KR102037732B1 - Structure for an insulation container and constructing method thereof - Google Patents

Abstract

The present invention relates to a structure for insulation container and a construction method thereof, wherein the structure for an insulation container is inserted into an upper surface, a lower surface, and both side surfaces of an internal surface of a container. The structure for an insulation container comprises: a jig formed in a size corresponding to a standard of the insulation container so that the jig can be inserted into the container; an insulation module constructed on an outer wall of the jig and inserted into the container along with the jig to insulate the internal surface of the container; and a sealing unit sealing a space between the insulation module and the internal surface of the container.

Description

Insulation Container Structure and Construction Method {STRUCTURE FOR AN INSULATION CONTAINER AND CONSTRUCTING METHOD THEREOF}

The present invention relates to a structure for a thermal insulation container and a construction method thereof, and more particularly, to a thermal insulation container structure and a construction method thereof that can be efficiently formed in a modular form and easy to manufacture the container.

The demand for heat-insulated containers that can be cooled or insulated to expand the range of transported goods has been steadily increasing due to the increase in logistics volume and the increase in logistics costs.

However, in the case of a conventional insulated container, it was common to perform a thermal insulation directly inside the container. Accordingly, a container having a poor working environment in order to construct a sealing part, plywood, a vacuum insulating material, and a finishing material in order to construct a vacuum insulation material. I had to go through the construction process inside.

For example, Republic of Korea Patent No. 10-1491418 discloses a container house reinforced with heat insulation, characterized in that the construction of the spacer member, the insulation panel, the finishing panel, etc. in order from the inside of the container body.

Furthermore, there was a problem in that the construction method on the container wall in order to be variously constructed for each container according to the size of the inner space of the container or the shape of the inner space, accordingly, the sealing, plywood, vacuum insulation, finishing material There is a problem in that the construction is difficult and the production period is long because the back has to be designed and manufactured in various ways to fit each container.

Republic of Korea Patent No. 10-1491418 Republic of Korea Patent No. 10-1341173

Therefore, the technical problem of the present invention was conceived in this respect, and the object of the present invention is not to design and construct insulation materials in accordance with the size of the inner space of the container or the shape of the inner space, jig according to the internal standard of the container It relates to a structure for a thermal insulation container for manufacturing in advance and constructing an insulation module including plywood, insulation and finish on the outer surface of the jig.

Another object of the present invention relates to a construction method of the structure for the thermal insulation container.

Insulating container structure according to an embodiment for realizing the object of the present invention, the insulating container structure is inserted into the upper surface, the lower surface and both sides of the inner surface of the container, the insulation to be inserted into the container A jig formed in a size corresponding to a standard standard of a container, an insulation module installed on an outer wall of the jig, inserted into the container together with the jig, and insulating the inner surface of the container, and between the insulation module and the inner surface of the container. It includes a seal to seal the space of the.

In one embodiment, the heat insulation module includes a finishing material which is installed on the outer wall of the jig, a heat insulating material which is installed on the outer wall of the finishing material and insulates the inner surface of the container and a plywood that is installed on the outer wall of the heat insulating material.

In one embodiment, the seal is filled between the outer wall of the plywood and the inner surface of the container, it may be a urethane foam.

In one embodiment, the surface in contact with the inner surface of the container is formed in the convex portion is coupled to the multiple valleys of the container inner surface, the opposite side of the surface in contact with the inner surface of the container forms a plate shape and the concave portion is formed Can be.

In one embodiment, the plywood may form a protrusion to be fixed to each other with the concave portion of the seal, so that the heat insulating material and the seal is in close contact with each other.

In the construction method of the insulating container structure according to an embodiment for realizing another object of the present invention, to prepare a jig having a size corresponding to the standard specification of the insulating container. The finishing material is installed on the outer wall of the jig. Insulate and plywood on the outer wall of the finish. The jig in which the finishing material, the heat insulating material, and the plywood are sequentially installed is inserted into the container. The space between the plywood and the inner side of the container is sealed with a seal.

In one embodiment, in the step of constructing the insulation and plywood on the outer wall of the finishing material, after adhering the adhesive portion to have a lattice frame on the outer wall of the plywood, the insulation is disposed between the lattice frame formed by the adhesive portion The insulation may be adhered to and fixed to an outer wall of the plywood.

In one embodiment, the closure may be urethane foam.

In an embodiment, the method may further include removing the jig from the inside of the container.

According to the embodiments of the present invention, by inserting the insulation module formed on the outer surface of the jig into the container, by forming a sealing portion for the space between the container and the insulation module, even if the space between the insulation module and the non-uniform space effectively fill the space Adhesion and fixability between the insulation module and the container can be improved.

