KR101279000B1 - Using a vacuum insulation panel manufacturing method and a tent tent - Google Patents

Abstract

The present invention by connecting a plurality of vacuum panel insulation material in the form of walls, roofs, floors, doors to improve the thermal insulation and moisture blocking efficiency than a tent made of a synthetic resin cloth, a soundproofing tent production method using a vacuum panel insulation material And a tent, and more particularly, a silica powder is heated and melted in a melting mold at a temperature in a range of 1000 to 1500 ° C., and drops, and particles of rod-shaped particles dispersed by spraying oxygen in a high pressure drop into a mold are formed. The insulator is formed into a plate by a suction roller that rotates by suction, cuts the core material, and laminates a wide surface into a staircase in two sets, and wraps it in an airtight bag, and through the open part where the airtight bag is not wrapped. After suctioning and removing the air, the opening is sealed to manufacture a vacuum panel insulation material. The bottom part of the tent is connected by connecting means made of female and male forms, and the wall parts of both sides of the tent are connected to each other by connecting means made of female and male forms on the edges of a plurality of vacuum panel insulation materials. It constructs the roof part of the tent by connecting through the connecting means which is composed of female and male shape on the rim of the plurality of vacuum panel insulation all around, and forms the roof part of the triangular plate and the square plate type of the vacuum panel insulation on both sides of the female and male shape. It is characterized by consisting of four opening and closing doors of the tent by connecting via a connecting means consisting of.

Description

Using a vacuum insulation panel manufacturing method and a tent

The present invention relates to a tent manufacturing method and a tent using a vacuum panel insulation material, in particular, by connecting a plurality of vacuum panel insulation material in the form of walls, roofs, floors, doors, thermal insulation and moisture blocking efficiency than tents made of synthetic resin cloth The present invention relates to a tent manufacturing method and a tent using a vacuum panel heat insulating material having improved sound insulation.

In recent years, from the importance of preventing the warming which is a global environmental problem, energy saving is desired, and the promotion of energy saving is performed also for the consumer equipment.

In particular, for a refrigerator refrigerator, a heat insulating material having excellent heat insulating properties is demanded from the viewpoint of efficiently utilizing cold heat.

As a high performance heat insulating material, there are a core made of a porous body and a vacuum heat insulating material formed by covering the core material with an outer cover material and sealing the inside under reduced pressure.

As a core material of such a vacuum heat insulating material, generally a powder material, a fiber material, or the foamed material which communicated is used, The vacuum heat insulating material which is more excellent in heat insulation performance is calculated | required.

In general, the vacuum insulator has a reduced pressure inside the outer cover material, and therefore, the influence of heat conduction and convection of the gas component to the heat transfer mechanism is small.

In addition, in use in the temperature range below room temperature, there is little contribution of radiation. Therefore, in the vacuum heat insulating material applied to the refrigeration refrigerator below normal temperature, it becomes important to suppress the heat conduction of a solid component.

Therefore, various fiber materials are reported as a core material for vacuum insulation materials which is excellent in heat insulation performance.

Such, there is an urgent need for technology and components that can use the vacuum insulator as a leisure article.

Accordingly, the present invention is made in view of the problems of the prior art as described above by manufacturing a tent by connecting a plurality of vacuum panel insulation as a connecting means to facilitate the installation of the tent and to maintain its form even in external forces to maintain structural stability The purpose is to provide a tent manufacturing method and tent using a vacuum panel insulation material.

In addition, another object of the present invention is to produce a tent with a vacuum panel insulation material is excellent thermal insulation efficiency, to effectively block the heat and cold air flowing from the outside.

In addition, another object of the present invention is to surround the surface of the vacuum panel insulation with an aluminum sealed bag to prevent moisture from entering the snow or rain.

In addition, another object of the present invention is to dismantle the connecting means when dismantling a plurality of tents to store the vacuum panel insulation in a stacked state to increase the convenience of storage and to be accommodated in a small storage space.

