KR100584244B1 - Structure of artificial falls and method for constructing the same - Google Patents

Abstract

The present invention relates to a structure of the artificial waterfall and its construction method. The present invention has a predetermined height retaining wall (11) provided inside the artificial waterfall is formed; Glass Fiber Reinforced Cement (GRC) artificial cancer 15 forming the appearance of artificial waterfalls; And a support member 13 installed between the retaining wall 11 and the GRC artificial arm 15 to connect and support the retaining wall 11 and the GRC artificial arm 15, wherein the GRC artificial arm 15 FRP (Fiberglass Reinforced Plastics) (19) is applied to the inner side. In this case, the primer 17 may be first applied to the inner portion of the GRC artificial arm 15 and then the FRP 19 may be applied. In addition, after applying the FRP (19), the FRP (20) can be applied to the joint portion of the GRC artificial cancer panel again to strengthen the tensile strength of the GRC artificial cancer (15).

Artificial waterfall, GRC, FRP, primer

Description

Artificial waterfall structure and construction method {STRUCTURE OF ARTIFICIAL FALLS AND METHOD FOR CONSTRUCTING THE SAME}             

1 is a cross-sectional view showing a preferred embodiment of the artificial waterfall structure according to the present invention.

FIG. 2 is a cross-sectional view showing a state in which glass fiber reinforced plastics (FRP) are reapplied to a connection portion of a glass fiber reinforced cement (Glassfiber Reinforced Cement; hereinafter 'GRC') artificial cancer panel. .

<Description of Symbols for Main Parts of Drawings>

11: retaining wall 13: support member

15: GRC artificial cancer 17: primer

19: FRP

The present invention relates to an artificial waterfall structure and a construction method thereof, and more particularly, to an artificial waterfall structure having a light weight and enhanced tensile strength and its construction method.

Artificial waterfall structure is composed of artificial rock, retaining wall and support members.

In order to install the artificial waterfall structure, first, a retaining wall is installed in the longitudinal direction on the inner side of the artificial waterfall. The retaining wall is poured with concrete, and the height of the artificial waterfall to be installed is controlled by the retaining wall.

Artificial rocks used for sculptures such as artificial waterfalls are formed of a material that is resistant to heat and does not discolor even when exposed to ultraviolet rays for a long time. Therefore, artificial rocks are mainly made of glass fiber reinforced cement (hereinafter referred to as 'GRC'). Form. In addition, such GRC artificial rock is formed to give a feeling of natural stone.

A support member is provided between the retaining wall and the GRC artificial arm to connect them or support the GRC artificial arm. Steel structure is mainly used as the support member, and is fixed to the retaining wall by fixing means such as anchor bolts, or connected to the retaining wall and the GRC artificial arm by welding or the like.

At this time, the GRC artificial cancer forming the appearance of the artificial waterfall is connected to a plurality of GRC artificial cancer panels, each panel is connected by the lath, mortar and the like. However, when each panel of the GRC artificial cancer is connected by mortar or the like, there is a problem that a crack occurs in the connecting portion after a long time. Therefore, conventionally, shotcrete was sprayed on the inner side of the GRC artificial arm in order to minimize the occurrence of cracks in the connection between the panels of the GRC artificial arm.

However, when spraying shotcrete on the inner side of GRC artificial arm, the following problems occur.

The total thickness of the artificial rock in which shotcrete and GRC artificial cancer are integrated is about 10 ~ 15㎝, and the load per 1m2 of the artificial rock reaches 150 ~ 200㎏. Can't be completely prevented.

When a crack occurs in the connection portion of the GRC artificial arm panel, rainwater or artificial waterfalls are introduced into the cracks to corrode the supporting member, which is a steel structure installed inside the GRC artificial arm. When the support member is corroded, the force for supporting the artificial cancer is weakened, so that the shape of the artificial cancer is deformed or the artificial waterfall collapses.

In addition, when the artificial waterfall is installed on the building, the building must be able to bear the load of the artificial waterfall, there is a problem that the place where the artificial waterfall can be installed if the load of the GRC artificial cancer increases.

The present invention has been made to solve the conventional problems as described above, an object of the present invention, by applying a glass fiber reinforced plastics (hereinafter referred to as 'FRP') on the inner side of the GRC artificial arm, GRC The present invention provides an artificial waterfall structure and its construction method that can prevent the collapse and change of the artificial waterfall by minimizing the occurrence of cracks and corrosion of supporting members by strengthening the artificial rock's tensile strength.

