KR101379011B1 - Line curtain roof system - Google Patents

Abstract

The present invention provides a line curtain roof system which uses natural circulation of hot and cold air from the outside. The line curtain roof system enhances waterproofing performance , which prevents water leakage caused by rain or storms, and saves energy for air conditioning. The line curtain roof system includes inside steel sheets, outside steel sheets, an insulating material, and a finishing material for a ridge. A hollow guide for air circulation is included between the insulating material and the outside steel sheet. The finishing material for the ridge is made to be able to circulate and release air supplied to the hollow guide.

Description

Line Curtain Roof System

The present invention relates to a line curtain roof system, which is a kind of prefabricated building roof finishing material, and more particularly, by forming a hollow layer between the outer steel sheet and the heat insulating material, thereby preventing the heat or cold from flowing in from the natural circulation of air. A line curtain loop system is provided.

In general, when constructing a large area roof of a steel structure such as a factory, an auditorium, a rest area, an airport, etc. using a metal insulation panel, a sandwich panel is often used. However, when special design conditions are required, such as inclining the roof or adding a curved shape to create aesthetics, the construction of the sandwich panel consisting of an outer steel sheet, an insulation material, and an inner steel sheet is not easy.

For large long span structures as described above, the STANDING SEAM SYSTEM, which is directly molded and assembled on-site, is often used.

The folding method is a method in which predetermined upper and lower steel panels are placed on the steel structure of the roof at the site, and various materials such as insulation or intermediate reinforcement are selected and applied according to the characteristics of the building.

In particular, this is a method of jointing, in which the joints are folded together with the power seam in the state where the upper panels are facing each other.Easy construction and of course, the overlapping parts between the upper panels are connected by the roof. It is characterized by a panel system that unites the whole.

However, in the case of the conventional foldable folding construction system, it is only a degree of applying a heat insulating plate material containing urethane or glass wool as the inner heat insulating material in addition to the upper and lower steel sheets.

Accordingly, until now, research and development activities have been focused on improving the performance of insulation panels such as urethane panels and glass wool panels.

For example, in the case of urethane panel, it is excellent in workability, insulation, and heat insulation, but it is a form that compensates for the vulnerability of fire due to the cost by thickness according to the insulation standard or application area and the flammability that burns well.

In the case of glass wool panels, glass fiber, which is a non-combustible material, is resistant to fire and has excellent sound insulation, sound insulation, and sound absorption performance, but is heavier than urethane during construction, and considering the thickness of 125mm or more, which is the insulation standard for roof insulation, The emphasis is on breaking the limits that can only be increased.

In particular, glass wool is not only low in warmth and workability, but also has a weakness in that fine particles, ie, glass wool, are scattered in the air, causing severe irritation to the respiratory organs and the skin, and also having a hygroscopic structure, which causes loss of re-function when penetrating moisture. .

Therefore, the conventional prefabricated roof panel structure forming insulation with the urethane or glass wool panel alone is difficult to properly expect the thermal insulation function for keeping warm and temperature, leaving functionality such as non-combustible, sound-absorbing and waterproof.

In the case of summer, the heat from the external steel sheet converted into conduction and radiant heat cannot effectively block the inflow, which is a factor of the increase in indoor temperature, and in the winter, it is not possible to block the outside temperature. Can't solve it.

In addition, in the case of the lower panel, the structure is simply bent, the reverberation is severe when the noise inside the building occurs, and condensation on the surface of the steel sheet of the panel cannot be prevented, thus reducing the life of the panel.

In addition, the conventional foldable folding construction system has a problem that it is difficult to structurally prevent the degradation of durability due to leakage, such as rainwater with the limit that can not ensure the installation stability of the ridge part due to the backwind.

The present invention has been conceived from the problems of the prior art as described above, to provide a line curtain loop system that can block the heat or cold flow from the outside in a natural circulation by improving the system between the insulation and the outer steel plate.

Furthermore, the present invention is to provide a line curtain loop system that improves the finish structure of the ridge part to improve the durability against the wind, as well as to ensure installation stability through anti-wind.

