KR101146121B1 - Thermal Insulation Stud and Method for Manufacturing The Same - Google Patents

Abstract

Insulation studs used for steel stud walls of steel houses, non-bearing walls of steel-framed buildings, or curtain wall units using panels that form the outer walls of high-rise buildings, in particular heat-insulating studs and methods of manufacturing the same This is provided.

The thermal insulation stud of the present invention as an example of the configuration, a stud body; An insulating material accommodating part integrally formed with the stud body; And a heat insulation layer provided on the heat insulation material receiving portion, wherein the heat insulation material receiving portion is provided as a waste protrusion, and the waste protrusion is integrally formed in the longitudinal direction of the web constituting the stud body. The heat insulation layer may be formed in an inner space.

According to the present invention, while blocking the thermal bridge through the studs through the resin insulating layer formed on the center of the web of the stud, which is the main structural material of the wall, it is possible to secure excellent compressive force to strengthen the structural strength, especially roll forming production Thus, an improved effect of improving productivity may be obtained.

Walls, studs, thermal studs, closed protrusions, thermal insulation layer

Description

Thermal Insulation Stud and Method for Manufacturing The Same

The present invention relates to a stud for use in a frame of a curtain wall unit using panels that form a bearing wall of a steel house, a non-bearing wall of a steel frame building, or an outer wall of a high-rise building.

More specifically, the present invention is to block the thermal bridge through the studs through the resin insulating layer provided in the center of the web of the stud, the main structural material, while ensuring excellent compressive strength to strengthen the structural strength, in particular roll forming production The present invention relates to an insulating stud and a method of manufacturing the same, which also improve productivity.

Recently, in the construction of various structures such as houses, buildings, or factories, many new structures are used to construct the frame using lightweight steel beams, instead of the conventional methods such as reinforced concrete, steel, and masonry. have.

In this way, when the structure of the structure is made of section steel products, the products manufactured in the factory are prefabricated in the field, so the construction speed is fast and general functional workers can be easily installed. There are many advantages in terms of constructability and economical efficiency, and its spread is gradually spreading in recent years.

In particular, in the field of housing, steel frame (Steel Framed House) has been established as a form of residential building in conjunction with the trend of drying and industrialization of the construction of the structure, such as the steel house and the There is an active development of technology for studs, which are structural members.

For example, as shown in FIG. 1, in the (outer) wall using the conventional steel stud, the steel stud 100 which consists of a "C" type steel pipe is usually joined between the floor and ceiling which are not shown in figure.

At this time, although not shown in Figure 1, such a steel stud 100 serves as a vertical beam between the upper and lower track members connected to the bottom and ceiling by anchor bolts (installed during the floor and ceiling construction), etc. Steel studs are assembled.

In addition, the heat dissipation member 110 is constructed inside the steel stud 100, and the gypsum board 120 is bonded to the inside of the steel stud 100, and the structural plywood 130 and the outer insulation 140 are bonded to the outside of the steel stud 100. It is constructed to constitute one outer wall 150.

The stud 100 used in the steel house wall of FIG. 1 is generally used to increase the strength by processing galvanized steel sheet having a thickness of 0.8 mm to 1.6 mm to have a 'C' cross section. Because of its high thermal conductivity due to its material properties, a thermal bridge phenomenon in which perfusion heat is concentrated on the stud may occur. This is one of the causes of condensation, which has been pointed out as a problem of steel house construction.

Therefore, in order to minimize the thermal bridge phenomenon of the steel stud in the conventional steel house method, as shown in Figure 1, the outer heat insulating method or the heat insulating material between the stud 100 and the outer heat insulating material (140) installed on the outer wall of the wall ( In addition, the heat dissipation method of filling 110) is performed in parallel, but thermal bridges are prone to occur in areas where the insulation is not continuously constructed, or at corners and joints, so that energy consumption and heat condensation due to heat loss of the building are sufficiently solved. It was difficult.

On the other hand, as a conventional method for preventing the thermal bridge phenomenon and condensation due to the thermal bridge in the stud, although not separately shown in Figure 1, by forming a slit of zigzag in the longitudinal direction of the web 100a portion of the stud 100 It is known to lower the thermal conductivity, or to make a different material on the stud, that is, a different material of the flange 100b of the stud and the web 100a of the resin plate, or a composite stud for attaching the resin plate to the stud web or the flange.