Another object of the present invention is to strengthen the tensile strength of the GRC artificial cancer to form an artificial waterfall by applying FRP on the inner side of the GRC artificial cancer, and at the same time reduced the total thickness of the GRC artificial cancer lightweight artificial waterfall structure and its To provide a construction method.

In order to achieve the above object, the artificial waterfall structure of the present invention has a predetermined height retaining wall provided inside the artificial waterfall is formed; GRC artificial cancer forming the appearance of artificial waterfall; And an artificial waterfall structure provided between the retaining wall and the GRC artificial arm and having a supporting member for connecting and supporting the retaining wall and the GRC artificial arm, wherein the FRP is applied to the inner side of the GRC artificial arm.

At this time, a primer (primer) may be first applied to the inner portion of the GRC artificial cancer, and then FRP may be applied.

In addition, the GRC artificial cancer is formed by connecting a plurality of GRC artificial cancer panels, FRP can be applied again to the connection portion of the GRC artificial cancer panel of the inner portion of the GRC artificial cancer.

In addition, in order to achieve the above object, the construction method of the artificial waterfall structure of the present invention comprises the steps of installing a retaining wall having a predetermined height inside the artificial waterfall is formed; installing a support member on the side of the retaining wall; And installing a GRC artificial arm forming an outer shape of the artificial waterfall on the support member, wherein the construction method of the artificial waterfall structure is characterized in that FRP is applied to an inner portion of the GRC artificial arm.

At this time, a primer (primer) may be first applied to the inner part of the GRC artificial cancer and then FRP may be coated.

In addition, the GRC artificial cancer is formed by connecting a plurality of GRC artificial cancer panels, FRP can be applied again to the connection portion of the GRC artificial cancer panel of the inner portion of the GRC artificial cancer.

According to the artificial waterfall structure and construction method thereof according to the present invention, it is possible to minimize the crack of the GRC artificial cancer by increasing the tensile strength of the GRC artificial cancer can prevent the collapse of the artificial waterfall and change of shape. In addition, according to the present invention, since the thickness of the GRC artificial cancer can be reduced to 15 ± 3 mm ultra-light weight, it can significantly reduce its own load. Will receive.

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

1 is a cross-sectional view showing a preferred embodiment of the artificial waterfall structure according to the present invention.

As shown in FIG. 1, the artificial waterfall structure according to the present invention has a retaining wall 11 installed at a predetermined height inside the artificial waterfall is largely installed, the GRC artificial arm 15 and the retaining wall 11 forming the outer shape of the artificial waterfall. ) And a support member 13 for connecting and supporting the GRC artificial arm 15.

The retaining wall 11 is installed in concrete in consideration of the surrounding environment of the artificial waterfall to be installed, and is installed in a predetermined length direction by the height of the artificial waterfall to be installed.

On one side of the retaining wall 11, the support member 13 is fixed by fixing means 12 such as an anchor bolt. Support member 13 is usually made of a steel structure, and serves to support the GRC artificial arm (15).

At this time, one end of the support member 13 is connected to the GRC artificial arm 15 and the other end of the support member 13 is connected to the retaining wall 11 or the support member 13 fixed to the retaining wall 11, thereby making the GRC artificial arm (15) can be supported.

On the other hand, the outer side of the support member 13 is provided with a GRC artificial arm 15 having a thickness of about 15 ± 3mm. Artificial cancers used in sculptures such as artificial waterfalls are preferably formed of a material that is resistant to heat and does not discolor even when exposed to ultraviolet rays for a long time.

The GRC artificial cancer 15 forming the appearance of the artificial waterfall is connected to a plurality of GRC artificial cancer panel, the GRC artificial cancer panel is connected by mortar and the like, and finished with GRC.

However, when the GRC artificial cancer panels are connected to each other only by mortar or the like, there is a problem that cracks occur in the connecting portion 16 due to elapsed time or temperature change. Apply.

Before applying the FRP 19 to the inner side of the GRC artificial arm 15, a primer (primer) on the inner side of the GRC artificial arm 15 can be attached to the inner side of the GRC artificial arm 15 so that the FRP 19 can be adhered well to the inner side of the GRC artificial arm 15. 17) can be applied.

Here, the primer 17 serves to neutralize the toxic alkaline components present in the GRC artificial cancer 15 as well as the adhesive. In addition, when the waterproofing component is added to the primer 17 and applied to the GRC artificial arm 15, the waterproofing effect of the GRC artificial arm 15 may be enhanced.

