KR101706302B1 - The possible thermal breaking passive type insulation composite panel and its installation method - Google Patents

Abstract

The present invention relates to a passive heat-insulating composite panel capable of interrupting thermal bridges, and a method of installing the panel, which comprises two panel inserts which are formed in the same shape and are spaced apart from each other by a predetermined distance, A pair of panels connected to one side of the panel fitting and having a panel fitting groove, a connecting portion connecting the pair of panels, and a pair of the panel and the connecting portion are formed in a ' A waterproofing member fixing step, a filling step of an inner insulating material, a panel manufacturing step, a manufacturing finishing step, a fixing member forming step, and a fixing member forming step using the truss frame, the watertight member, the horizontal member, Step, and panel fixing step.
In the present invention, a plurality of panels are formed by connecting a watertight member to each side of a truss frame through a bolt while filling a heat insulating material, and a fixing member is fixed to a wall surface by using a fixing member, It is not necessary to fix the panel by a method such as welding.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a passive insulation panel and a method of installing the passive insulation panel,

The present invention relates to a passive heat-insulating composite panel capable of interrupting thermal bridges, and a method of installing the same. More specifically, the present invention provides a watertight member for each side of a truss frame to improve airtightness and watertightness of the panel, It is possible to increase the energy efficiency while increasing the insulation effect, and it is possible to install the panel easily without performing the method such as welding in the field, thereby improving the working efficiency and passive type that can prevent the accident due to welding etc. To an insulating composite panel and a method of installing the same.

Generally, a panel fixed to a wall is made of an outer plate made of a material having a certain degree of refractory property to heat both sides of the above-mentioned heat-insulating material as a simple structure heat-insulating material is filled in the inside like a sandwich panel like Korean Patent Registration No. 10-1462800 The panel was fixed to the wall surface to prevent condensation.

However, as described above, both the heat insulator inside the panel used to prevent condensation or thermal bridge phenomenon and the external plate arranged on both sides of the heat insulator are all formed of a simple wide flat plate. The watertightness and airtightness due to the panels are not high, so that the heat insulating effect is not high.

The present invention relates to a passive heat-insulating composite panel capable of interrupting thermal bridges, and a method of installing the panel, which comprises two panel inserts which are formed in the same shape and are spaced apart from each other by a predetermined distance, A pair of panels connected to one side of the panel fitting and having a panel fitting groove, a connecting portion connecting the pair of panels, and a pair of the panel and the connecting portion are formed in a ' A watertight member coupled to the upper, lower, left, and right outer side surfaces of the truss frame; a horizontal member having a plurality of outer side surfaces of the panel shim formed on the panel of the truss frame; A fixing member capable of fixing the panel having the frame, the watertight member, and the horizontal member to the wall surface is separated from the pair of panels by a predetermined distance, The panels are arranged in the form of a bulletin board, the panel is fixed to one side of the panel fittings formed on the pair of panels, and the panels separated into two panels are fixed to form one panel. A frame manufacturing step of fixing the four panels in a "? 'Shape to form a truss frame; a watertight gasket coupled to a fitting groove formed in the inside of the plate; A watertight member fixing step of fixing the watertight member to the upper, lower, left, and right sides of the truss frame by inserting the heat insulating material into the second space, Filling the inner space with the inner heat insulating material in the form of liquid or solid; inserting the inner insulating material into the inner space of the truss frame A panel manufacturing step of placing a blocking member between the panel fitting and the horizontal member before arranging the horizontal member, a manufacturing step of joining the fireproof insulating material between the horizontal members formed on the panel and fixing the external heat insulating board to the outside of the horizontal member And a bolt is inserted into the first and second fixing holes while corresponding to a second fixing hole formed in the adjusting plate in a first fixing hole formed in the base plate so as to fix the panel to the wall surface of the building structure, The bolt is inserted into the second fixing hole and the first bolt hole to fix the adjusting plate and the first bracket while fixing the first bracket to the protruding jaw formed on the adjusting plate, The bolts are inserted into the second bolt holes of the third fixing hole and the second bracket formed in the engaging portion while the second bracket is engaged to fasten the first bracket and the second bracket And fixing the base plate to the wall body by inserting bolts into the first fixing holes formed in the base plate and fixing the base plate to the first and second brackets, And a panel fixing step of fixing the panel to the fixing member by inserting bolts into the first bolt hole and the second bolt hole formed in the first bracket and the second bracket while closely adhering the different panels to each other, A plurality of panels are formed by joining the watertight members to the respective side surfaces through bolts, and the fixing member is fixed to the wall surface by fixing the fixing member to the panel by means of bolts, so that the panel is not fixed by welding or the like, The purpose of the present invention is to prevent an accident caused by the back.