In order to achieve the above object, the present invention is a silica powder mixed with silicon dioxide (SiO2) 70%, aluminum oxide (Al2O3) 13%, calcium oxide (CaO) 17% powder per unit weight in the melting mold 1000 ~ 1500 ℃ The heat insulating material is formed into a plate by a pressure roller rotating by melting and dropping by heating and melting to a temperature of a range, and sucking and collecting rod-shaped fine particles that are sprayed and blown into a molten liquid falling at high pressure into a mold. By cutting and laminating the wide surface into two sets in a step shape, all the surfaces except the one side of the top, bottom, left and right sides are covered with a sealed bag formed of aluminum foil, and the air is sucked out through the open part not covered with the sealed bag. Next, the vacuum panel insulation is manufactured by sealing the open portion, and the connection is made by connecting means consisting of male and female shapes on the four edges of the vacuum panel insulation. It consists of the bottom part of the tent, and is formed in the form of female and male on the edges of the plurality of vacuum panel insulation materials, and is connected through a connecting means coupled to constitute a pair of wall parts on both sides of the tent, and the female, Tent by connecting through the connecting means made of a number form the roof portion of the tent, and connected through the connecting means 70 is formed in the shape of the triangle and square plate vacuum panel insulation all four sides on the edge of the vacuum panel insulation The opening and closing doors of the four parts, connecting the bottom portion, both side wall portion, the roof portion with a connecting means to close the space created in the front and rear direction by connecting the opening and closing doors by the connecting means to open and close the tent in the form of a swing door It provides a tent manufacturing method and tent using a vacuum panel insulation, characterized in that the configuration.

As described above, the present invention is easy to install the tent by connecting a plurality of vacuum panel insulation by a connecting means, it is easy to install the tent and has the effect of maintaining the structural stability to maintain the form.

And, by manufacturing a tent with a vacuum panel insulation material is excellent thermal insulation efficiency, there is an effect to effectively block the heat and cold air introduced from the outside.

In addition, since the surface of the vacuum panel insulation is wrapped in an aluminum sealed bag, there is an effect of preventing moisture from entering during snow or rain.

In addition, by dismantling the connecting means when dismantling a plurality of tents can be stored in a laminated state of the vacuum panel insulation material has the effect of increasing the convenience of storage and storage in a small storage space.

1 is a cross-sectional view showing the configuration of a device for manufacturing a vacuum panel insulation for building according to the present invention;
2 is a perspective view of a molding die according to the present invention;
3 is a perspective view showing a state in which the heat insulating material according to the present invention is overlapped;
4 is a perspective view of a state in which the heat insulating material of FIG. 3 is inserted into a sealing bag;
5 is a perspective view showing a state in which the vacuum compression while discharging air in the sealing bag of FIG.
6 is a perspective view of the completed vacuum panel insulation according to the present invention,
7 is a cross-sectional view taken along line AA of FIG. 6;
8 is a perspective view showing a state in which the vacuum panel insulation is continuously connected,
9 is a development view for manufacturing a tent using a vacuum panel insulation;
10 is a front view of the tent,
11 is a perspective view of a tent,
12 is a cross-sectional view of portion A of FIG. 11;
FIG. 13 is a cross-sectional view taken along portion B of FIG. 11;
FIG. 14 is a cross-sectional view of portion C of FIG. 11;
15 is a perspective view of a state in which a connecting means made of velcro tape is coupled to a vacuum panel insulation material;
Figure 16 is a perspective view of a state in which the connecting means made of a zipper coupled to the vacuum panel insulation.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 to 8, the tent manufacturing method and tent using the vacuum panel insulation of the present invention as shown in Figure 1 to 8 per unit weight of silicon dioxide (SiO2) 70%, aluminum oxide (Al2O3) 13%, calcium oxide (CaO) 17% The powder is mixed to prepare a silica powder 12.

Thus, the silica powder 12 is melted by heating to a temperature in the range of 1000 ~ 1500 ℃ using the heater 13 in the melting mold 10.