In addition, the present invention is to provide a line curtain loop system that improves the energy saving effect for cooling and heating, as well as to improve the waterproofing performance for blocking leakage by typhoons or rainwater.

The line curtain loop system proposed by the present invention includes a ceiling finishing lumen and a roof finishing outer sheet, an insulation and a floor covering material, and includes a hollow guide for air circulation between the insulation material and the exterior steel sheet, and the floor covering material Is characterized in that it is possible to circulate and discharge the air introduced into the hollow guide.

The hollow guide may be formed of a transparent synthetic resin material, and at least one surface of the hollow guide contacting the heat insulating material or the outer steel plate may further include a heat reflecting material for shielding radiant heat.

The hollow guide may be implemented in the form of a clip that can be connected to both sides, including a fastening seat for fixing and installation.

The thermal floor material is provided with an air guide to form a flow path for taking over the air introduced through the hollow guide toward the air vent in addition to the air vent formed with an outlet for air circulation, the air vent and a plurality of air guides are provided Good shape.

The air vent may be formed to protrude an end on the inner upper and lower interlayers so as to prevent the reverse flow of rainwater due to strong winds.

The outer steel plate forms a rainwater blocking wall by erecting one end covered by the ridged flooring material in a vertical direction, and includes a fastening flange for protruding teeth method, wherein the fastening flange is provided with a drain groove blocking the inflow of rainwater at the end. It can be implemented in various ways.

According to the line curtain loop system according to an embodiment of the present invention, including a hollow guide for air circulation between the heat insulating material and the outer steel plate exhibits a technical effect of blocking the heat or cold introduced from the outside in a natural circulation method.

In particular, according to the line curtain loop system according to an embodiment of the present invention, the finishing structure of the ridge part is provided with an air vent formed with an outlet for air circulation, and an air guide to form a flow path to improve durability against rain In addition, technical advantages such as improvement of installation stability through anti-wind can be obtained.

In addition, according to the line curtain loop system according to an embodiment of the present invention, the energy saving effect for cooling and heating, as well as the technical effects such as to increase the waterproof performance that can effectively block the leakage by typhoons or rainwater. .

1 is a schematic diagram showing a construction state of a line curtain loop system according to an embodiment of the present invention.
2 is a cross-sectional view showing the installation and air circulation state for "AA" shown in FIG.
3 is a cross-sectional view showing the installation and air circulation state for "BB" shown in FIG.
4 is a cross-sectional view showing an installation state of "CC" shown in FIG.
5 is an enlarged cross-sectional view of "D" shown in FIG.

Hereinafter, with reference to the accompanying drawings the technical configuration of the line curtain loop system according to an embodiment of the present invention will be described in detail.

First, the line curtain loop system according to an embodiment of the present invention, as shown in Figures 1 to 4, a predetermined heat insulating material 20 between the ceiling finishing steel plate 10 and the roof finishing outer steel plate 30. It is provided, including, a predetermined ridge finishing material 40 is provided on the tip portion that the outer steel plate 30 abuts.

In particular, the line curtain loop system according to an embodiment of the present invention includes a predetermined hollow guide 50 between the heat insulating material 20 and the outer steel plate 30, the thermal floor finishing material 40 is the hollow guide 50 Circulation and exhaust of the air flowing through is configured freely.

Here, the hollow guide 50 may be implemented in various ways using a predetermined synthetic resin material in the form of a pad in which a hollow passage capable of circulating air is arranged continuously, as shown in FIG. 2 or 3.

The hollow guide 50 passes the predetermined air through the hollow passage formed in the center, thereby effectively blocking the conduction and radiant heat transmitted through the outer steel plate 30.

At this time, between the outer steel plate 30 and the hollow guide 50 may be further provided with a heat reflecting material 51 such as silver foil to increase the shielding effect of the radiant heat.

Preferably, as shown in FIGS. 1 to 4, at least one of upper and lower surfaces of the hollow guide 50 which is transparently molded and abuts the heat insulating material 20 and the outer steel plate 30. By further providing the heat reflecting material 51 on the surface, it is good to perform in the direction of increasing the shielding effect of the radiant heat due to the summer sun.