In particular, when the actual insulation module is manufactured, the size or shape may be slightly different. By filling and closing the seal, the insulation module formed in another size or shape can be more effectively fixed to the container.

In addition, rather than constructing the complex construction step of manufacturing the insulation module in a container having a poor working environment, it is possible to minimize the inconvenience of the operator by pre-installing on the outer wall of the jig from the outside.

In particular, since the jig is manufactured in the same way as the standard size of the insulation container, it is possible to manufacture a far-end module having a certain size and shape can be standardized when inserted and fixed in the interior of the container can improve the ease of fixing operation.

On the other hand, a protruding portion is formed on the outermost surface of the insulation module, that is, the outer surface of the plywood, to improve the ease of sliding insertion when inserted into the interior of the container, it is possible to maintain a constant distance between the container, in particular the Since the sealing part is formed to have a concave portion corresponding to the protruding portion, it is possible to improve the bonding between the protruding portion and the concave portion, thereby improving the fixing force of the thermal insulation module to the container.

In addition, the multiple valleys of the container inner surface and the seal is coupled to each other more firmly and the seal may be installed on the container inner surface. Thus, the inner surface of the container is made uniform, and the coupling and fixing force with the heat insulation module is improved, and the problem of lowering the heat insulation effect due to the uneven container inner surface can be solved.

1 is a block diagram showing a state in which a structure for a thermal insulation container according to an embodiment of the present invention is formed inside the container.
FIG. 2 is a schematic view showing a closed part of the structure for an insulated container of FIG. 1.
3 is a schematic view showing a state in which the container outer wall of FIG.
4 is a schematic view showing the plywood of the structure for the thermal insulation container of FIG.
FIG. 5 is a schematic diagram illustrating a state in which the sealing part of FIG. 2 and the plywood of FIG. 4 are coupled.
FIG. 6 is a schematic diagram showing a heat insulating material of the structure for a heat insulating container of FIG. 1. FIG.
7 is a schematic view showing a state in which the heat insulating material of FIG. 6 is attached to the plywood of FIG. 4.
8 is a schematic diagram showing a state in which the insulation module and the jig of the structure for the thermal insulation container of Figure 1 is inserted into the container.
FIG. 9 is a flowchart illustrating a construction method of a structure for an insulation container of FIG. 1.

As the inventive concept allows for various changes and numerous modifications, the embodiments will be described in detail in the text. However, this is not intended to limit the present invention to a specific disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms.

The terms are used only for the purpose of distinguishing one component from another. The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In this application, the terms "comprise" or "consist of" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the present invention.

1 is a block diagram showing a state in which a structure for a heat insulating container according to an embodiment of the present invention formed in the container, Figure 2 is a schematic diagram showing a sealing portion of the structure for a heat insulating container of Figure 1, Figure 3 1 and 2 is a schematic diagram showing a state in which the container outer wall and the sealing unit is coupled, Figure 4 is a schematic diagram showing the plywood of the structure for the thermal insulation container of Figure 1, Figure 5 is a seal and plywood of Figures 2 and 4 Figure 6 is a schematic diagram showing a combined state, Figure 6 is a schematic diagram showing the heat insulating material of the structure for the thermal insulation container of Figure 1, Figure 7 is a schematic diagram showing a state in which the heat insulating material of Figure 6 attached to the plywood of Figure 4, 8 is a schematic diagram showing a state in which the insulation module and the jig of the structure for the thermal insulation container of Figure 1 is inserted into the container.

Referring to FIG. 1, the structure for a heat insulating container 10 according to the present embodiment may be fixed to the top, bottom, and both sides of the inner surface of the container 50 in which the multiple valleys 51 are formed, and the sealing part 100. And an insulation module 200.

In general, the container 50 is formed in a rectangular parallelepiped shape, and when the load is loaded therein, multiple containers 51 are provided on the inner side to increase the strength of the outer wall while minimizing friction with the inner side. Form.

On the other hand, generally the thermal insulation container is standardized to be formed in a narrower space than the internal standard of the container 50, the outer wall is provided with a heat insulating material has an insulating effect.

On the other hand, although not shown in Figure 1, the insulation module 200 in the present embodiment is manufactured on the outer wall of the jig (30 of Figure 8) and then coupled to the interior of the container 50, the jig ( 30 will be described later, but is used for ease of fabrication of the insulation module 200, and after the insulation module 200 is coupled to the inside of the container 50, it is removed to the outside.