The watertightness and water tightness of the watertight member can be further improved through the double gasket and the expansion band formed in the watertight member to increase the heat insulation effect of the watertight member by the watertightness member positioned between the truss frames, So that the truss frame and the watertight member can be easily connected to each other through the bolt. Thus, the energy efficiency can be improved by improving the working efficiency and the heat insulating effect.

In addition, the procedure of manufacturing the panel and the fixing member and the procedure of fixing the panel and the fixing member to the wall surface are simple, thereby improving the working efficiency. Also, the manufacturing cost can be reduced to provide excellent economical efficiency. And it is an object of the present invention to reduce waste of energy by not using welding in panel assembly while reducing environmental pollution by reducing the use of steel making the panel.

In the present invention, a plurality of panels are formed by connecting a watertight member to each side of a truss frame through a bolt while filling a heat insulating material, and a fixing member is fixed to a wall surface by using a fixing member, It is not necessary to fix the panel by a method such as welding.

The watertightness and water tightness of the watertight member can be further improved through the double gasket and the expansion band formed in the watertight member to increase the heat insulation effect of the watertight member by the watertightness member positioned between the truss frames, It is possible to easily connect the truss frame and the watertight member through the bolt, and the energy efficiency can be improved by improving the working efficiency and the heat insulating effect.

In addition, the procedure of manufacturing the panel and the fixing member and the procedure of fixing the panel and the fixing member to the wall surface are simple, thereby improving the working efficiency. Also, the manufacturing cost can be reduced to provide excellent economical efficiency. It is possible to use a panel and a fixing member, and it is possible to reduce the environmental pollution by reducing the use of the iron material forming the panel, and it is advantageous in that waste of energy can be reduced because welding is not used during panel assembly.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an exploded perspective view showing a truss frame of a passive heat-insulating composite panel capable of interrupting heat bridges according to the present invention. FIG.
2 is a perspective view showing a watertight member of a passive heat-insulating composite panel capable of interrupting thermal bridges according to the present invention.
3 is an exploded perspective view showing a panel of a passive heat-insulating composite panel capable of interrupting thermal bridges according to the present invention,
FIG. 4 is a state photograph showing a state in which a blocking member is installed on a panel of a passive heat-insulating composite panel capable of interrupting heat bridges according to the present invention. FIG.
5 and 6 are a perspective view and an exploded perspective view showing a fixing member of a passive heat-insulating composite panel capable of interrupting thermal bridges according to the present invention.
7 is a schematic view showing a state in which a passive heat-insulating composite panel capable of interrupting heat bridging is installed on a wall surface of the present invention.
FIG. 8 is a flow chart showing a method of installing a passive heat-insulating composite panel capable of interrupting heat bridges according to the present invention. FIG.

In order to achieve the above object, the present invention is as follows.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 7, the passive heat-insulating composite panel 100 capable of interrupting the thermal bridge of the present invention comprises a truss frame 10, a watertight member 20, a horizontal member 30, and a fixing member 50 .

As shown in FIG. 1, the truss frame 10 includes two panel inserts 11, which are formed in the same shape and are spaced apart from each other and facing each other, A panel 13 composed of a panel supporting portion 12 connected to one side of the fitting 11 and including a panel fitting groove 12a having a predetermined space is formed in a pair.

In other words, the panel insert 11 is formed in a 'C' shape, and the panel supporting portion 12 connected to one side of the panel insert 11 is formed by a panel fitting groove 12a, The panel 13 is formed in a shape similar to the shape of a sick so that the panel 13 is formed in a shape similar to the shape of the letter i and the two panels 13 are formed to face each other to form an upper panel 13a and a lower panel 13b Is formed.

