KR101663466B1 - Sandwich panel for energy saving Building Structure Using Steel Stud - Google Patents

Abstract

The present invention relates to a heat insulating panel for an architectural structure using an energy saving steel stud, and more particularly to a heat insulating panel for an architectural structure using an energy saving type steel stud, in which a first frame and a second frame are positioned on both sides between two outer plates, A stud is formed in the inside thereof, and then a heat insulating member such as urethane foam or glass wool is filled.
According to the present invention, the first frame, the second frame, and the studs constituting the heat insulating panel are formed of metal so as to maintain the rigidity while reducing the weight through the plurality of holes formed in the surface and reducing the heat conduction, have.

Description

[0001] The present invention relates to an insulating panel for an architectural structure using an energy-saving steel stud,

The present invention relates to a heat insulating panel for an architectural structure using an energy saving steel stud, and more particularly to a heat insulating panel for an architectural structure using an energy saving type steel stud, in which a first frame and a second frame are positioned on both sides between two outer plates, A stud is formed in the inside thereof, and then a heat insulating member such as urethane foam or glass wool is filled.

According to the present invention, the first frame, the second frame, and the studs constituting the heat insulating panel are formed of metal so as to maintain the rigidity while reducing the weight through the plurality of holes formed in the surface and reducing the heat conduction, have.

As is generally known, a heat insulating panel is usually constructed by inserting a heat insulating material such as a scribe pole, a soundproofing material, or a non-combustible material in the interior of two metal panels, and is one of the building materials called a sandwich panel.

In addition, the above-mentioned heat insulation panel may have insertion projections and insertion recesses formed at one side and the other side, respectively, so that the insertion protrusions are inserted into the insertion recesses at the time of constructing the assembly building and then joined to the insertion recesses by using a fastening member such as a nail, a screw, And this joining method not only fixes the adiabatic panel, but also various kinds of subsidiary materials such as ridges, water basins, or corner finishing members for the construction of the prefabricated building by the same method.

According to one embodiment of the panel having the above-described structure, the connection structure of the panel assembly for building use is disclosed in Japanese Utility Model Registration No. 20-0340788 (filed on Jan. 27, 2004)

A panel assembly for a building having a planar heat insulation material formed by foaming resin or styrofoam between a pair of plate members so as to form a concave shaped body part and a convex shaped male fastening part,

The U-shaped reinforcing member is joined to the recessed female body portion and the convex male fastening portion formed on the prefabricated panel so as to improve the rigidity of the joint portion of the panel,

The heat insulating material formed between the two sheets of plate material is constructed such that a support stand for preventing damage due to external physical force through rigid reinforcement to the assembled panel is recessed.

Another prior art patent registration No. 10-1616496 (registered on April 22, 2016) is a panel with a multifunctional thermal insulation material of a building,

A front surface portion 110 to which a finishing material or an exterior material is attached, a back surface portion 120 attached to or coupled to a housing wall, that is, an outer wall body of the building, and a cube or a rectangular parallelepiped structure including the side surface portion 130, The installation drawing is a thermal insulation material,

The heat insulating material includes a plurality of moisture permeable holes 111a having moisture passages 112 having a predetermined depth from the surface of the front surface 110 toward the back surface 120,

The moisture passage 112 has a tapered shape that is narrower toward the front portion 110 from the rear portion 120 and has a ventilation structure in which the rear portion 120 is not penetrated,

One or more concave wall coupling grooves 124 are formed at a predetermined interval so as to be closely contacted with the outer wall of the building 120. In order to enhance the coupling force between the outer walls of the building, Convex protrusions 122 are protruded in the space between the moisture passage 112 and the rear surface portion 120. The space between the moisture passage 112 and the rear surface portion 120 includes a multi-

The anti-reflective material of the multi-layered structure includes an aluminum foil 140 formed on one side of the anti-fogging film 141 to prevent condensation from being adhered to one side of the anti- A polyester film 144 having a function of keeping a warming action and formed of a polyester, a polyester film 144 formed on one surface of the nonwoven fabric 142 to prevent corrosion, A support member 145 made of a titanium dioxide coating layer 145b for forming a vacuum space 145a including a thermal insulation material having voids in a space between the titanium dioxide coating layers 145b at regular intervals, And a polyethylene foam 146 formed on one surface of the member 145 to prevent energy loss due to heat conduction.

