KR101123031B1 - Insulating roof - Google Patents

Abstract

The present invention relates to a roof plate reinforcement structure of a prefabricated roof,
Roof plate 100 to be bent in a predetermined form to form a plurality of mountain portion 120 and the connection portion 110 is formed at the height of the mountain portion 120 at both edges to connect the connection portion 110 to each other; The connecting device is fixed to the upper end of the support bolt (B) fixed to the upper end of the building at the bottom of the connecting portion 110 while the upper bolt is fastened through the connecting portion 110 is connected to connect the roof plate 100 200; Mountain support 300 is fixed to the support bolt (B) fixed to the top of the building from the bottom of the mountain 120 is installed to support the mountain 120 of the roof plate 100; And a heat insulating material 500 disposed on the bottom surface of the roof plate 100 and supporting the heat insulation and the roof plate 100, wherein the connection part 110 and the bottom part of the mountain part 120 are reinforced. Characterized in that the plate 800 is installed to support the external impact,
As the mount and the connection part are supported by the reinforcing plate, even if an external impact is applied, it is not easily damaged or crushed. Therefore, the restriction of the worker's activity is reduced, thereby improving the convenience of construction work. The present invention relates to a roof plate reinforcement structure of a prefabricated roof that can prevent leakage caused by drilling.

Description

Roof plate reinforcement structure of prefabricated roof {INSULATING ROOF}

The present invention relates to a roof plate reinforcement structure of a prefabricated roof, and more particularly, by reinforcing a structurally weak portion, it is possible to inadvertently impact a variety of external impacts that may inadvertently impact or otherwise occur when a worker constructs a roof. The present invention relates to a roof plate reinforcement structure of a prefabricated roof that is configured to withstand and not be damaged.

In building structures, roofs are essential elements, such as preventing rain and keeping warm. Such a roof is composed of various forms. In the case of a traditional house, a thatched roof and a tiled roof are used. In recent years, an example of constructing a roof by pouring concrete has been widely applied.

On the other hand, in the case of large-scale building structures such as factories, warehouses, and gymnasiums, it is difficult to form a roof in a way that is applied in houses such as concrete, and roof plates such as slate, tin, tin plate, etc. The roof was formed by arranging them next to each other. In other words, the frame was woven by using wood at the point where the roof is to be formed, the roof plates were arranged on the frame in turn, and then the nail was formed to form the roof. In particular, such a method has been widely used because of the low cost.

By the way, the structure formed by the roof plate as described above was only to install a thin roof plate, there is a disadvantage that the thermal insulation function is significantly reduced because there is no separate insulation configuration. In addition, there is a high risk of being damaged by an external stimulus because it is fragile, the utilization is falling.

As a result, roof panels are increasingly formed using sandwich panels. The sandwich panel is formed to a certain thickness and the insulation is included so it has high strength and excellent thermal effect. However, the sandwich panel as described above is manufactured to a certain standard, and the roofs should be installed by connecting them to each other, which has a disadvantage in that it is difficult to process the connected parts. Because it is formed to a thickness of 5 ~ 10cm, the connection part can not be poked or glued, bar was covered with a separate thin metal plate and nailed treatment.

In the above case, the connection members such as nails are exposed to the outside, so that the appearance is not neatly processed, and a serious problem may occur due to leaks, such as rain, which does not properly prevent the gap of the connection part.

In particular, in the conventional method as described above, there was a difficulty in installing and maintaining the existing roof as it is, and in order to repair the existing roof, the existing roof had to be removed and installed.

Therefore, the above-mentioned problem can be solved by not only installing a new roof but also repairing an existing roof, which can be easily installed to ensure warmth and prevention of leakage, and is easy to install and has a beautiful appearance after installation. Was needed.