In addition, the silica powder 12 has microporosity, low density to minimize thermal conductivity, billions of nano-pockets to prevent heat transfer, heat energy reflection to reflect heat like a mirror, and a lightweight solid structure. As the powder, it is made to improve the thermal insulation by increasing the degree of vacuum of the vacuum insulation material and to give a deformation of the shape of the uneven part, the bent part or the stepped part in the appearance during panel molding.

In addition, since the silica powder 12 is harmless to humans and is nonflammable, it is very advantageous to be used as a building insulation material or a refrigerator insulation material, and has excellent moldability and low cost compared to glass fiber, urethane foam, and styrofoam used as a conventional insulation core material. It is very advantageous to be used as insulation core material

At this time, the melting mold 10 is formed in the form of a funnel as a whole, the melt is dropped to a small capacity to form a stream of water through the funnel (11).

Here, when the molten liquid falls through the funnel (11), oxygen is injected into the molten liquid falling at high pressure.

As a result, the molten liquid is formed in the form of a plate in the form of a plate by a pressure roller 30 which sucks and collects rod-shaped fine particles scattered by oxygen injected at a high pressure into the mold 20.

At this time, the fine particles are in the form of a cylindrical rod, the diameter is 3μ or less, the length is produced to 200u or less.

Here, the mold 20 has a large area of the inlet 21 through which the fine particles flow, and the narrower the area is formed as the square portion is formed in the shape of a rectangular cylinder 22 as it proceeds backward.

In addition, a plurality of blower holes 21a penetrate the inlet portion 21 along the width direction so as to induce the inflow of fine particles when the suction force of the blower is applied.

In addition, the pressure roller 30 is configured to pressurize the particulates collected through the open space 23 formed in the upper and lower left and right sides of the molding die 20 while rotating the upper and lower left and right sides.

In this case, the open space 23 is generated at a position capable of partitioning the inlet portion 21 and the molding portion 22, and the inlet portion 21 and the molding portion 22 are as much as the open space 23. It is installed spaced apart.

On the other hand, the completed core material 40 is moved to the conveyor belt (22a) located in the lower portion while being exposed through the molding unit 22 of the molding die 20, to the rear of the conveyor belt 22 The cutter 22b which cuts the core material 40 to a fixed size is provided.

That is, by cutting the core material 40 with the cutter 22b and stacking a wide surface in a pair of two to form a staircase, all the surfaces except for one side of the upper, lower, left, and right surfaces formed of aluminum foil 50 Wrapped with

In order to manufacture the sealed bag 50, the aluminum sheet has a thickness of 0.05 to 0.5 mm and overlaps two sheets of aluminum sheets coated with a thermoplastic adhesive resin along the four sides, and then surrounds the three sides of the aluminum sheet. It is manufactured to have an opening on one side by heat bonding production.

In addition, the sealed bag 50 is sequentially so that Ny15μ for antistatic, PE15μ for preventing oxygen penetration, Al15μ for preventing outside air penetration, PE15μ for preventing oxygen penetration, and LPP30μ for adhesion from the outer side. It is laminated | stacked and formed.

In this way, the core material 40 wrapped in the sealed bag 50 is inserted into a separate vacuum decompression device (not shown in the drawing) and the air in the sealed bag 50 into which the heat insulating material 41 is inserted through the opening. Discharge it.

In other words, the vacuum encapsulation material 60 is manufactured by a method of suction-removing air through an open portion in which the sealed bag 50 is not wrapped and then sealing the open portion.

At this time, the vacuum insulation coefficient of the sealed bag 50 is less than 0.003 W / mok or less, the core material 40 at the time of pressure reduction is reduced to half the initial volume when the vacuum pressure is completed, the opening portion of 150 ~ 160 ℃ It is completed by sealing by heat bonding in the range.

Since the vacuum panel insulation material 60 is an outer shell material and the silica powder 12 is sealed by reducing the pressure inside the core material, the vacuum panel insulation material 60 has excellent thermal insulation property because the thermal conductivity coefficient of the gas is almost zero. Therefore, when the vacuum panel insulation 60 is used for building insulation and refrigerator insulation, etc., the insulation performance can be improved and the thickness of the insulation can be greatly reduced, so that the internal space can be expanded.