The panel fittings 11 formed on the panel 13 are formed so as to face inward, and the panel supporting portions 12 are formed to face outward.

When the panel 13 is arranged up and down and arranged in a pair of the panels 13a and 13b as described above, the panel fittings 11 and the panel supporting portions 12 are formed facing each other in pairs.

After the pair of panels 13 are arranged so as to be spaced apart from each other as described above, the upper panel 13a formed on the panel 13 and the upper panel insert 13a formed on the lower panel 13b, The upper panel 13a and the lower panel 13b, which are spaced apart from each other, are connected to each other by fixing a connecting portion 14 having various shapes such as a wire and the like to the lower panel fitting 11b and the lower panel fitting 11b, And a panel 13 in which two panels 13a and 13b are fixed to one another.

The four panels 13 and the four connecting portions 14 are arranged in a '?' Shape so as to form the truss frame 10 with one panel 13 and one connecting portion 14 forming a single surface. .

Here, the material, size, and shape of the panel 13 and the connection unit 14 can be variously set according to the purpose of the user.

In order to enhance the heat insulation effect inside the truss frame 10, it is a matter of course to further form an internal heat insulating material (not shown) which is generally used in the form of a liquid or a solid.

2 to 4, when the trusses 10 are arranged in a plurality of rows on the wall surface, the watertightness of the watertightness of the watertightness of the watertightness of the truss frame 10 So that moisture and the like can not be introduced into the inside of the wall.

Here, the watertight member 20 is formed with a fitting portion 21a which can be fitted to the panel supporting portion 12 formed on the panel 13 of the truss frame 10, A fitting groove 21b is formed adjacent to the fitting portion 21a and into which a watertight gasket 22 to be described later is fitted.

A first space portion 21d including a protruding portion 21c which is adjacent to the fitting groove 21b and is partially bent outward is formed in the first space portion 21d, A plate 21 composed of a second space 21e is formed.

In other words, the second space 21e is formed at the central portion of the plate 21, the protrusions 21c are formed on both sides thereof, and the first space portions 21c are formed in the outer direction of the protrusions 21c And the fitting groove 21b is formed in the outer direction of the first space portion 21d.

This means that both sides are formed symmetrically with respect to the second space 21e.

The watertight gasket 22, the expansion band 23, and the thermal insulation material k are coupled to the plate 21.

A watertight gasket 22 is coupled to the fitting groove 21b formed at the outermost side of the plate 21 to prevent moisture or the like from entering the inside of the watertight member 20 from the outside, An expansion band 23 is coupled to the first space portion 21d located in the inner side of the fitting groove 21b so that the expansion band 23 is not shaken or separated in the first space portion 21d It is preferable that a guide 23a capable of maintaining a constant position is additionally formed so that the guide 23a can be engaged with the projection 21c.

In addition, the guide 23a may be made of various materials according to the purpose of the user, and may be made of a material capable of enhancing the heat insulation effect while improving the airtightness and watertightness of the watertightness member 20. [

The second space 21e formed at the center of the plate 21 is formed so as to be coupled with the thermal insulation material k for heat insulation of the structure or the like.

The watertight gasket 22 and the expanding band 23 are connected to one plate 21 by one heat insulating material k, two expanding bands 23 and two watertight gaskets 22 The watertightness and the airtightness of the watertight member 20 can be improved by preventing the moisture or the like from being introduced into the watertight member 20 in a double manner.

In addition, the inner heat insulating material and the heat insulating material (k) to be bonded to the truss frame 10 and the watertight member 20 are similar to those currently used.

In addition, the internal heat insulating material and the heat insulating material (k) may be used by filling the liquid form according to the purpose of the user and curing or using a solid form.

The structure of the watertight member 20 may be coupled with an adhesive or the like through bolts or the like depending on the purpose of the user.

When the watertightness member 20 is coupled to the outside of the truss frame 10, the plate 21 formed on the watertightness member 20 is positioned inward to face the truss frame 10, The watertight gasket 22, the expansion band 23 and the thermal insulation material k are exposed in the outward direction. When the trusses 10 are arranged in a plurality of the trusses 10, The expansion band 23 and the thermal insulation material k may be bonded together through an adhesive agent or a bolt or the like so that the size of the watertight gasket 22, the expansion band 23, The watertight gasket 22, the expansion band 23, and the heat insulating material k may be joined to the respective plates 21 on one side and the other side.