Therefore, the applicant has proposed a "prefabricated roof installation structure" to the patent application No. 10-2009-0072897. This prefabricated roof installation structure is shown in Figure 1, bent in a predetermined form a plurality of mountain portion 120 is formed and the connection portion 110 is formed at the height of the mountain portion 120 at both edges of the connection portion 110 ) Roof plate 100 is installed to connect to each other, the lower end is fixed to the upper end of the support bolt (B) fixed to the top of the building while the upper bolt is penetrated through the connecting portion 110 on the roof The connection device 200 for connecting the plate 100 is provided, the lower end is fixed to the support bolt (B) fixed to the upper end of the mountain support 300 is installed to support the mountain 120 of the roof plate 100 Is provided to connect and support the roof plate 100, but the cap device 400 is fixedly installed to the connection device 200 from the top of the roof plate 100 is provided with the connection portion 110 is fastened bolts It is configured to cover.

In this case, the heat insulating material 500 is disposed on the bottom surface of the roof plate 100, and simultaneously serves to support the roof plate 100, and fix the connection device 200 and the mountain support 300. The auxiliary frame 600 is fixed to the lower end of the support bolt (B) is provided to further install the auxiliary frame 600 on the existing roof upper surface formed in the building to be configured to install the roof plate 100 on the existing roof upper surface Will be.

However, when installing the roof according to the conventional prefabricated roof installation structure as described above, the worker climbed on the roof to perform the assembly work. Therefore, the worker stepping on the roof plate 100 frequently occurs. However, at this time, the portion in which the connection portion 110 and the mount portion 120 are formed is empty as the heat insulator 500 is not filled, unlike other portions, and thus the worker carelessly connects the connection portion 110 and the mount portion 120. When the part is impacted, it is frequently pressed and crushed.

In particular, the connecting device 200 and the mountain support 300 is fixed to the installation frame 700 installed at a predetermined interval on the top of the building bar, the distance between the installation frame 700 is vulnerable to external pressure in the middle part, Therefore, in the middle part, when the impact or load is applied from the outside, the roof plate 100 is easily bent or damaged.

As described above, when the connection part 110 and the mountain part 120 are crushed and damaged, the appearance is not good and the replacement part 110 and the mount part 120 have to be replaced. Furthermore, in the crushed part, when the coating is peeled off, rust is generated, and if the roof plate 100 is torn or punched by the impact if it is pierced or severely over time, it causes a problem of leakage. will be.

In the present invention, in the construction of the roof using a roof plate formed of the peak and the connecting portion to reinforce the strength of the peak and the connecting portion so that even if an impact from the outside is not easily damaged or crushed.

In the present invention, by providing a reinforcing plate that can support the peak and the connecting portion is installed on the bottom of the peak and the reinforcement by reinforcement so that even if an external impact is not easily damaged or crushed to achieve the above object.

According to the present invention, the mount and the connection part are supported by the reinforcing plate, so that even if an external impact is applied, the damage is not easily damaged or crushed, thus reducing the worker's activity constraints and improving the convenience of construction work. It is possible to prevent the leakage caused by the puncture damage and the connection source.

1 is an exploded perspective view schematically showing a conventional roof plate installation structure,
Figure 2 is an exemplary view showing a state in which the roof plate is applied to the present invention,
3 is an exploded perspective view schematically showing a roof plate installation structure to which the present invention is applied;
Figure 4 is an enlarged view showing an example in which the reinforcing plate is formed in the connecting portion according to the present invention,
5 is a coupled state of Figure 4,
6 is an enlarged excerpt showing an example in which the reinforcing plate is formed in the mountain portion according to the present invention;
7 is a coupled state of Figure 6,
8 is another embodiment of the reinforcing plate according to the present invention.

The present invention for achieving the above object will be described in detail with reference to FIGS. 2 to 8.