Thus, the manufactured vacuum panel insulation material 60 is to produce a bottom portion 80, both side wall portion 90, the roof portion 100, the opening and closing door portion 110 to produce the tent 120.

As shown in Figure 9 to 14, the bottom portion 80 of the tent 120 is connected via a connecting means 70 is formed in the shape of the male, male to the four edges of the plurality of vacuum panel insulation (60). To configure.

In addition, both sides of the wall portion 90 of the tent 120 is configured in a pair by connecting via a connecting means 70 is formed in the female, male shape on the rim of the plurality of vacuum panel insulation (60).

And, the roof portion 100 of the tent 120 is configured by connecting through the connecting means 70 is made of a female, male form on the rim of the plurality of vacuum panel insulation (60).

In addition, the opening and closing door part 110 of the tent 120 is connected to the four sides by connecting the connection means 70 made of female and male forms on the four sides of the vacuum panel insulation 60 of the triangular plate shape and square plate shape. Configure.

That is, when the bottom portion 80, both side wall portion 90, the roof portion 100 is connected to the connecting means 70, the opening and closing door portion 110 is connected to close the space generated in the front and rear directions By connecting to 70 to configure the tent 120 to open and close in the form of a swinging door.

As shown in Figure 15, the connecting means 70 may be composed of male and female velcro tape.

As shown in Figure 16, the connecting means 70 may be configured as a male, male zipper (zipper).

In addition, the bottom portion 80, both side wall portion 90, the roof portion 100, the opening and closing door portion 110 is configured to be stitched to each other when the edge of the edge of the step shape when connected by the connecting means (70).

In detail, one end of both wall parts 90 is connected to both sides of the bottom part 80 using the connecting means 70.

Subsequently, one end of the roof part 100 is connected to the other end of the both side wall parts 90 using the connecting means 70, respectively, and then the opposite ends of the roof part 100 face each other. (70).

Thus, when the bottom portion 80, both side wall portion 90, the roof portion 100 is connected by using the connecting means 70, the shape of the trapezoidal bone is created, the front and rear to maintain the open state Done.

In this case, in order to close the open space, the door 110 is installed to be located inside the bottom part 80, both side wall parts 90, and the roof part 100, and the door door part 110 is opened and closed. In order to open and close the door form, the tent door 120 is completed by connecting only the opening and closing door part 110 and both side wall parts 90 using the connecting means 70.

On the other hand, the door opening 110 may be used as a locking means by connecting by using the connecting means 70 coupled to the border facing each other, opening and closing in order to close without the need for the opening operation of the opening and closing door 110 The connection unit 70 coupled to the edge of the opening and closing door 110 to the connection means 70 coupled to the door unit 110 and the bottom portion 80, both side wall portion 90, the roof portion 100 It can also be used.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

10: melting mold 11: funnel
12 silica powder 20 mold
21 inlet 21a: blower hole
22: forming part 22a: conveyor belt
22b: cutter 23: open space
30: pressure roller 40: core material
50: sealing bag 60: vacuum panel insulation
70: connecting means 80: bottom
90: wall portion 100: roof portion
110: opening and closing door 120: tent

Claims (8)