In addition, when the watertight gasket 22, the expansion band 23, and the thermal insulation material k formed on the watertightness member 20 are exposed to the outside, the watertight gasket 22, the expansion band 23 (Not shown) may be further coupled to the outside of the heat insulating material k to prevent breakage of the watertight gasket 22, the expansion band 23, the heat insulating material k, and the like.

3 to 4, the horizontal member 30 is configured such that a plurality of horizontal members 30 are arranged on the outer surface of the panel fittings 11 formed on the truss frame 10.

Here, the horizontal member 30 may be formed in various forms according to the purpose of the user, and various types of heat insulating materials, boards and the like coupled to the truss frame 10 and the like to be described later can be supported while being smoothly supported As well as the skeleton of the truss frame 10, can be performed at the same time.

4, when the horizontal member 30 is joined to the panel fitting 11 of the truss frame 10, moisture or the like is prevented from being introduced into the truss frame 10 A vinyl or film-like blocking member (v) may be additionally formed between the panel fitting (11) and the horizontal member (30).

The blocking member (v) may be made of various materials according to the purpose of the user.

A plurality of the horizontal members 30 are formed on the panel fittings 11 of the truss frame 10. As shown in FIG. 3, the fire-proofing material k2, which is currently generally used, And an external heat insulating board k3 may be further formed on the horizontal member 30 or the outside of the truss frame 10 to exhibit a heat insulating effect.

Here, the external heat insulating board k3 may be formed of various materials, and it is most preferable to use a cement board which can increase the incombustibility.

When the horizontal member 30 is formed on the surface of the truss frame 10 while the watertight member 20 is formed on each side surface of the throttle frame 10, do.

Meanwhile, the fixing member 50 is formed to fix the panel 40 to the wall surface as shown in FIG. 5 to FIG.

In detail,

A flat plate-like base plate 51 is formed in which at least one first fixing hole 51a into which a bolt is inserted to fix the fixing member 50 to the wall surface is formed.

The first fixing holes 51a may be formed in various shapes according to the purpose of the user. The first fixing holes 51a may be formed in slots or slots so as to adjust the position of the base plate 51 on the wall surface.

And a flat plate-like adjusting plate 52 having at least one second fixing hole 52a and a protruding protrusion 52b to be tightly coupled to the base plate 51. [

Here, the bolt is inserted into the second fixing hole 52a formed in the adjusting plate 52 so that the base plate 51 and the adjusting plate 52 can be coupled to each other. Like shape such that the position of the adjustment plate 52 coupled to the base plate 51 can be easily adjusted as in the case of the first fixing hole 51a of the base plate 51. [

In addition, the number of protrusions 52b can be set to various values according to the purpose of the user.

One side is in close contact with the projecting step 52b formed on the adjustment plate 52 and the other side is coupled with the panel 40 and the first bracket 53 of various shapes is formed according to the purpose of the user.

The first bracket 53 includes a coupling portion 53a including a third fixing hole 53a1 so that the first bracket 53 can be fixed to the adjusting plate 52 with a bolt inserted therein, One bolt hole 53b is formed.

In other words, the bolt is inserted into the first bolt hole 53b while one side of the first bracket 53 is in close contact with the projecting step 52b of the adjusting plate 52 so that the adjusting plate 52 and the first bracket 53 Respectively.

In addition, the first bolt hole 53b may be formed in a garden shape, a slot or a long hole shape according to the user's purpose, or may be formed by mixing the two shapes described above.

The third fixing hole 53a1 formed in the engaging portion 53a may be formed in various shapes such as the first bolt hole 53b described above. 2, it is preferable that the bracket 54 is formed in a slot or slot shape so that the position of the bracket 54 can be easily adjusted.

In addition, it is obvious that the first bolt hole 53b is formed so that the panel 40 can be fixed to the other side of the first bracket 53.

In addition, the first bracket 53 may be formed in various shapes. In the present invention, a flat plate-shaped coupling portion 53a is formed on the upper portion of the '7' shape.