As shown in FIG. 4, the hollow guide 50 may be connected to and provided through a predetermined fastening seat 52.

At this time, the fastening seat 52 is made of a clip form that can be connected to both sides is configured to be installed and fixed using a predetermined screw bolt or pin.

As such, the fastening seat 52 can freely determine the unit size of the hollow guide 50, providing convenience of transportation and delivery, as well as technical advantages such as convenience in handling during construction. Exert.

The shape of the clip of the fastening seat 52 formed on both sides may be variously performed within a corresponding range according to the shape of the connection end formed integrally with the hollow guide 50.

The outer steel plate 30 may be implemented in a form in which rainwater blocking walls 31 are provided at one end covered by the ridged finishing material 40 as shown in FIGS. 2 to 3.

In this case, the rainwater blocking wall 31 may be implemented in a form of installing and mounting a separate implant, but in the form of forming a wall having a predetermined height by erecting one end of the outer steel plate 30 in the vertical direction. Good to do.

The rainwater blocking wall 31 exhibits a technical effect of structurally blocking rainwater that may flow between a gap between the yongmaru finishing material 40 and the outer steel plate 30 during rainy weather accompanied by strong winds. In particular, the rainwater blocking wall 31 formed integrally with the outer steel plate 30 has an effect on the technical configuration to fundamentally block the possibility of leakage than a separate implant shape.

In addition, the outer steel plate 30 may be implemented in a form including a fastening flange 32 for the protruding tooth method. The fastening flange 32 is connected between the outer steel plate 30, as well as inserted between the yongmaru finishing materials 40, as shown in Figure 4, to achieve the function of fixing the installation state.

The fastening flange 32 is provided with a predetermined drain groove 33 at the other end embedded in one end in addition to being coupled in the form of one end embedded in the other as shown in Figure 5 to reliably block the inflow of rain water, etc. It is good to carry out.

The thermal floor finishing material 40 according to an embodiment of the present invention is divided into the air vent 40a and the air guide 40b for each function to be carried out in the form provided with a plurality of the air vent 40a and the air guide 40b It is good.

The air vent 40a is provided with an outlet 41 for air circulation, whereas the air guide 40b is for simply taking over the air introduced through the hollow guide 50 toward the air vent 40a. It can be referred to as a technical configuration that forms a kind of distribution channel 42a.

Accordingly, the air guide 40b may have a single layer structure as shown in FIG. 3, but the air vent 40a may have a more favorable double layer structure as shown in FIG. 2.

In the case of the air vent 40a, the lower layer is further provided with an outside air inflow passage 43, separate from the inner passage 42 associated with the hollow guide 50. The outside air inflow passage 43 is provided in an open form on any one of left and right side surfaces forming the bottom layer of the air vent 40a.

Since the outdoor air inflow path 43 exhibits technical features such as improving durability due to the reverse wind, it ultimately serves to increase the wind resistance test performance of the line curtain loop system according to the embodiment of the present invention.

As can be seen through Figure 4, the air vent 40a and the air guide 40b are installed in succession to each other, the flow path of the inner passage 42 and the air guide 40b of the air vent 40a ( 42a) are provided so that the flow of air can be turned over to each other.

In addition, the upper layer of the air vent 40a may be implemented in a form provided with the outlet 41.

Here, a predetermined boundary wall 45 is formed between the inner passage 42 and the outside air inflow passage 43, but it may be provided in an inclined form as shown in FIG.

As described above, the boundary wall 45 having an inclined shape exhibits technical features such as effectively blocking rainwater that may flow through the outside air inflow path 43 under the influence of a strong wind. For the same reason, the outside air inlet passage 43 may be implemented in such a way as to minimize the possibility of rainwater inflow, such as blocking a part of the upper portion of the open inlet.

The outlet 41 may be configured such that the air introduced through the inner passage 42 and the outside air inlet passage 43 can be separated and discharged to both sides. At this time, it is preferable to form a predetermined branch end 44 between the upper and lower layers of the air vent 40a so as to properly guide the flow of air flowing out of the outlet 41 to both sides.