However, in the case of the above-mentioned adiabatic panel, screwing is performed in a state in which the recessed female body part formed on both sides of the panel and the projected male fastened part are fitted to each other during assembly, These problems have caused problems such as difficulty in assembly due to inaccuracies of dimensions and difficulty in assembling work due to high load of a heat insulating panel.

Further, when the assembled state of each panel is poor, there is a serious problem in the heat insulation of the panel due to the problem that the outside air flows into the gap of the connection portion or the internal heat source escapes.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a method of inserting a heat insulating member between a pair of outer surface plates in a state in which a first frame, A plurality of holes are formed on the surfaces of the first frame and the second frame and the studs formed inside the outer surface plate to reduce the weight and maintain the high load force of the heat insulating panel, The heat conduction of the panel can be reduced by the holes formed in the frame and the stud, so that the heat insulating property of the panel can be improved. In addition, when assembling the heat insulating panel, the insertion protrusions and the insertion recesses, A temporary fastening phase using the insertion protrusion and the insertion recess by primary assembly, It is possible to maintain a tightly using a new type of energy-saving steel studs can avoid going two connections issue when Bolt after tea to provide an architectural structural insulation panels.

The above object of the present invention can be achieved by a heat exchanger comprising: a pair of outer plates (10, 20) made of a metal or wooden plate;

A plurality of holes 34 and a plurality of holes 32 and an insertion groove 33 in the longitudinal direction are formed on both sides of the body 31 having a cross section formed on one side of the outer plates 10 and 20, A first frame 30 integrally formed with the first frame 30;

A plurality of holes 42 and a protrusion 43 are integrally formed in the longitudinal direction of the body 41 having a cross section of a " C "shape formed at a corresponding position of the first frame 30, );

A stud 50 formed between the first frame 30 and the second frame 40 and having a plurality of holes 42 in the longitudinal direction of the body 31 having a "C" shaped cross section;

And a heat insulating member 60 filled in the outer frame 10 in a state where the first frame 30, the second frame 40 and the stud 50 are formed inside the pair of outer plates 10 and 20 Which can be achieved by a heat insulating panel for construction using energy-saving steel studs.

A fastening and maintaining means 70 composed of a plurality of elongated grooves 71 on both sides of the body 31 of the first frame 30 and a wrist base 72 protruding from both sides of the body 41 of the second frame 40, Further comprising:

The shapes of the plurality of holes 32, 42, and 52 formed in the first frame 30, the second frame 40, and the stud 50 may be a triangle or a quadrangle .

The outer plates 10 and 20 may further include various patterns, shapes and colors on the surface.

As described above, the heat insulating panel for building structure using the energy-saving steel stud according to the present invention has the first frame and the second frame constituting the panel and the studs formed therein, which are made of metal, And a plurality of holes formed in the studs can reduce the load on the entire panel, so that the work using the panel is easy and the work fatigue can be reduced.

Especially. The building constructed using the panels by the holes formed in the frames and studs has a high heat insulating property because the heat transfer between the outside air and the inside air is obstructed.

1 is an exploded perspective view of a heat insulating panel for a building structure using an energy saving type steel stud according to the present invention.
FIG. 2 is an exploded perspective view of a frame and a stud portion of a heat insulating panel for a building using an energy-saving steel stud according to the present invention. FIG.
FIG. 3 is a schematic view showing a heat conduction type of a frame and a stud among thermal insulation panels for building structures using an energy saving type steel stud according to the present invention
FIG. 4 is a partial cross-sectional view showing a connection state of a heat insulating panel for a building structure with neighboring panels using an energy-saving steel stud according to the present invention
5 is a perspective view of another embodiment of the first frame and the second frame of the heat insulating panel for building structure using the energy saving steel stud according to the present invention.
6 is an assembled state sectional view of another embodiment of the first frame and the second frame of the heat insulating panel for building structure using the energy saving steel stud according to the present invention

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

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the size and shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

FIG. 1 is an exploded perspective view of a heat insulating panel for an architectural structure using an energy saving steel stud according to the present invention, FIG. 2 is an exploded perspective view of a frame and a stud part of a heat insulating panel for a building using the energy saving steel stud according to the present invention, And FIG. 3 is a schematic view showing a thermal conduction type of the frame and the stud among the thermal insulation panels for building construction using the energy saving type steel stud according to the present invention. FIG. 4 is a cross-sectional view of the heat insulating panel for building structural use using the energy saving type steel stud according to the present invention. 5 is a perspective view of another embodiment of the first frame and the second frame of the heat insulating panel for building structure using the energy saving steel stud according to the present invention, and Fig. 6 is a cross- Among the heat insulating panels for architectural structures using the energy-saving steel stud according to the invention, the first frame and the second frame Sectional view of a combined state of another embodiment of Fig.