To this end, the jig 30 may be formed in the same size as the shape of the thermal insulation container. That is, the jig 30 is formed to correspond to the shape, size and width of the internal standard of the heat insulation container. Thus, when the heat insulation module 200 is formed on the outer wall of the jig 30, when the heat insulation module 200 is coupled to the inside of the container 50, the standard may be suitable.

The thermal insulation module 200 is constructed on the outer wall of the jig 30, and then coupled to the inside of the container 50, to insulate the inner surface of the container 50, the finishing material 230, the heat insulating material ( 220) and plywood 210.

That is, the finishing material 230 is first installed on the outer wall of the jig 30, the insulating material 220 is constructed on the outer wall of the finishing material 230, and the plywood 210 on the outer wall of the insulating material 220. This is constructed.

The finishing material 230 is formed between the outer wall of the jig 30 and the inner wall of the heat insulating material 220 so that the heat insulating material 220 directly includes the jig 30, the inside of the container 50 Prevents contact with the various cargoes to be loaded serves to minimize the damage of the insulation (220). That is, the finish 230 protects and closes the heat insulating material 220 so that the heat insulating material 220 is not exposed to the outside, and serves to prevent the heat insulating material 220 from being separated.

The finishing material 230 may be made of, for example, a thin iron plate, aluminum, stainless steel, or the like, and adhered to the surface of the heat insulating material 220.

In addition, the finishing material 230 is not burned, such as panels, waterproofing agents, marble, stone or tiles, magnesium board, cement board, CRC Board, Cellulose fiber Reinforced Cement Board, gypsum board, strength is It may be a nonflammable material, or may be composed of nonwoven fabrics or textiles.

The heat insulating material 220 formed on the outer wall of the finishing material 230 serves to insulate the inner surface of the container 50.

The heat insulator 220 is composed of a vacuum insulation panel made of fumed silica as a solid heat insulator maintaining a constant shape, or an inorganic heat insulator including asbestos, glass wool, fine powder, various fibers, cork, etc. It may be composed of organic insulating materials such as vapour, expanded polystyrene (aka, styrofoam), flame retardant expanded polystyrene.

On the other hand, the heat insulating material 220 is sold in the market in a limited size in a rectangular panel shape as shown in Figure 6, it is not formed to a size that can cover the front of the plywood 210, As shown in FIG. 7, a plurality may be attached to the front surface of the plywood 210 at regular intervals.

In this case, in order to maintain a constant gap between the heat insulators 220 and to improve the bonding force between the sides between the heat insulators, as shown in FIG. Bonding portion 221 is formed between the ().

The plywood 210 is to be constructed on the outer wall of the heat insulator 220, for example, it may be composed of wood plywood, Taego plywood with a coating film formed on the surface of the plywood, plastic plywood, a metal plate of aluminum or iron plate, etc. It is obvious that various other design changes can be made.

When the insulation module 200 including the finishing material 230, the insulation material 220, and the plywood 210 is inserted into the container 50, the inner surface of the container 50 is provided. When an empty space is formed between the outer wall of the insulation module 200, the sealing portion 100 may be filled in the empty space so that the insulation module 200 is in close contact with the container 50.

In this case, the sealing part 100 may be, for example, urethane foam.

That is, the sealing part 100 is to be installed on the inner surface of the container 50, as shown in Figure 2 is coupled to the multiple bone 51 on the surface 101 in contact with the inner surface of the container 50 The convex portion 111 is formed to be formed.

Therefore, as shown in FIG. 3, the sealing part 100 is formed to have the convex part 111 according to the shape of the multiple valleys 51 of the inner surface of the container 50, thereby coupling to each other. By doing so, it can be formed tightly.

On the other hand, the heat insulation module 200 formed inside the sealing part 100 is formed in a plate shape as a whole, as shown in Figure 2 is in contact with the inner surface of the container 50 of the sealing part 100 The opposite side surface 102 of the surface may be formed to be in close contact with the heat insulation module 200 to form a plate shape.

However, the sealing part 100 forms a recess 112 as shown in order to achieve a more firm coupling with the plywood 210 coupled to the inner surface.

The concave portion 112 of the sealing portion 100 is coupled to each other with the protrusion 211 of the plywood 210, as shown in the figure, a plurality of each other on the inner wall of the sealing portion 100 It may be formed in a line in parallel.

That is, the recesses 112 may be formed in parallel with each other at a predetermined interval along the extension direction of the inner surface of the container 50, that is, in the horizontal direction. This is naturally formed by forming the sealing part 100 between the plywood 210 and the inner surface of the container 50 as the protrusion 211 of the plywood 210 to be described later is formed. It may be formed in a shape and arrangement corresponding to the shape and arrangement of the protrusion 211.