2 is an exemplary view showing a roof plate installed with the present invention, FIG. 3 is an exploded perspective view schematically showing a roof plate installation structure to which the present invention is applied, and FIG. 4 shows an enlarged example in which a reinforcing plate according to the present invention is formed in a connection part. 5 is an exploded view showing an example in which the reinforcing plate according to the present invention is formed on the ridge, FIG. 7 is a combined state of FIG. 6, and FIG. Is another embodiment of the reinforcement plate.

Prefabricated roof applied to the present invention is formed on the roof plate 100, the connection portion 110 and the mountain portion 120 is formed, the connection device 200 for connecting and supporting the roof plate 100, the roof plate 100 The mountain support 300, which supports the mountain portion 120 is to be, the cap device 400 to cover the point where the roof plate 100 and the roof plate 100 is connected as a basic configuration, the bottom surface of the roof plate 100 It is configured to have a thermal insulation function by providing a further insulation 500 in the.

In the present invention in the prefabricated roof having the basic configuration as described above is to provide a reinforcement plate 800 to be configured to reinforce the strength by installing on the bottom surface of the connecting portion 100 and the mountain support (300).

The roof plate 100 is a metal or synthetic resin plate having a predetermined width is bent in a predetermined shape to form a plurality of mountain portion 120, the connection portion 110 is formed at the height of the mountain portion 120 at both edges. Roof plate 100 as described above is responsible for the function of the roof by connecting to install in a state in which the connecting portion 110 is superimposed on each other.

The connection device 200 is fixed to the upper end of the support bolt (B) fixed to the upper end of the building, the upper end of the bolt penetrating the overlapped point when the connection portion 110 of the adjacent roof plate 100 is connected Is fastened to connect the roof plate 100. The connection device 200 as described above is formed at the inner top shape of the connection part 110 to simultaneously connect the roof plates 100 to each other and support the connected parts.

The mountain support 300 is fixed to the support bolt (B) fixed to the upper end of the building, as in the connecting device, the upper shape is formed in the same shape as the upper upper end of the mountain portion 120 of the roof plate 100 Interview with each other to serve to support the mountain 100.

The roof plate 100 is connected to each other by the configuration of the connection device 200 and the mountain support 300 as described above, and also supports the load at regular intervals. At this time, the bottom of the connecting portion 110 and the peak portion 120 supported by the connecting device 200 and the mountain support 300, the reinforcement plate having the same bending form as the shape of the connecting portion 110 and the peak portion 120 ( 800) will be provided and padded. That is, the reinforcing plate 800 is padded between the connecting part 110 and the connecting device 200 and between the mountain part 120 and the mountain support part 300, thereby connecting the connecting part 110 and the mountain part 120 from the outside. ) Even if an impact is applied, it will be able to support it.

On the other hand, the reinforcement plate 800 can be installed only in any one of the connecting portion 110 and the mountain portion 120, but is preferably installed in both places. In addition, the reinforcing plate 800 is configured to have a length supporting the entirety of the connecting portion 110 and the peak portion 120, or as shown in Figure 8 is formed in a length of 30 ~ 100cm the connection device ( By being supported by the 200 and the mountain support 300, respectively, it can be configured to support only a part of the entire length of the connecting portion 110 and the mountain portion 120.

Here, the reinforcement plate 800 has a predetermined length so as to be supported by the connecting device 200 and the mountain support 300, respectively, so as to support only a part of the entire length of the connecting portion 110 and the mountain portion 120. The reason for the configuration is that, in general, when the work of installing the prefabricated roof, the operator mainly stepped on the part where the connection device 200 and the mountain support 300 is fixed to the installation frame 700 is supported by the roof plate 100 is not crushed at this time, because the length of the connecting device 200 and the mountain support 300 is short, if the stepping position is slightly misaligned roof plate 100 may be distorted to support the portion will be.

The cap device 400 is installed to be fixed to the connection device 200 from the top of the roof plate 100, the clip 410 and the clip is disposed in contact with the upper surface of the connection portion 120 is connected. Consists of a cover 420 elastically coupled to the plate 410, the bolt is fastened to cover the connecting portion 110 connected to each other. Through such a configuration, the exterior of the bolt is not exposed to the outside, and the exterior becomes beautiful. In particular, since the connection part 110 is completely covered, rainwater can be prevented from flowing through the connection part 110.