However, when the slit is formed, the effect of reducing the thermal conductivity is also insignificant, and the formation of such a slit causes another problem of weakening the structural strength, and the web of the heterogeneous material, that is, the web of steel and the synthetic sheet, or The heterogeneous material structure, such as attaching a synthetic resin plate to the stud, is complicated in its manufacture, which results in weak productivity and high unit cost, which makes it difficult to practically use it.

The present invention has been proposed in order to solve the conventional problems as described above, the objective aspect is to form a closed protrusion in which the resin insulation layer is formed in the center of the web of the stud to block the thermal bridge through the stud, while ensuring excellent compression force The present invention provides a thermally insulating stud and a method of manufacturing the same, which can enhance the structural strength and, in particular, produce a roll forming, thereby improving productivity.

The present invention as a technical aspect for achieving the above object, the stud body; An insulating material accommodating part integrally formed with the stud body; And a heat insulation layer provided on the heat insulation material receiving portion, wherein the heat insulation material receiving portion is provided as a waste protrusion, and the waste protrusion is integrally formed in the longitudinal direction of the web constituting the stud body. It provides a heat insulating stud characterized in that the heat insulating layer is formed in the inner space.

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Preferably, the method further includes at least one of a surface short circuit portion and a slit portion provided on one side and the other side of the lung protrusion to increase thermal bridge barrier property.

More preferably, the slit portion includes at least one bent end to which the heat-insulating layer formed by the opening of the closed protrusion of the stud body is cured and bonded to improve the heat-insulating layer bonding strength, wherein the heat-insulating layer is inside the lung protrusion. It is composed of a synthetic resin cured layer that is filled into the liquid phase and cured.

At this time, the slit portion is formed integrally or multiplied in the web longitudinal direction of the stud body.

In another aspect, the present invention, roll forming the plate supplied from the coil to form a closed protrusion integrally in the web and the flange and the web longitudinal direction;

Forming a heat insulation layer made of synthetic resin on the waste protrusion; And,

Cutting a stud having a heat insulation layer formed inside the lung protrusion;

It provides a thermal insulation stud manufacturing method comprising a.

Preferably, in the forming of the lung protrusion, the short side of the web surface of the stud body is formed, and in the forming of the heat insulation layer, before curing of the liquid synthetic resin filled and cured in the lung protrusion, along the protrusion of the waste protrusion. It further comprises the step of forming a slit portion.

More preferably, in the slit forming step, the slit bending end by the nip entering the lung protrusion is to be bonded to the hardened synthetic resin.

According to the present invention, the thermal insulation stud provided is excellent in the thermal conduction blocking effect of the center of the web compared to the existing steel stud to ensure the thermal insulation performance.

In particular, when applied to a steel house receiving a compressive force, it is possible to secure a superior compressive force compared to the existing steel studs to improve the structural strength.

In addition, the bent end of the slit portion curled into the closed protrusion of the synthetic resin, which is filled with a heat insulating layer inside, can strengthen the bonding strength of polyurethane, etc., which is a heat insulating layer, thereby providing rigidity against warpage, thereby ensuring structural stability of the non-bearing wall against wind load. It is to provide a number of excellent effects, such as to be secured.

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

First, when the heat insulation stud of the present invention forms boards or panels on both ends of the stud to form the outer wall of the building, when the heat is conducted by the temperature difference inside and outside the building, the heat conduction at the center of the web of the heat insulation stud Do not make it happen.

In particular, the synthetic resin layer of the heat insulation layer is filled and cured in the inside of the heat insulation material receiving portion provided in the center portion of the stud web, that is, the integrally protruding lung protrusion, and the heat insulation effect is increased due to the slit portion of the lung protrusion, in particular, when the slits are formed. The bent end strengthens the bonding force with the cured heat insulating layer such as polyurethane, while the close insulating layer of the synthetic resin such as the stud and the polyurethane allows the stud to be composed of heterogeneous materials but behaves as an integral structural material. .