In addition, the insulation module 200 is inserted into the inside of the container 50 before the sealing portion 100 is constructed in a module form, and the inside of the container 50 while the sealing portion 100 is constructed. Is fixed to.

On the other hand, in this case, the plywood 210 is located between the heat insulating material 220 and the sealing part 100 as shown, is coupled to the inner wall of the sealing part 100, the heat insulating material 220 Is bonded to one side and the other side is formed with the sealing portion 100 is inserted.

In addition, the plywood 210 is shown in FIG. 4 to maintain a distance from the inner surface of the container 50 or to enhance the contact force with the sealing part 100 when located inside the container 50. As described above, the protrusion 211 is formed on the outer surface.

In this case, a plurality of protrusions 211 may extend in a horizontal direction or a vertical direction parallel to each other on the outer surface of the plywood 210, accordingly, the shape of the recess 112 is the protrusions 211 It is formed to correspond to the shape of.

That is, as shown in FIG. 5, after the protrusion 211 of the plywood 210 is formed and positioned inside the container 50, the protrusion 211 and the inner side of the container 50 are formed. Between the sealing portion 100 is formed including the recess 112, whereby the plywood 210 and the sealing portion 100 is tightly fixed to each other and fixed.

Meanwhile, the protrusion 211 may be formed only on side surfaces of the four outer surfaces of the plywood 210 that face each other, as shown, and may be formed on the top or the bottom of the plywood 210 as needed. In addition, if the protrusion 211 is also formed on the upper or lower surface of the plywood 210, the recess 112 may also be formed in the same position to correspond to this.

As shown in FIG. 8, the insulation module 200 having the structure described above may be inserted into the container 50, and the sealing part 100 may be connected to the container 50 if necessary. It can be filled in between, accordingly, the insulation module 200 is fixed to the inside of the container 50.

FIG. 9 is a flowchart illustrating a construction method of a structure for an insulation container of FIG. 1.

9, the structure for a heat insulation container according to the present embodiment is constructed as follows.

First, according to the internal standard of the thermal insulation container, to prepare a jig (step S100).

In general, an insulating container having a thermal insulation function is to attach a heat insulating material to the inside of the general container, the inner space is formed smaller than the standard standard of the container in consideration of the space to which the heat insulating material is attached.

Therefore, in the present embodiment, the jig 30 is formed in the same manner as the standard for the inside of the insulated container.

Next, the finishing material 230 is constructed on the outer wall of the jig 30 (that is, the wall in the outward direction of the jig) (step S200).

Then, the heat insulating material 220 and the plywood 210 is constructed on the outer wall of the finishing material 230 (step S300).

In this way, since the finishing material 230, the heat insulating material 220 and the plywood 210 is installed on the outer wall of the jig 30, compared to performing the same work inside the container, the ease of actual work is improved and the worker Workability is also improved.

In this case, the adhesive part 221 having a lattice frame is first adhered to the outer wall of the plywood 210 (in this case, the outer wall means a wall in the direction toward the finishing material 230), and then the adhesive part 221 The insulation material 220 is disposed between the grid frames formed by the insulation material, and the insulation material 220 is adhered to and fixed to the outer wall of the plywood 210.

That is, the plywood 210 to which the heat insulator 220 is attached and fixed to the outer wall is constructed on the outer wall of the finish 230. In this case, construction of the insulation 220 to be bonded to the outer wall of the finish 230 is as described above.

Subsequently, when the finishing material 230, the heat insulating material 220, and the plywood 210 are sequentially installed on the outer wall of the jig 30 in this manner, the jig 30 is placed inside the container 50. Sliding to the side and inserted (step S400).

Then, when the jig 30 in which the insulation module 200 is constructed is inserted into the inner surface of the container 50 as described above, the plywood 210 and the container 50 of the insulation module 200 are inserted. If there is an empty space between, the empty space is filled with the sealing part 100 and sealed (step S500).

In this case, the sealing part 100 is formed in the empty space to fix the insulation module 200 to the wall surface of the container 50, and thus the wall surface of the container 50 is insulated.

Finally, if the jig 30 is removed from the finishing material 230 and removed (step S600), the structure of the insulating container structure 10 in which the jig 30 is removed inside the container 50 and The installation is complete.

In this case, the jig 30 requires equipment for fixing the jig to withstand reaction forces when filling the sealing part 100, and may use hydraulic pressure, for example, and the thermal insulation module 200 may include the container 50. It is preferred that after the fixing is completely secured to the), that is, a sufficient fixing force is formed by the sealing part 100, the removal is performed.