The second bracket 54 is coupled to the first bracket 53 and the second bracket 54 so that the second bracket 54 can be fixed to the other bracket.

The second bracket 54 is provided with a second bolt hole 54a into which a bolt is inserted as a first bolt hole 53b formed in the first bracket 53 so that the panel 40 can be smoothly coupled to the second bracket 54 Respectively.

The second bracket 54 is symmetrically formed with respect to a vertical line so that the second bracket 54 can smoothly engage with the engaging portion 53a of the first bracket 53. [

In addition, it is obvious that the first bracket 53 and the second bracket 54 may be formed in various shapes depending on the purpose of the user.

The first bracket 53 and the second bracket 54 can fix the two panels 40 to the wall surface via one fixing member 50. [

In addition, when fixing the panel 40 to the wall surface through the fixing member 50, a separate outer panel (not shown) may be additionally formed for decorating the exterior of the panel 40, You may.

An installation method according to a preferred embodiment of the present invention having the above-described structure will be described below.

First, as shown in FIG. 7, the pair of panels 13 are formed by connecting the pair of the upper panels 13a and the lower panels 13b with a predetermined spacing.

In detail,

The upper panel 13a and the lower panel 13b are arranged so as to be spaced apart from each other and then arranged on the upper panel 13a formed on the panel 13 and the panel fittings 11 formed on the lower panel 13b The connecting portion 14 is fixed by welding or the like so as to form the panel 13 integrally formed with the upper panel 13a and the lower panel 13b which are separated upward and downward.

Thereafter, the panel 13 having the connection part 14 is arranged in a four-line shape, and the truss frame 10 (shown in FIG. 1) is arranged in a '?' Shape through welding or bolts ).

When the truss frame 10 is manufactured as described above, the 'C' -shaped panel insert 11 is positioned in the inside direction, and the panel support portion 12 connected to the panel insert 11 is moved in the outward direction (S10)

On the other hand, after the truss frame 10 is constructed as described above, the watertightness member 20 fixed to each side surface of the truss frame 10 is formed.

In detail,

A watertight gasket 22 capable of improving watertightness and airtightness is respectively coupled to the fitting groove 21b formed on both sides of the outermost side of the plate 21, The guide 23a is engaged with the projecting portion 21c while coupling the expansion band 23 to the space portion 21d.

The guide 23a is positioned between the expansion band 23 and the thermal insulation material k so that the expansion band 23 and the thermal insulation material k) will not be shaken or mixed and will be located at exactly the same point.

Then, the heat insulating material (k), which is currently generally used, is joined to the second space portion 21e at the center of the plate 21.

One heat insulating material k is formed at the center of the plate 21 and two expansion bands 23 are located on both sides of the heat insulating material k. The watertight gasket 22 is located.

When the watertightness member 20 is manufactured in the above-described manner, moisture and the like outside the room are doubly heated by the watertight gasket 22 and the expansion band 23 formed on both sides of the heat insulating material k to the heat insulating material k The watertightness and the watertightness of the watertight member 20 can be enhanced.

When the watertight member 20 is manufactured, an adhesive member (not shown) or a bolt may be used according to the purpose of the user. (S20)

Here, the order of manufacturing the truss frame 10 and the watertightness member 20 can be changed as desired according to the purpose of the user.

After the truss frame 10 and the watertightness member 20 are manufactured as described above, the watertightness member 20 is welded or bolted to the upper, lower, left, and right sides of the truss frame 10 So that the watertightness member 20 is engaged with each side surface of the truss frame 10.

In other words, the fitting portion 21a of the watertight member 20 is engaged with the panel support groove 12a of the panel supporting portion 12 formed on the truss frame 10, The watertightness member 20 is fixed to the truss frame 10 by welding or by using an adhesive or a bolt.

In the space formed inside the truss frame 10, it is filled with the generally used internal insulation material in the form of liquid or solid depending on the purpose of the user.

It is a matter of course that the inner heat insulating material is hardened when the inner heat insulating material filled in the truss frame 10 is liquid (S40)

In addition, the process of coupling the watertight member 20 to the truss frame 10 and filling the inner heat insulator into the truss frame 10 can be changed in any order according to the purpose of the user.