As shown in the drawings, a heat insulating panel (hereinafter referred to as "heat insulating panel") 100 for building structure using an energy-saving steel stud according to the present invention includes a pair of outer surface plates 10 and 20, The first frame 30 and the second frame 40 are formed on both sides of the first frame 30 and the second frame 40 so that the outer plates 10 and 20 are spaced apart from each other by a predetermined distance. A stud 50 for reinforcing the load of the panel 100 and a heat insulating member 60 such as urethane foam or glass wool filled between the first frame 30 and the second frame 40.

The outer plates 10 and 20 may be formed of a metal or wood plate and may have various patterns and colors.

In addition, the outer plates 10 and 20 can be formed into various patterns, shapes, and colors on the surface, thereby manufacturing a steel house having various textures and patterns.

The first frame 30 has a plurality of holes 32 formed in the longitudinal direction of a body 31 having a cross section of a substantially C shape and having a plurality of assembly holes 34 formed on both sides thereof, The insertion groove 33 into which the projection 43 of the second frame 40 is inserted is integrally formed.

The second frame 40 has a plurality of holes 42 formed in the longitudinal direction of the body 41 having a substantially C-shaped cross section and is inserted into one side of the insertion groove 33 of the first frame 30 The projecting portion 43 is integrally formed.

The stud 50 has a plurality of holes 52 formed in the longitudinal direction of the body 51 having a substantially "C" shaped cross section.

The shapes of the plurality of holes 32, 42, and 52 formed in the first frame 30, the second frame 40, and the stud 50 may vary depending on the widths and lengths of the frames and studs It can be variously modified into a triangle, a square circle, and the like.

In addition, inwardly bent extensions 321, 421, 521 are formed at the edges of the holes 32, 42, 52 to compensate for the studs caused by the holes and the structural loss of each frame.

That is, as shown in Figs. 2 and 4, the flesh of the body is bent into the holes 50, the holes 50 formed in the studs 50, the first frame 30 and the second frame 40, By forming the portions 321, 421, and 521, the load of the entire heat insulating panel through the hole can be reduced, and the deformation of the stud and the frame due to the load can be prevented.

The heat insulating member 60 is formed between the pair of outer side plates 10 and 20 in a state where the first frame 30, the second frame 40 and the stud 50 are assembled, Or filled with glass wool or the like.

The first frame 30, the second frame 40 and the stud 50 may be formed by a plurality of holes 32, 42, 52 formed in the bodies 31, 41, ) Is improved.

3, holes 32, 42, and 52 formed in the first frame 30, the second frame 40, and the stud 50 that constitute the heat insulating panel 100 are formed on the outer- The external heat energy transmitted through the indoor heat exchanger 10 interferes with the heat conduction to the indoor side outer surface plate 20, thereby reducing the thermal conductivity and minimizing the temperature change of the indoor air according to the outside air temperature. It is possible to prevent energy loss due to heat conduction.

The thermally conductive phenomenon of the stud and each of the frame thermal conduction and the conventional frame according to the present invention is illustrated as follows.

&Lt; Deterioration phase of conventional frame > < Deterioration phase of stud and frame of the present invention &

As can be seen from the figure, the process of heat conduction of the outdoor air temperature to the room is physically lengthened (confirmed by the arrow length) by the holes 32, 42, 52 formed in the stud and the frame according to the present invention, It is possible to prevent thermal energy loss of the air.

4 is a view illustrating a state in which the heat insulating panel according to the present invention is connected to the adjacent heat insulating panel.

The projecting portion 43 of the second frame 40 exposed to one side of the heat insulating panel 100 is inserted into the first frame 30 'insertion groove 33' of the adjacent heat insulating panel 100 ' The bolts 80 are passed through a plurality of assemblies 34 'formed on the side of the first frame 30' and the first frames 30 'and the bodies 31', 31 'of the second frames 40' The bolt 80 is fastened to the portion where the bolts 41 are tightly fixed.

The bolts 80 passing through the holes 34 may be formed with holes (not shown) at positions where the holes 34 of the outer plates 10 and 20 are positioned, So that the worker can be identified smoothly.

In the meantime, the connection of each of the heat insulating panels is formed by forming a wire (not shown) so as to expose an end portion in four directions through the hole and connecting the wire with a wire (not shown) .