As described above, as the insulation module 200 is manufactured in one operation through the jig 30, the trouble of installing the insulation module in each container can be removed, and the insulation is provided through the jig. The construction period of the module can be shortened, and the construction cost can be reduced.

According to the embodiments of the present invention, according to the embodiments of the present invention, by inserting the insulation module formed on the outer surface of the jig into the container, by forming a sealing portion for the space between the container and the insulation module, Even if the space is uneven, it can effectively fill the space to improve the adhesion and fixing between the insulation module and the container.

In particular, when the actual insulation module is manufactured, the size or shape may be slightly different. By filling and closing the seal, the insulation module formed in another size or shape can be more effectively fixed to the container.

In addition, rather than constructing the complex construction step of manufacturing the insulation module in a container having a poor working environment, it is possible to minimize the inconvenience of the operator by pre-installing on the outer wall of the jig from the outside.

In particular, since the jig is manufactured in the same way as the standard size of the insulation container, it is possible to manufacture a far-end module having a certain size and shape can be standardized when inserted and fixed in the interior of the container can improve the ease of fixing operation.

On the other hand, a protruding portion is formed on the outermost surface of the insulation module, that is, the outer surface of the plywood, to improve the ease of sliding insertion when inserted into the interior of the container, it is possible to maintain a constant distance between the container, in particular the Since the sealing part is formed to have a concave portion corresponding to the protruding portion, it is possible to improve the bonding between the protruding portion and the concave portion, thereby improving the fixing force of the thermal insulation module to the container.

In addition, the multiple valleys of the container inner surface and the seal is coupled to each other more firmly and the seal may be installed on the container inner surface. Thus, the inner surface of the container is made uniform, and the coupling and fixing force with the heat insulation module is improved, and the problem of lowering the heat insulation effect due to the uneven container inner surface can be solved.

While the foregoing has been described with reference to preferred embodiments of the present invention, those skilled in the art will be able to variously modify and change the present invention without departing from the spirit and scope of the invention as set forth in the claims below. It will be appreciated.

10: structure for insulated container 30: jig
50: Container 51: Multiple Goals
100: sealed 200: insulation module
210: plywood 220: insulation
230: finish

Claims (10)

In the structure for the thermal insulation container inserted into the upper surface, the lower surface and both sides of the container inner surface,
A jig formed in a size corresponding to a standard of an insulated container so as to be inserted into the container;
A heat insulation module installed on an outer wall of the jig and inserted into the container together with the jig to insulate the inner surface of the container; And
It includes a closure for sealing the space between the insulation module and the inner surface of the container,
And the jig is removed from the inside of the container when the space is sealed by the sealing part. According to claim 1, The insulation module,
Finishing material is installed on the outer wall of the jig;
A heat insulating material installed on an outer wall of the finishing material and insulating the inner surface of the container; And
Insulating container structure, characterized in that it comprises a plywood that is constructed on the outer wall of the insulation. The method of claim 2,
The sealing unit is filled between the outer wall of the plywood and the inner surface of the container, the insulating container structure, characterized in that the urethane foam. The method of claim 3, wherein in the closure,
The surface in contact with the inner surface of the container is formed with a convex portion coupled to the multiple valleys of the container
The opposite side of the surface in contact with the inner surface of the container forms a plate shape, characterized in that the recess is formed structure. The method of claim 4, wherein the plywood,
Forming a protrusion to be fixed to each other with the concave portion of the sealing portion, the heat insulating container structure, characterized in that the sealing portion is in close contact with each other. The method of claim 2, wherein the heat insulating material,
A plurality of insulating container structure, characterized in that bonded to the plywood by the adhesive portion formed in a grid. Manufacturing a jig having a size corresponding to a standard of an insulated container;
Constructing a finishing material on the outer wall of the jig;
Constructing insulation and plywood on the outer wall of the finish;
Inserting the jig in which the finish, the heat insulating material, and the plywood are sequentially installed into the container;
Sealing the space between the plywood and the inner surface of the container with a seal; And
Construction method for a thermal insulation container structure comprising the step of removing the jig from the inside of the container. According to claim 7, In the step of constructing the insulation and plywood on the outer wall of the finishing material,
Adhering an adhesive portion to the outer wall of the plywood to have a lattice frame, and then arranging the heat insulating material between the lattice frames formed by the adhesive part, and insulating and fixing the heat insulating material to the outer wall of the plywood. Construction method for the structure. The method of claim 7, wherein
The sealing unit is a construction method of the heat insulating container structure, characterized in that the urethane foam. delete

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