inner body 20 and the outer body 30.

The fastening portion 70 as shown in FIG. 2 is threaded, forming a thread 23 along the outer wall of the outlet 21 of the inner body 20, and a corresponding thread on the corresponding vertical surface of the outer body 30. Form 32 is the type in which the inner body 20 and the outer body 30 is fastened by screwing.

The fastening portion 70a as shown in FIG. 3 is a protrusion coupling type, protruding the protrusion 33 to the inner wall of the vertical surface of the outer body 30, and corresponding to the vertical outer wall of the outlet inlet 21 of the inner body 20. Forming the protrusion groove 24 is a one-way protrusion coupling type combining the inner body 20 and the outer body 30.

As shown in FIG. 4, the fastening portion 70b is a protrusion coupling type, protrudes the protrusion 33 on the inner wall of the vertical surface of the outer body 30, and the outer body on the vertical outer wall of the outlet inlet 21 of the inner body 20. Forming the engaging projection 25 corresponding to the lower side of the projection 33 to support the projection 33 of the 30 is a two-way projection coupling type combining the inner body 20 and the outer body 30.

2 to 4 and 8, the sealing means 60 is a sealing ring fitting groove between the contact surface between the flange 22 of the inner body 20 side and the contact surface 31 of the outer body 30. (34) to form an O-ring 80 for sealing the chamber 40 in the sealing ring fitting groove 34 to maintain the airtight state, as shown in Figure 8, the inner body 20 and the outer body ( The sealing member 81 is put on the outside of the portion in which the 30 is in close contact with each other to maintain the airtightness in the chamber 40.

Looking at the manufacturing order of the double container 100 having a chamber 40 according to the present invention as follows.

First, as shown in Fig. 5 (a) (b), to produce the inner body 20 and the outer body 30.

Thereafter, as shown in FIG. 6, when the inner body 20 is inserted into the outer body 30, the flange 22 formed along the outer wall of the inner body 20 is seated on the tip contact surface 31 of the outer body 30. do.

In this state, to keep the chamber 40 in a vacuum state, the air filled at atmospheric pressure in the chamber 40 is forcibly drawn out by using an air releasing mechanism through a gap between the flange 22 and the contact plane 31. . In addition, there is a method of assembling in a vacuum tube.

To fill the adiabatic gas, the adiabatic gas is injected at an appropriate pressure through the flange 22 and the contact plane 31.

When the air in the chamber 40 is removed to be in a vacuum state or filled with adiabatic gas, as shown in FIG. 7, the inner body 20 is seated in the outer body 30 with the chamber 40 formed therein. Becomes

In this state, as shown in FIG. 8, the sealing member 81 seals the outer circumference around the flange 22 surface, which is the point at which the inner body 20 and the outer body 30 are coupled to the air chamber 40. The airtight state of the chamber 40 is maintained by being sealed so as not to flow into.

Thereafter, as shown in FIG. 8, as shown in FIG. 8, a stopper 82 is mounted on the outlet 21 as necessary, or a cap 83 is disposed on the outside to complete the production of the finished product of the double container 100.

10 is an example in which the double container 100 according to the present invention is manufactured in another shape, and the chamber 40 is manufactured in an integrated structure in which the vertical wall surface portion and the bottom surface portion communicate with each other.

As such, the present invention has an integrated chamber 40 in which the inner and outer bodies 20 and 30 are integrated into one, thereby lowering the medium transfer rate in all directions of the body, thereby strengthening the thermal insulation. The airtight structure for airtightness is mechanically simple yet semi-permanent.

And, if the blocking agent is put into the preform inside, the outer body 20, 30, it is possible to maintain the vacuum state for a long time by solidifying the airtight state between the inner, outer body 20, 30 and prevent the leakage of the insulating gas It can be used for a long time. For example, the fragrance and contents of the cosmetic container can be prevented and the external entry and exit of the substance can be prevented to extend the useful life of the container.

In addition, it is possible to manufacture a simpler and lower cost than a conventional thermos structure, and does not require a sealing agent or a separate support structure, it is also possible to mass-produce a single product.