The heat insulating material 500 is formed in a plate shape and is installed on the bottom surface of the roof plate 100. As such, when the insulation 500 is installed, the connection device 200 and the mountain support 300 are installed to be positioned on the top surface of the insulation 500 as shown. This is a natural configuration for allowing the roof plate 100 to be connected and supported. The heat insulation of the roof portion is ensured by the configuration of the heat insulator 500, and thus it is possible to prevent waste of energy due to heat loss. In addition, the heat insulator 500 absorbs external shocks by supporting parts other than the connection part 110 and the peak part 120 as a whole.

Prefabricated roof according to the present invention described above can be installed as a roof of a new building, otherwise it is also possible to install on the existing roof. This will be described in detail below.

When installed as a roof of a new building, the installation frame 700 for arranging the roof in advance is disposed on the top of the building, and fixing the support bolt (B) to the installation frame 700 so that the screw thread toward the side of the connecting device (200) and the mountain support 300 will be fixed to the support bolt (B).

When installed on the existing roof, the auxiliary frame 600 is fixed to the lower end of the support bolt (B) for fixing the connection device 200 and the mountain support 300, and the auxiliary frame 600 is formed in the building It is fixed to the upper surface of the existing roof. At this time, the support bolt (B) is passed through the auxiliary frame 600 from the bottom to the screw thread is fixed upwards, bar coupling device 200 and the mountain support 300 can be coupled to the support bolt (B). To ensure that And the auxiliary frame 600 is preferably fixed to the upper surface of the existing roof using a bolt, the shape is formed in the form of a plate having the same curvature as the existing roof to be in close contact with the installation to minimize space and It is to ensure the reliability.

According to the roof plate reinforcement structure of the prefabricated roof according to the present invention as described above can be conveniently installed on the existing roof as well as new buildings, the mountain portion 120 and the connecting portion 110 is reinforced by the reinforcement plate 800 Since it is not easily damaged or crushed even when an external impact is applied, the operator can perform the roof installation work more conveniently, and also prevents leakage caused by being drilled due to damage or crushing.

100: roof plate, 110: connection portion,
120: obstetric, 200: connector,
300: mountain support, 400: cap device,
500: insulation, 600: auxiliary frame,
700: installation frame, 800: reinforcement plate.

Claims (3)

Roof plate 100 to be bent in a predetermined form to form a plurality of mountain portion 120 and the connection portion 110 is formed at the height of the mountain portion 120 at both edges to connect the connection portion 110 to each other;
The connecting device is fixed to the upper end of the support bolt (B) fixed to the upper end of the building at the bottom of the connecting portion 110 while the upper bolt is fastened through the connecting portion 110 is connected to connect the roof plate 100 200;
Mountain support 300 is fixed to the support bolt (B) fixed to the top of the building from the bottom of the mountain 120 is installed to support the mountain 120 of the roof plate 100; And
It is configured to include;
Roof plate reinforcement structure of the prefabricated roof, characterized in that the reinforcement plate 800 is installed on the bottom of the connecting portion 110 and the mountain portion 120 to support the external impact. The method according to claim 1,
The reinforcement plate 800 is formed to be supported by the connecting device 200 and the mountain support 300, respectively, is formed of a length of 30 ~ 100cm only a portion of the entire length of the connecting portion 110 and the mount 120 Roof plate reinforcement structure of the prefabricated roof, characterized in that configured to support. The method according to claim 1,
The reinforcement plate 800 is formed to be supported by the connecting device 200 and the mountain support 300, respectively, characterized in that it is formed to have a length to support the entirety of the connecting portion 110 and 120. Roof plate reinforcement of prefabricated roof.

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