KR100485616B1 - Plastic Box Using Vacuum Heat Shield Merterial - Google Patents

Abstract

The present invention relates to a plastic box using a vacuum insulating material, characterized in that the vacuum insulation and styropol laminated on the side and top and bottom of the plastic box, and to store and transport the refrigerated article in the inner space of the inner plastic box,

An inner plastic case having a three-dimensional shape in which one side is opened so that one side is opened so as to contain an object; An outer plastic case having a size enough to wrap the inner plastic in the same shape as the inner plastic; A vacuum insulating material inserted into a space portion between the inner plastic case and the outer plastic case, the inside of which is a vacuum to block heat transfer between the inside and the outside of the plastic case; Styropol is located on the outer side and the bottom of the vacuum insulating material to protect the vacuum insulating material and to reinforce the internal and external thermal insulation; A cover surrounding upper edges of the inner plastic case and the outer plastic case; A first cover part comprising a styropole and an upper cover and covering the cover; It comprises a styropol and a vacuum insulating material and comprises a second cover portion covering the first cover portion, and at the same time to cover the upper edge of the outer plastic case.

Description

Plastic Box Using Vacuum Heat Shield Merterial}

The present invention relates to a plastic box using a vacuum insulator, and in particular, the vacuum insulator and styropol are laminated on the upper and lower surfaces of the plastic box, and the refrigerated article can be stored and transported in the inner space of the inner plastic box. It relates to a plastic box using a vacuum insulator.

As is well known, Styropol is a foamable resin product having unique properties such as excellent cushioning, light weight, heat insulation, sound insulation, and moisture resistance, and is mainly used as a buffer packaging material and a building insulation material.

In addition, the styropol is a situation that is widely used in a configuration that requires heat retention and cold insulation because of the insulation.

However, when only the styropol is used, there is a limit to maintaining insulation, and when the warmer or the cooler is manufactured using the styropol, there is a problem that the contents of the container can be maintained for only 1-2 days.

That is, the styropol having the above structure has a certain level of thermal insulation properties, but in a device requiring long thermal insulation, it is difficult to achieve by applying styropol alone.

The present invention is to solve the above problems, the object of the present invention is to provide a plastic box that can withstand long-term storage and transport by maintaining a cooling and heating state.

As a means for achieving the above object,

The present invention includes an inner plastic case having a three-dimensional shape in which one side is opened so that one side is opened so as to contain an object; An outer plastic case having a size enough to wrap the inner plastic in the same shape as the inner plastic; A vacuum insulating material inserted into a space portion between the inner plastic case and the outer plastic case, the inside of which is a vacuum to block heat transfer between the inside and the outside of the plastic case; Styropol is located on the outer side and the bottom of the vacuum insulating material to protect the vacuum insulating material and to reinforce the internal and external thermal insulation; A cover surrounding upper edges of the inner plastic case and the outer plastic case; A first cover part comprising a styropole and a cover plate and covering the cover; It comprises a styropol and a vacuum insulating material and comprises a second cover portion covering the first cover portion, and at the same time to cover the upper edge of the outer plastic case.

In addition, the second cover portion is characterized in that it further comprises a cover plate and a cover plate.

In addition, the cover is characterized in that the packing is further provided with silicon attached to the rim.

In addition, the styropol forming the upper surface is specially formed in double to strengthen the insulation Gong.

In addition, the styropol is characterized in that the high-density compressed styropol compressed to a constant strength.

In addition, the vacuum insulating material is made of an inorganic fiber forming body and a stainless steel plate surrounding it, characterized in that the interior of the stainless steel sheet is made in a vacuum state.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is an exploded perspective view of the present invention.

Figure 2 is an exploded perspective view for better understanding of the present invention.

3 is a cross-sectional view of main parts of the present invention.

Figure 4 is an exploded perspective view for explaining the second cover portion of the present invention.

5 is a configuration diagram of the vacuum insulator of the present invention,

One side is opened and one side is opened so that it can hold things. An inner plastic case 10 having a shape;

An outer plastic case 20 having a size of wrapping the inner plastic in the same shape as the inner plastic case 10;

A vacuum insulating material (30) inserted into a space portion between the inner plastic case (10) and the outer plastic case (20) to block heat transfer between the inside and the outside of the plastic case in a vacuum state;

Styropoles (40) for protecting the vacuum insulating material 30 is located on the outer side and the bottom of the vacuum insulating material 30 to reinforce the internal and external thermal insulation;

A cover 50 surrounding upper edges of the inner plastic case 10 and the outer plastic case 20;

A first cover part 60 formed of a styropole 40, a cover plate 61, and a cover plate 62 and covering the cover 50;

It comprises a styropole 40 and the vacuum insulating material 30, and comprises a second cover portion 70 covering the first cover portion 60, and at the same time to cover the upper edge of the outer plastic case 20 do.