After inserting the insulator into the truss frame 10 and fixing the watertightness member 20 to each side of the truss frame 10 as described above, the panel 13 of the truss frame 10 So that the horizontal member 30 is positioned outside the panel mount 11.

Before the horizontal member 30 is positioned outside the panel fittings 11 of the panel 13, the film or vinyl blocking members v are positioned outside the panel fittings 11, A plurality of horizontal members 30 are arranged outside the member v.

Here, when the horizontal member 30 is positioned on the truss frame 10, the blocking member v is fastened to prevent the moisture and the like from penetrating into the interior of the truss frame 10 A blocking member v is provided between the truss frame 10 and the horizontal member 30 in order to improve airtightness and watertightness of the truss frame 10. [

The watertightness member 20 is coupled to each side of the truss frame 10 and the horizontal member 30 is coupled to the outside of the truss frame 10 to fabricate the panel 40. S50)

After the blocking member V is installed on the panel 13 formed on the truss frame 10 and a plurality of horizontal members 30 are provided on the blocking member v, The external heat insulating board k3 is connected to the upper side of the horizontal member 30 and the fire-extinguishing heat insulating material k2 by using bolts or an adhesive, while locating the fire-proofing heat insulating material k2 between the insulating members.

The horizontal member 30 is fixed to the upper side of the truss frame 10 so that the horizontal member 30 acts as a skeleton and a supporting member in the truss frame 10, (S60) while firmly supporting the fire-extinguishing material k2 and the external heat-insulating-unit board k3 positioned on the upper side of the truss frame 10 with a firm fixing force.

After the fire extinguishing material k2 and the external heat insulating board k3 are coupled to the panel 40 through the process described above, the panel 40 (Collectively referred to as " panel ") on the wall surface.

In detail,

The adjustment plate 52 is brought into close contact with the upper surface of the base plate 51 and the position of the adjustment plate 52 is adjusted so that the position of the adjustment plate 52 is adjusted to a predetermined position among the at least one first fixing holes 51a formed in the base plate 51 A bolt is inserted into the first fixing hole 51a and the second fixing hole 52a by making a corresponding one of the first fixing holes 51a and the second fixing hole 52a formed on the adjusting plate 52 correspond to each other, The plate 51 and the adjustment plate 52 are combined.

A bolt is inserted into a third fixing hole 53a1 formed in the engaging portion 53a while the second bracket 54 is closely contacted with the engaging portion 53a formed on the first bracket 53, The first bracket 53 and the second bracket 54 are fixed.

Then the bolts are inserted into the first bolt hole 53b formed in the first bracket 53 while the first bracket 53 is closely contacted with the projecting step 52b formed on the adjustment plate 52, And the first bracket 53 are fixed.

A first fixing hole 51a formed in the base plate 51 and a second fixing hole 52a formed in the adjusting plate 52 and a third fixing hole 53a1 formed in the first bracket 53 are formed in a slot- And the position of the adjustment plate 52 and the first bracket 53 can be easily adjusted.

As described above, the assembling order of the base plate 51, the adjusting plate 52, the first bracket 53, and the second bracket 54 constituting the fixing member 50 may be changed according to the purpose of the user (S70).

After the fixing member 50 is formed as described above, the panel 40 may be installed on the wall surface selected by the user using the fixing member 50.

In detail,

The base plate 51 is brought into close contact with the wall surface so that the bolts are inserted into the other first fixing holes 51a in the one or more fixing holes 51a formed in the base plate 51 for coupling with the adjusting plate 52, The bolts are coupled to the wall surface so that the base plate 51 is coupled to the wall surface.

Then, the base plate 51 is fixed to the wall surface, and the adjustment plate 52 coupled to the base plate 51 is also attached to the wall surface.

The other panel 40 is coupled to the first bracket 53 and the second bracket 54 formed on the fixing member 50 on the surface of the panel 40.

In detail,

The bolts are inserted into the first bolt holes 53b formed in the first bracket 53 while the panel 40 is closely contacted with the first bracket 53 formed on the fixing member 50, So that the panel 40a is fixed.

The other panel 40b is brought into close contact with the second bracket 54 coupled to the first bracket 53 and the bolt is inserted into the second bolt hole 54a formed in the second bracket 54, 2 Brackets 54 and the other panel 40b are fixedly coupled.