In addition, the thermal insulation stud of the present invention, when applied to the outer wall of a bearing wall-type building such as a steel house, not only provides excellent thermal insulation performance, but also through the formation of a closed protrusion in which the synthetic resin thermal insulation layer of the web center is integrally formed, A stiffener is formed at the center of both segmented webs of the stud to improve the compression performance compared to the existing stud.

In addition, when the stud of the present invention is applied to a curtain wall unit such as an ultra-high layer, in addition to providing excellent heat insulation performance, it is to provide an extremely high wind load resistance (stiffness) compared to the existing aluminum curtain wall.

Therefore, the thermal insulation stud of the present invention will be described in detail with reference to the accompanying drawings.

2 and 3 show an insulating stud 1 according to the invention.

That is, as shown in Figures 2 and 3, the heat insulating stud 1 of the present invention, the stud body 10 and the heat insulating material accommodating portion formed integrally with the stud body 10, that is, the closed protrusion ( 30) and the heat insulation layer 50 provided on the closed protrusions 30.

At this time, the stud body 10 of the present invention is composed of a web (12) and the flange (14a, 14b) located on the outer wall and the inner wall side integrated on both sides, in the present invention is particularly continuous to increase productivity As a result, the plate 4 may be produced through roll forming.

Next, as shown in FIGS. 2 and 3, the closed protrusions 30 provided in the heat insulating stud 1 of the present invention are integrally formed in the longitudinal direction of the web 12 constituting the stud body 10. The heat insulating layer 50 described next is formed in the inner space while being concave.

Therefore, in the heat insulation stud 1 of the present invention, the waste protrusion 30 provides the effect of cutting off the center of the web, and because the synthetic resin, for example, polyamide or the like is integrally formed inside the waste protrusion, Although the barrier property is excellent and the segmental structure, the closed protrusion part 30 of the shape which recesses integrally along the web center rather suppresses the bending deformation of the stud body 10, and also improves the compression performance.

In particular, it provides high resistance (stiffness) even under repeated wind loads.

At this time, preferably, the one side and the other side of the lung protrusion 30 in the stud body 10 of the present invention further includes a surface short circuit portion 32 and the slit portion 34 provided to increase the thermal bridge barrier property. .

At this time, the slit 34, the upper and lower bent end 34a is formed by the movement of the stud is inserted into the knife as described in detail in the front center projection of the closed projection 30 of the stud body 30 ) 34b is formed by rolling into the lung protrusion, and thus, the bent ends 34a and 34b are integrally bonded and cured integrally during curing of the synthetic resin insulating layer 50 which is filled and formed in the lung protrusion. It is to improve the stud bonding strength of the heat insulating layer.

On the other hand, the heat insulation layer 50 of the present invention, the synthetic resin, for example, the polyamide or the like that is cured when the heat is applied or hardened by cooling is the internal space of the waste heat insulating portion 30 in the liquid (gel form) Filled and then cured to form an insulating layer integrally inside the lung protrusion.

At this time, preferably, the slit portion 34 is preferably formed integrally with a few intervals in the web longitudinal direction.

For example, the larger the spacing (stud portion) between the slit portions 34 filled in the lung protrusion 30 is, the lower the thermal bridge barrier property is, and therefore, it is preferable to form it as narrow as possible.

On the other hand, since the closed protrusion 30 of the present invention is processed concave while the portion of the web 12 is extruded by roll forming, one side of the closed protrusion 32 of the web is formed integrally along the web.

Therefore, since the said surface short circuit part 32 has the effect which cuts off the center part of a web, thermal bridge | wire barrier property is ensured.

On the other hand, Figure 4 is shown in the manufacturing step of the present invention heat insulating stud (1) described so far.

That is, as shown in Figure 4, the insulating stud manufacturing step of the present invention, through the roll forming (F) consisting of a plurality of stages of roll processing the plate member 4 largely supplied from the coil 2, the stud body (10) forming the closed protrusions 30 integrally in the web 12 and the flanges 14a and 14b and the web longitudinal direction (S1), and in the closed protrusions 30 to the synthetic resin (C) It may be configured to include a step (S2) (S3) of forming the heat insulating layer 50, and a step (S4) of cutting the stud (1) in which the heat insulating layer is formed inside the closed protrusion.