In FIG. 1 and FIG. 2, reference numeral 90 is a cover flange that assists the sealing function, and is installed between the inner and outer plastics 10 and 20 and the first cover part 60 so that the sealing function can be more surely performed. It plays a role. The present invention constituted as described above comprises an inner plastic case 10 and an outer plastic case 20 and a vacuum insulating material 30 and a styropole 40 are inserted into a space formed between the case 10. .

In addition, the vacuum insulating material 30 of the present invention is a state in which a stainless steel box is welded to the inorganic fiber molded body 30a as shown in FIG. The flange portion 31 is formed at 30, and a pipe 32 for depressurizing the vacuum insulator is provided at one side of the side surface.

An auxiliary styropole 41 is inserted into a portion where the flange portion 31 of the vacuum insulation material 30 of the one end and the flange portion of the vacuum insulation material of the other end are inserted so that there is no gap.

For reference, look at the manufacturing process of the vacuum insulation (30) used in the present invention.

First, the inorganic fiber is laminated, compressed and heated to produce an inorganic fiber molded body. Then, when the production of the inorganic fiber molded body as described above is inserted into the stainless box, the upper plate and the lower plate is welded and vacuum exhaust through one side is completed.

The vacuum insulator 30 produced as described above was found to have a very good effect of heat insulation.

According to the present invention, the high-density compressed styropol 40 is added to the vacuum insulator 30 to further enhance the effect of heat insulation and to protect the vacuum insulator 30 from external impact.

Looking at the manufacturing process is provided with a conventional outer plastic case 20 of the hexahedral form that one side is opened, first lay the styropole 40 on the inner bottom of the outer plastic case 20, the vacuum insulating material 30 thereon Install it. In addition, the inner side of the outer plastic case 20 also places the stropole 40 first and places the vacuum insulator 30 therein.

Then, when the arrangement of the styropole 40 and the vacuum insulation material 30 is completed on the side and the bottom as described above, after installing the auxiliary styropole 41 on the side edge portion using the cover 50, the inner and outer plastic cases 10 , 20) and tightly seal with silicone packing (80).

An auxiliary styropole 41 is installed on the flange 31 of the vacuum insulator 30 installed on the side to eliminate the empty space. Four auxiliary styropol 41 enters between the lower side and the side, four enters between the side and the side, and four enters between the upper side and the side, and a total of 12 auxiliary styropols enters.

In addition, in the present invention, the first cover part 60 and the second cover part 70 are installed, and the first cover part 60 includes the cover plate 61 and the cover plate 62 on the styropole 40. In the mounted state, the cover plate 61 is engaged with the cover 50. The second cover part 70 inserts the styropole 40 into the cover plate 72, couples the vacuum insulator 30 thereon, and the auxiliary styropole 41 to the flange surface of the vacuum insulator 30. Insert 4 pieces to fix. When the assembly is completed, the cover plate 71 is assembled.

When the second cover portion 70 is completed as described above it can be covered up to the rim surface of the cover 50 can maximize the warming and cooling effect.

That is, the first cover 60 is covered with the first cover part 60 to induce primary heat insulation, and the second cover 70 is covered with the first cover 60 to induce secondary heat insulation. It can be.

In addition, the center of the first cover plate 62 is formed with a wrinkle piece (60a) to put the hand into the wrinkle piece (60a) in the state of opening only the first cover unit 60 can take out the contents. It was made.

As described above, when one end of the first cover plate 62 is made of wrinkled pieces, the first cover plate 60 does not need to be completely opened, and thus the hot and cold air therein does not flow out to the outside. It can be a great help to keep the condition for a long time.

6 and 7 are prepared for each product's refrigeration capacity, Figure 6 shows the change in the internal temperature with time, Figure 7 shows the change in the wall temperature, Sample 1 is a typical fish market ice box, sample 2 is a fishing ice box, and sample 3 shows an ice box of the present invention.

As can be seen from the graph, it can be seen that the ice box of the present invention has a much better refrigeration capacity.