The two panels 40 can be simultaneously coupled through the single fixing member 50 as described above.

The first fixing hole 51a formed in the base plate 51 and the second fixing hole 52a formed in the adjusting plate 52 and the third fixing hole 53a1 formed in the first bracket 53 The position of the fixing member 50 fixed to the fixing member 50 and the panel 40 coupled to the fixing member 50 can be easily adjusted.

When the panel 40 is engaged with the first bracket 53 and the second bracket 54 of the fixing member 50, the base plate 51 and the adjusting plate 52 and the first bracket 53 The panel 40 may be fixed to the first and second brackets 53 and 54 and then the first bracket 53 and the second bracket 53 may be fixed to the first and second brackets 53 and 54. However, May be coupled to the adjustment plate 52. (S80)

Then, an outer panel, which is currently generally used on the outer surface of the panel 40, may be coupled with bolts or the like for preventing or decorating the panel 40 according to the purpose of the user.

In addition, the panel 40 may be installed on the wall surface, and the outer surface of the panel 40 may be finished by using a separate finishing material generally used in addition to the outer panel, .

The panel 40 can be easily fixed to the wall surface through the process described above and the watertightness member 20 is formed on each side of the truss frame 10 constituting the panel 40, The watertightness member 20 is positioned between one panel 40a and the other panel 40b when the watertightness member 20 is arranged on the wall surface. The airtightness and the watertightness are improved, moisture and the like from the outside can not easily flow into the space between the panels 40, and the insulation effect of the building structure can be enhanced.

A sealing member v is formed inside the panel 40. The watertight member 20 has a watertight gasket 22 and an expansion band 23 formed in a double layer so that the truss frame 10, It is possible to increase the airtightness and water tightness of the watertightness member 20 and to prevent moisture or the like from flowing into the inside of the panel 40 or the occurrence of thermal bridging phenomenon thereby to increase the heat insulation effect of the building structure on which the panel 40 is installed It will be.

In addition, when the panel 40 is manufactured at the manufacturing site and moved to the site, it can be installed only through the bolts without performing the welding method or the like when fixing the panel 40 directly on the wall surface. Thus, The panel 40 can be easily fixed to the wall only through the bolt, so that the work efficiency can be improved and the cost incurred during the installation and manufacture of the panel 40 can be reduced. It is possible to provide excellent economical efficiency.

In addition, when the panel 40 is attached to the wall surface in the field, it is not necessary to use the energy used in the welding and a separate apparatus, thereby saving energy, labor, work time, and the like.

Since the two panels 40 can be simultaneously fixed to the wall surface through the fixing member 50, the working time for fixing the panel 40 to the wall surface can be shortened, and the panel 40 can be fixed.

Although the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have knowledge of.

10: Truss frame
11: panel shim 12: panel support
12a: panel fitting groove 13: panel
14: Connection
20: watertight member
21: plate 21a:
21b: fitting groove 21c:
21d: first space part 21e: second space part
22: Watertight gasket 23: Expansion band
30: Horizontal member
40: Panel
50: Fixing member
51: base plate 51a: first fixing hole
52: adjusting plate 52a: second fixing hole
52b: protruding jaw 53: first bracket
53a: engaging portion 53a1: third fixing hole
53b: first bolt hole 54: second bracket
54a: second bolt hole
k: Insulating insulation
k2, k3: fireproof insulation, external insulation board
v: blocking member
100: Passive insulation composite panel capable of breaking bridge

Claims (7)