Therefore, in the present invention, the plate 4 continuously supplied from the coil 2, that is, the galvanized steel sheet is roll-formed and closed in a circular and concave shape in a triangle with the flanges 14a and 14b as shown in FIG. Protruding portion 30 is formed in stages, at which time a web surface shorting portion 32 is formed.

Next, the synthetic resin (C) of the liquid (gel-like) is filled in the interior of the lung protrusion 30 through the synthetic resin feeder (S2), and the synthetic resin (C) is cured by heating using hot air as shown in the drawing. (S3) Of course, depending on the properties of the synthetic resin may be cured by irradiation with ultraviolet light or cooling.

Then, the stud body 10 with the cured heat insulation layer 50 is cut to the desired product length through the cutter in step S4, and finally to produce the heat insulation stud 1 of the present invention.

On the other hand, preferably, in the step (S2) of forming the heat insulating layer 30, the liquid (gel-like) synthetic resin (50 ') that is filled in the closed protrusions 30 and heat (or rapid cooling, etc.) is completely cured. Before, using the knife (KN) along the protruding portion of the closed protrusion 30 is to form a step (S4) of the slit portion 34 of a predetermined interval as shown in FIG.

In this case, as shown in FIG. 4, when the stud body is moved while the knife KN is fitted to one side of the waste protrusion 30 as shown in FIG. 4, the cut portions are formed at both sides of the slit part 34 toward the inside of the waste protrusion. The bent ends 34a and 34b to be rolled up further include a step (S5) of bonding with the synthetic resin 50 'of the liquid-> curing step that is not completely cured, thereby increasing the stud bonding strength of the thermal insulation layer.

Accordingly, the heat insulation stud 1 of the present invention described so far has a high heat insulation effect, and has high bending resistance due to the concave integral structure of the waste protrusion which is integrated with the stud web, and in particular, the synthetic resin layer is integrally formed in the lung protrusion. Formed and high in structural strength.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

1 is a perspective view showing the wall configuration of a conventionally known steel stud

Figure 2 is a perspective view of a thermal insulation stud according to the present invention

3 is a cross-sectional view of the present invention insulation stud of FIG.

Figure 4 is a process diagram showing the manufacturing step of the insulating stud according to the present invention

Explanation of symbols on the main parts of the drawings

1 .... thermal studs 10 .... stud bodies

12 .... web 14a, 14b .... flange

30 .... lung protrusion 32 .... face short circuit

34 .... Slit 34a, 34b .... Bend

50 .... insulation layer

Claims (8)

Stud body; An insulating material accommodating part integrally formed with the stud body; And, A heat insulation layer provided on the heat insulation material receiving portion; It is configured to include, The insulation receiving portion is provided as a lung protrusion, The closed protrusion is a heat insulating stud, characterized in that the heat insulation layer is formed in the inner space while being integrally concave in the longitudinal direction of the web constituting the stud body. delete The method of claim 1, Insulation studs further comprising at least one of a surface short-circuit and a slit provided on one side and the other side of the closed protrusion configured as the heat insulator accommodating portion to increase thermal barrier properties. The method of claim 3, The slit portion includes at least one bent end that is formed by bonding the closed protrusion of the stud body by opening bending and hardening the thermal insulation layer is bonded to improve the thermal insulation layer bonding strength, The heat insulating layer is a heat insulating stud, characterized in that composed of a synthetic resin hardened layer that is filled in the liquid phase and the inner space of the waste protrusion. The thermal insulation stud according to claim 4, wherein the slit portion is formed integrally or multiplied in the web length direction of the stud body. Continuously forming the plate supplied from the coil to form a closed protrusion integrally in the web and the flange and the web longitudinal direction in the stud body; Adding a synthetic resin to the waste protrusion to form a cured heat insulating layer; And, Cutting a stud having a heat insulation layer formed inside the lung protrusion; Insulation stud manufacturing method comprising a. The method of claim 6, In the lung protrusion forming step, the web surface short-circuit portion of the stud body is formed, In the step of forming the heat insulation layer, before the hardening of the liquid synthetic resin filled in the waste protrusions, forming a slit along the protrusions of the waste protrusions further comprising the step of producing a thermal stud. The method of claim 7, wherein In the step of forming the slit, thermal insulation stud manufacturing method, characterized in that the slit bent end by the knife entering the lung protrusion is bonded with the hardened synthetic resin.

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