The air vent 40a may also be implemented in a form including a top cover 47 in the shape of a lampshade. In this case, the upper cover 47 may include a plurality of bent ends 47a so as to be able to deflect the outlet 41 downward.

As such, when the flow of air is deflected downward by the bent end 47a of the upper cover 47, the lower layer of the air vent 40a is pressed by the flow direction of the discharged air. It helps to ensure the installation stability of the yongmaru finishing material 40 by the strong wind.

The air vent 40a may be implemented in a form in which a predetermined protruding end 46 is provided on a surface that separates the upper and lower layers. Here, the protruding end 46 may be referred to as a kind of technical configuration for effectively preventing the rainwater flows back to the discharge port 41 by a strong wind or the like.

In the above, specific embodiments have been described in order to help an understanding of the line curtain loop system according to the present invention. However, the technical spirit of the present invention is not limited to these specific embodiments, and the general scope of the claims and the detailed description of the present invention are given. The extent to which a person skilled in the art can change or modify should also be understood as the scope of the present invention.

10: steel sheet 20: heat insulating material 30: outer steel sheet
31: rainwater blocking wall 32: fastening flange 33: drain groove
40: thermal floor finishing material 40a: air vent 40b: air guide
41: outlet 42: inner passage 42a: distribution channel
43: outside inflow path 44: branch end 45: boundary wall
46: protrusion end 47: top cover 47a: bend end
50: hollow guide 51: heat reflector 52: fastening seat
60: middle purlin

Claims (11)

In the line curtain loop system comprising a ceiling finishing lumen 10 and a roof finishing outer plate 30, insulation 20 and flooring finish 40,
Between the heat insulator 20 and the outer steel plate 30 includes a hollow guide 50 for the air circulation, the thermal floor finishing material 40 is provided to enable the circulation and discharge of the air introduced into the hollow guide 50 And, the outer steel plate (30) is line curtain loop system, characterized in that to form a rainwater blocking wall (31) by standing one end covered in the vertical floor covering in the vertical direction. The method according to claim 1,
The hollow guide 50 is provided with a transparent synthetic resin material, and at least one surface of the hollow guide 50 in contact with the heat insulating material 20 or the outer steel plate 30 is a heat reflecting material 51 for blocking heat radiation Line curtain loop system, characterized in that further provided. The method according to claim 1,
The hollow guide 50 is in the form of a clip that can be connected to both sides, line curtain loop system, characterized in that it comprises a fastening seat (52) for fixing and installation. The method according to claim 1,
The thermal floor finishing material 40 is an air vent 40a having an outlet 41 for air circulation and a flow passage 42a for taking over air introduced through the hollow guide 50 toward the air vent 40a. Line curtain loop system, characterized in that provided with a plurality of air guide (40b) forming a). The method of claim 4,
The air vent (40a) is a multi-layered structure in the upper and lower cylinders, in the lower layer in addition to the inner passage 42 associated with the hollow guide 50, the outside air inlet passage 43 is open to any one of the left and right sides Line curtain loop system, characterized in that the top layer is provided with the outlet (41). The method according to claim 5,
The outlet 41 is a line characterized in that the air introduced through the inner passage 42 and the outside air inlet passage 43 is separated and discharged to both sides by a branch end 44 formed between the upper and lower layers. Curtain loop system. The method according to claim 5,
Line curtain loop system, characterized in that the boundary wall 45 is formed to be inclined between the inner passage 42 and the outside air inlet passage 43 to block the inflow of rain water by the outside air. The method of claim 6,
The air vent (40a) is a line curtain loop system, characterized in that the top cover (47) including a bent end (47a) for refracting the outlet (41) is provided in the shade. The method according to claim 5,
The air vent (40a) is a line curtain loop system, characterized in that to form a protruding end (46) on the inner upper and lower interlayer plane to prevent the backflow of rain water by the strong wind. delete The method according to any one of claims 1 to 9,
The outer steel plate 30 includes a fastening flange 32 for protruding it, the fastening flange 32 is a line curtain loop, characterized in that the drain groove 33 is provided at the end to block the inflow of rainwater system.

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