In addition, Figures 8 and 9 are prepared for the freezing capacity for each product, Figure 8 shows the change in the internal temperature with time, Figure 9 shows the change in wall temperature over time, Sample 1 is for a general fish market An ice box, sample 2 is a fishing ice box, and sample 3 shows an ice box of the present invention.

As can be seen from the graph, it can be seen that the ice box of the present invention is far superior in freezing capacity.

On the other hand, the styropole 40 is manufactured by high-density compression, which is to increase the density of the styropole to further strengthen the performance of the insulation and to prevent it from being easily broken.

In the present invention, the styropole 40 and the vacuum insulator 30 may be assembled in a separated state, respectively, or may be manufactured in a bonded state to each other to increase the convenience of assembly.

However, even if the styropole 40 and the vacuum insulator 30 are assembled in a separated state, there is no difference in assembly speed so that any method may be used.

In addition, when the present invention is manufactured as described above, since the vacuum insulation 30 and the styropole 40 overlap each other, the efficiency of the insulation is much higher, and since the styropole 40 located outside is densely compressed, the external impact Since the primary absorption is to prevent the vacuum insulator 40 from being damaged.

In addition, if the present invention is configured as described above, since the heat insulation box is manufactured by assembling, even if one side of the styropol or the vacuum heat insulating material is damaged, the whole part is not used but only a part thereof is replaced.

In other words, the devices having a conventional heat insulation function is often not to use the entire container even if only one side is broken, but by using only the present invention it is possible to significantly reduce the waste factor economically.

Using the present invention made as described above can be maintained for about 3 to 4 days or more.

As described above, the present invention includes an inner plastic case and an outer plastic case, and a vacuum insulation material and a styropole are laminated to a space portion between the cases. By manufacturing the plastic case, it maximizes the efficiency of the vacuum and provides the effect that only part can be used in case of breakage.

1 is an exploded perspective view of the present invention.

Figure 2 is an exploded perspective view for better understanding of the present invention.

3 is a cross-sectional view of main parts of the present invention.

Figure 4 is an exploded perspective view for explaining the second cover portion of the present invention.

Figure 5 is a block diagram of a vacuum insulation of the present invention.

6 is a graph comparing the internal temperature of the refrigerator with each product.

7 is a graph comparing the wall temperature versus refrigeration capacity by product.

8 is a graph comparing the internal temperature of the freezing capacity for each product.

9 is a graph comparing the wall temperature vs. freezing capacity of each product.

Explanation of symbols on the main parts of the drawings

10: inner plastic case 20: outer plastic case

30: vacuum insulation 40: styropol

50: cover 60: first cover portion

70: second cover part

Claims (6)

An inner plastic case 10 formed of a constant three-dimensional shape in which one side is opened so that one side is opened so as to contain an object; An outer plastic case 20 having a size of wrapping the inner plastic in the same shape as the inner plastic 10; A vacuum insulating material (30) inserted into a space portion between the inner plastic case (10) and the outer plastic case (20) to block heat transfer between the inside and the outside of the plastic case in a vacuum state; Styropoles (40) to be located on the outer side and the bottom of the vacuum insulating material 30 to protect the vacuum insulating material and to reinforce the internal and external thermal cut-off; A cover 50 surrounding upper edges of the inner plastic case 10 and the outer plastic case 20; A first cover part 60 formed of a styropole and a cover plate 61 and covering the cover 50; A vacuum comprising a styropole and a vacuum insulating material and including a second cover part 70 covering the first cover part 60 and covering the upper edge of the outer plastic case 20 at the same time. Plastic box with insulation. The method of claim 1, The second cover portion plastic box using a vacuum insulation material, characterized in that further comprises a cover plate 72 and the cover plate (71). The method of claim 1, The plastic box using a vacuum insulation material, characterized in that the cover 50 is formed by further installing a packing (80) attached to the edge of the silicon. The method of claim 1, Styropole 40 forming the upper surface is a plastic box using a vacuum insulation material, characterized in that formed in two to strengthen the insulation. The method of claim 1, The styropole 40 is a plastic box using a vacuum insulation material, characterized in that the high-density compression styropole compressed to a certain strength. The method of claim 1, The vacuum insulation material 30 is made of an inorganic fiber forming body and a stainless steel plate surrounding the plastic box using a vacuum insulation material, characterized in that the interior of the stainless steel sheet is made in a vacuum state.