A silica powder (12) containing 70% of silicon dioxide (SiO2), 13% of aluminum oxide (Al2O3), and 17% of calcium oxide (CaO) per unit weight was mixed at a temperature ranging from 1000 to 1500 ° C in the melting mold 10. By melting by heating
The core material 40 is formed in a plate shape by a pressure roller 30 which suction-collects and rotates the rod-shaped fine particles which are sprayed on the molten liquid falling at high pressure into the forming mold 20 and rotated,
The core material 40 is cut and stacked in a pair of two wide surfaces to form a staircase, and then all surfaces except one side of the top, bottom, left and right surfaces are covered with an airtight bag 50 formed of aluminum foil,
The vacuum encapsulation material 60 having a rectangular plate shape is manufactured by suctioning and removing air through the open portion in which the airtight bag 50 is not wrapped, and then sealing the open portion.
A plurality of vacuum panel insulation (60) is formed on the four sides of the rim, male and female form through the connecting means 70 is coupled to form the bottom portion 80 of the tent,
A plurality of vacuum panel insulation (60) is formed in a pair of both sides of the tent wall by connecting through the connecting means 70 is formed in the female, male form on the rim of the four sides,
A plurality of vacuum panel insulation (60) is formed on the four sides of the rim through the connecting means 70 is formed in the female, male form to form a roof portion 100 of the tent,
Triangular plate shape and rectangular plate shape of the vacuum panel heat insulating material (60) on the four edges of the female, male form by connecting through the connecting means 70 is coupled to form the opening and closing door portion 110 of the tent in four,
Connecting the bottom portion 80, both side wall portion 90, the roof portion 100 by the connecting means 70 connecting the opening and closing door portion 110 to close the space generated in the front, rear direction 70 The tent manufacturing method using a vacuum panel insulation, characterized in that for configuring the tent 120 to open and close in the form of a swing door by connecting to). The method of manufacturing a tent using a vacuum panel insulation material according to claim 1, wherein the connection means (70) comprises female and male velcro tapes. According to claim 1, wherein the connecting means 70 is a tent manufacturing method using a vacuum panel insulation, characterized in that consisting of a male, male zipper (zipper). According to claim 1, The bottom portion 80, both side wall portion 90, the roof portion 100, the opening and closing door portion 110 is configured so that the edge of the stair-shaped border when connected by the connecting means 70 Tent manufacturing method using a vacuum panel insulation, characterized in that. A silica powder (12) mixed with 70% of silicon dioxide (SiO2), 13% of aluminum oxide (Al2O3), and 17% of calcium oxide (CaO) per unit weight was prepared at a temperature ranging from 1000 to 1500 ° C in the melting mold 10. By melting by heating
The core material 40 is formed in a plate shape by a pressure roller 30 which suction-collects and rotates the rod-shaped fine particles which are sprayed on the molten liquid falling at high pressure into the forming mold 20 and rotated,
The core material 40 is cut and stacked in a pair of two wide surfaces to form a staircase, and then all surfaces except one side of the top, bottom, left and right surfaces are covered with an airtight bag 50 formed of aluminum foil,
The vacuum encapsulation material 60 having a rectangular plate shape is manufactured by suctioning and removing air through the open portion in which the airtight bag 50 is not wrapped, and then sealing the open portion.
A plurality of vacuum panel insulation (60) is formed on the four sides of the rim, male and female form through the connecting means 70 is coupled to form the bottom portion 80 of the tent,
A plurality of vacuum panel insulation (60) is formed in a pair of both sides of the tent wall by connecting through the connecting means 70 is formed in the female, male form on the rim of the four sides,
A plurality of vacuum panel insulation (60) is formed on the four sides of the rim through the connecting means 70 is formed in the female, male form to form a roof portion 100 of the tent,
Triangular plate shape and rectangular plate shape of the vacuum panel heat insulating material (60) on the four edges of the female, male form by connecting through the connecting means 70 is coupled to form the opening and closing door portion 110 of the tent in four,
Connecting the bottom portion 80, both side wall portion 90, the roof portion 100 by the connecting means 70 connecting the opening and closing door portion 110 to close the space generated in the front, rear direction 70 Tent using a vacuum panel insulation, characterized in that for configuring the tent 120 to open and close in the form of a swinging door. The tent using a vacuum panel insulation material, characterized in that the connecting means 70 is composed of male and female velcro tape. The tent using a vacuum panel insulation material, characterized in that consisting of a female, male zipper (zipper). According to claim 5, The bottom portion 80, both side wall portion 90, the roof portion 100, the opening and closing door portion 110 is configured so that the edge of the stair-shaped border when connected to the connecting means 70 A tent using a vacuum panel insulation, characterized in that.

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