Areas of use include disposable food and beverage containers with enhanced insulation and cold storage, materials storage containers that provide improved thermal insulation for contents requiring heat insulation, and materials handling and storage for laboratories and industrial sites for experiments and research. It can be used for a wide range of applications, including containers, containers for storing and using cosmetics.

Although the subject innovation has been described in connection with the preferred embodiment, various modifications and variations are possible without departing from the spirit and scope of the subject innovation, and all simple modifications and variations fall within the scope of the utility model registration claims.

20: internal body
21: outflow entrance
It is a flange 22
23: screw thread
24: projection groove
25: Take chin
30: outer body
31: close contact plane
32: screw thread
33: protrusion
34: fitting groove
40: chamber
50: coupling means
60: sealing means
70.70a.70b: Fastening part
80: O-ring
81: Airtight member

Claims (9)

It is divided into an inner body 20 and an outer body 30, the chamber 40 is placed between the inner body 20 and the outer body 30, and the medium transfer rate is kept small through the chamber 40 In the double container 100 to improve the storage performance of the material,
The double container 100,
The inner body 20 has an outlet inlet 21 at the top and a storage space 22 for containing the contents is formed, the outer body 30 forms the outside of the inner body 20 to the inner body 20 A chamber 40 that forms a surface of the inner body 20 and the vertical wall surface and the bottom surface of the outer body 30 at intervals;
Coupling means (50) configured on an upper portion of the inner body (20) and the outer body (30) to couple the inner body (20) and the outer body (30);
Vacuum of the chamber 40 formed on the outer wall surface of the inner body 20 and the outer body 30 in contact with the inner body 20 formed at intervals between the inner body 20 and the outer body 30 Sealing means for maintaining a state (60); dual container having a heat insulation. The method of claim 1,
The space of the chamber 40, which is formed at intervals between the vertical wall surface and the bottom surface of the inner body 20 and the outer body 30 are integrally communicated with each other, characterized in that the double container having a heat insulation. The method of claim 1,
The coupling means 50,
A flange 22 formed in a shape protruding along the outer wall surface of the outlet opening 21 of the inner body 20 so that the tip of the outer body 30 is in close contact with the surface contact;
A close contact plane 31 formed at the tip of the outer body 30 to be in close contact with the flange 22 of the inner body 20, and
The fastening part 70 which improves the close contact state of the inner body 20 and the outer body 30 in the vertical outer wall of the outlet inlet 21 side of the inner body 20 and the corresponding inner surface of the outer body 30 is further added. The double container which has thermal insulation. The method of claim 4, wherein
The fastening portion 70,
A thread 23 is formed along the outer wall of the outlet 21 of the inner body 20, and a corresponding thread 32 is formed on a corresponding vertical surface of the outer body 30 to form the inner body 20 and the outer body 30. Double container having a heat-insulating function, characterized in that the fastening by screw coupling. The method of claim 4, wherein
The fastening portion 70a,
The projection 33 is projected on the inner wall of the vertical surface of the outer body 30, and the corresponding projection groove 24 is formed on the vertical outer wall of the outlet opening 21 of the inner body 20, characterized in that the heat retention. Double container having. The method of claim 4, wherein
The fastening portion 70b,
The projection 33 protrudes from the inner wall of the vertical surface of the outer body 30, and the projection 33 supports the projection 33 of the outer body 30 on the vertical outer wall of the outlet opening 21 of the inner body 20. Double container having a cold insulation function, characterized in that formed by forming a locking step (25) corresponding to the lower side of the. The method of claim 1,
The sealing means 60,
Sealing ring fitting groove 34 formed between the contact surface between the contact surface 31 of the inner body 20 side flange 22 and the outer body 30,
O-ring 80 is seated in the sealing ring fitting groove 34 to seal the chamber 40,
Double container having a heat-insulating and cooling function, characterized in that the inner body 20 and the outer body 30 is in close contact with the sealing member 81 is covered on its outer center. The method of claim 1,
The inner body (20) and the outer body (30) is formed integrally using a transparent resin is a double container having a heat insulation. The method of claim 1,
The upper side outlet inlet 21 of the inner body 20, the height of the outer container 30, characterized in that protruded relatively higher than the height of the tip of the outer body 30, characterized in that the double container having a cooling function.

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