And a panel insertion groove 12a which is connected to one side of the panel fitting 11 and which is formed in a 'C' shape and spaced apart from each other by a predetermined distance, A pair of panels 13 constituted by the panel supporting portions 12 in which the pair of panels 13 are formed and a connecting portion 14 connecting the pair of panels 13, A truss frame (10) arranged in a '?'Shape;
A watertight member 20 coupled to upper, lower, left, and right outer sides of the truss frame 10;
A horizontal member 30 having a plurality of openings arranged on the outer surface of the panel insert 11 formed on the panel 13 of the truss frame 10;
And a fixing member 50 for fixing the panel 40 coupled with the truss frame 10, the watertight member 20 and the horizontal member 30 to the wall surface, Insulation composite panel.
The passive heat-insulating composite panel according to claim 1, characterized in that a blocking member (v) is further formed between the truss frame (10) and the horizontal member (30).
The truss panel according to claim 1, wherein the watertight member (20) comprises: a fitting portion (21a) coupled to the panel supporting portion (12) formed on one side of the truss frame (10) A first space 21d including a groove 21b and a protruding portion 21c that is partially bent outward and a second space 21e formed at an adjacent point of the first space 21d, A watertight gasket 22 coupled to the fitting groove 21b formed in the plate 21, a guide 23a positioned in the first space 21d but coupled to the projection 21c, And a heat insulating material (k) disposed in the second space part (21e). The passive heat insulating composite panel according to claim 1, wherein the heat insulating material (k)
The method according to claim 1, characterized in that the fire-proofing material (k2) is arranged between the plurality of horizontally arranged members (30) and the outer heat insulating board (k3) is arranged outside the truss frame (10) Wherein the heat-insulating composite panel is characterized in that it is formed to include a heat-insulating layer.
The fixing device according to claim 1, wherein the fixing member comprises a base plate fixed to a wall surface and having at least one first fixing hole formed therein, The other side of which is fixed to the panel 40 while the other side of the third fixing hole 53a1 is engaged with the protrusion 52b of the adjusting plate 52, A first bracket 53 having one or more first bolt holes 53b formed therein and a second bracket 53 having one side connected to a coupling portion 53a formed on the first bracket 53, And a second bracket (54) fixed to the first bolt hole (40) and having a second bolt hole (54a).
A horizontal member coupled to the truss frame; and a panel having the truss frame, the watertight member, and the horizontal member coupled to the wall surface, And a fixing member that fixes the passive heat-insulating composite panel to the passive heat-insulating composite panel,
A pair of panels are arranged in a manner to face each other while being spaced apart from each other by a predetermined distance, and then the two panels are fixed to one panel while fixing the connection portion to one side of the panel fitting formed on the pair of panels, A frame manufacturing step (S10) of preparing four panels to which connection parts are coupled, and then forming four truss frames by fixing the four panels in a '?'Shape;
A watertight member manufacturing step of joining a watertight gasket to the fitting groove formed in the inside of the plate, placing the expanding band in the first space part while inserting the guide into the protruding part, and joining the heat insulating material to the second space part (S20);
A watertight member fixing step (S30) of fixing the watertight member to the upper, lower, left, and right sides of the truss frame;
(S40) filling the inner space of the truss frame with a liquid or solid internal heat insulator;
A panel manufacturing step (S50) of placing a blocking member between the panel fitting and the horizontal member before arranging the horizontal member on the outside of the panel fitting formed on the truss frame;
A manufacturing finishing step (S60) of joining the fire-retardant insulating material between the horizontal members formed on the panel and fixing the external heat insulating board to the outside of the horizontal member;
The bolts are inserted into the first and second fixing holes to fix the base plate and the adjusting plate while the second fixing holes formed on the adjusting plate are corresponded to the first fixing holes formed on the base plate so as to fix the panel to the wall surface of the building structure, The bolt is inserted into the second fixing hole and the first bolt hole while fixing the first bracket to the protruding jaw formed on the adjusting plate to fix the adjusting plate and the first bracket and the second bracket is fixed to the engaging part formed on the first bracket (S70) for fixing the first bracket and the second bracket by inserting bolts into the second bolt holes of the third fixing hole and the second bracket formed in the coupling portion while coupling the bolts.
The base plate formed on the fixing member is brought into close contact with the building structure, and the bolts are inserted into the first fixing holes formed in the base plate to fix the base plate to the wall. While the panels are closely contacted to the first and second brackets, And a panel fixing step (S80) of fixing the panel to the fixing member by inserting bolts into the first bolt hole formed in the first bracket and the second bracket, and a bolt inserted into the second bolt hole, thereby forming a passive insulation composite How to install the panel.
The passive heat-insulating composite panel according to claim 6, wherein, in the panel fixing step (S80), the outer panel can be fixed to the outside of the panel for preventing or decorating the panel. Way.

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