Particularly, since the wire can be formed entirely in the first frame, the second frame, the stud, the runner and the track, the wires can be connected in various ways in the transverse direction and the diagonal direction of the heat insulating panel, And the heat insulating property can be improved through the feature that it can be made more rigid.

5 to 6 illustrate another embodiment of the heat insulating panel according to the present invention. In this embodiment, the heat insulating panel 100 'and the adjacent heat insulating panel 100' (70) in the connecting portion so that the inserted state can be maintained without being interrupted.

5 to 6, the fastening and holding means 70 includes a plurality of grooves 71 formed on both sides of the body 31 of the first frame 30, And a wrist base portion 72 formed on both sides of the body 41 and protruding outwardly.

The second frame 40 is automatically inserted into the insertion groove 33 of the first frame 30 in the process of fitting the projection 43 of the second frame 40 by the structure of the fastening / The first frame 30 and the second frame 40 are fitted into the elongated groove 71 formed in the body 31 of the first frame 30, It is possible to maintain a state in which the post-worker is firmly fitted into the bolt 80 without being flared until the operator tightens the bolt 80 through the assembly hole 3. [

By the structure of the fastening and maintaining means 70, it is possible to prevent the widening of the connecting portion during the process of manufacturing the steel house by connecting the plural heat insulating panels to each other, thereby preventing the deterioration of the heat insulating property and preventing the deformation So that the assemblability of the steel house can be improved.

As described above, the heat insulating panel 100 according to the present invention has a structure in which the first frame 30, the second frame 40, and the stud 50, in which the plurality of holes 32, 42, So that it is possible to maintain the shape firmly against a high load while improving workability.

The first frame 30, the second frame 40 and the stud 50 can prevent the external air and the internal air from being thermally conductive by the plurality of holes 32, 42, 52 formed in the body It is possible to prevent consumption of indoor heat energy due to heat conduction.

In the drawing, reference numeral 90 denotes a runner to be assembled to the upper part of the heat insulating panel, and 91 denotes a track to be assembled to the lower part of the heat insulating panel.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

10, 20: outer plate 30: first frame
31: body 32: hole
33: insertion groove 34: assembly
40: second frame 41: body
42: hole 43: protrusion
50: stud 51: body
52: hole 60:
70: fastening and maintaining means 71: groove
72: chain base 80: bolt

Claims (4)

A pair of outer plates (10, 20) made of metal or wooden plate and having various patterns, shapes and colors on the surface thereof;
A plurality of holes 34 and a plurality of holes 32 and an insertion groove 33 in the longitudinal direction are formed on both sides of the body 31 having a cross section formed on one side of the outer plates 10 and 20, A first frame 30 integrally formed with the first frame 30;
A plurality of holes 42 and a protrusion 43 are integrally formed in the longitudinal direction of the body 41 having a cross section of a " C "shape formed at a corresponding position of the first frame 30, );
A stud 50 formed between the first frame 30 and the second frame 40 and having a plurality of holes 52 formed in a longitudinal direction of the body 31 having a "C" shaped cross section;
The first frame 30, the second frame 40 and the stud 50 are formed inside the pair of outer plates 10 and 20 so as to be filled between the pair of outer plates 10 and 20 A heat insulating member (60) composed of urethane or glass wool,
The shapes of the plurality of holes 32, 42 and 52 formed in the first frame 30, the second frame 40 and the stud 50 are formed by bending the edges inward to form the extended portions 321, 421 and 521 A triangular shape, and a quadrangular circle in a state in which it is formed,
A fastening and holding means 70 composed of a plurality of elongated grooves 71 on both sides of the body 31 of the first frame 30 and a wax base 72 protruding from both sides of the body 41 of the second frame 40, ;and,
(Not shown) passing through the holes 32, 42, 52 formed in the first frame 30, the second frame 40 and the stud 50,
When the projecting portion 43 of the second frame 40 is inserted into the insertion groove 33 of the first frame 30, the chain base portion 72 formed on the body 41 of the second frame 40 The bolts 80 are inserted into the elongated grooves 71 formed in the body 31 of the frame 30 so as to be engaged until the bolts 80 engaged with the car rear assembling holes 34 are fastened and the wires are connected and pulled, And the heat-insulating panel is connected to the heat-insulating panel. The heat-insulating panel for an architectural structure using the energy-saving steel stud is characterized in that the heat- delete delete delete

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