Application of the FRP 19 to the inner side of the GRC artificial arm 15 to which the primer 17 is applied increases the strength of the GRC artificial arm 15 due to the material properties of the FRP 19. Here, FRP is a composite structural agent impregnated with an unsaturated polyester resin using fiber glass as a main reinforcing agent, and is lighter than aluminum and superior in corrosion resistance, heat and corrosion resistance than iron. It is a semi-permanent material with very high strength and is a new material that is expanding its application field in all industries.

Since FRP is a plastic, it is much lighter than cement, GRC, and has a much higher tensile strength. The tensile strength is approximately 1/4 of iron. Such FRP is widely used in real life such as bathtubs, septic tanks, ships of 5t or less, pipes, interior and exterior materials for construction.

On the other hand, after applying the FRP 19 to the inside of the GRC artificial arm 15 as a whole, the FRP 20 can be applied to the connection portion 16 of the GRC artificial cancer panel again.

2 is a cross-sectional view showing a state in which FRP is applied again to the connection portion of the GRC artificial cancer panel.

The GRC artificial cancer 15 is formed by connecting a plurality of GRC artificial cancer panels, as shown in Figure 2, the FRP 20 is applied to the connection portion of the GRC artificial cancer panel of the inner portion of the GRC artificial cancer 15 again Thereby, the crack of the connection part 16 of a GRC artificial cancer panel can be prevented more effectively.

Hereinafter, the construction method of the artificial waterfall structure according to the present invention configured as described above will be described in detail.

First, the retaining wall 11 of desired height is installed by cement or the like. After the retaining wall 11 is installed, the supporting member 13 formed of the steel structure is fixed to the retaining wall 11. At this time, the supporting member 13 is mainly fixed to the retaining wall 11 by fixing means 12 such as an anchor bolt.

After fixing one of the supporting members 13 to the retaining wall 11, another supporting member 13 is connected to the supporting member 13 fixed to the retaining wall 11 by welding or the like. In this case, as shown in FIG. 1, the support members 13 may be connected to each other to support the GRC artificial arm 15 more firmly.

On the other hand, GRC artificial arm 15 is installed on the outer side of the support member 13, and before the installation is connected to the connection portion 16 of the GRC artificial arm panel by mortar or the like and ends with GRC.

After each panel of the GRC artificial arm 15 is connected, a primer 17 having waterproof and adhesive properties is applied to the inner side of the GRC artificial arm 15.

After the primer 17 is applied, the FRP 19 is applied to the inner side of the GRC artificial arm 15 using a brush or a sprayer. However, the method of applying the FRP 19 to the inner side of the GRC artificial arm 15 is not limited to the above method, and any method as long as the method can be applied to the inner side of the GRC artificial arm 15. It can be used even.

At this time, although only one layer of FRP 19 may be applied to the inside of the GRC artificial arm 15 as a whole, after applying the FRP 19 to more effectively prevent the crack of the connecting portion 16 of the GRC artificial arm panel, The FRP 20 may be applied to the connection portion of the GRC artificial cancer panel in the inner portion of the GRC artificial cancer 15 again.

Thereafter, the construction of the artificial waterfall structure is completed by connecting the GRC artificial arm 15 to which the FRPs 19 and 20 are applied to the support member 13 by welding or the like.

According to the present invention, since the tensile strength of the GRC artificial cancer can be further strengthened than the GRC artificial cancer by the conventional shotcrete method, it is possible to reduce the weight of the GRC artificial cancer and minimize the crack of the GRC artificial cancer.

Therefore, it is possible to minimize the corrosion of the internal support member due to the cracking of the artificial waterfall water into the GRC artificial cancer due to cracks, it is possible to prevent the collapse of the artificial waterfall and to change the shape. In addition, the GRC artificial cancer can be reduced in weight, so that the location constraints for installing the artificial waterfall are relatively less.

As mentioned above, although this invention was demonstrated in detail through the specific Example, this invention is not limited to the said Example, A various deformation | transformation is possible for a person with ordinary knowledge within the scope of the technical idea of this invention. .

According to the present invention, the tensile strength of the GRC artificial cancer can be increased by applying FRP to the inner portion of the GRC artificial cancer. Therefore, it is possible to prevent the collapse of the artificial waterfall or the change of shape by minimizing the corrosion of the internal support member due to the occurrence of cracks and leakage to the GRC artificial cancer due to elapsed time or temperature change.

In addition, according to the present invention, by applying the FRP to the inner portion of the GRC artificial arm can strengthen the tensile strength of the GRC artificial cancer, it is possible to significantly reduce the self-load by ultra-lightening the GRC artificial cancer compared to the conventional shotcrete method . Therefore, the range of places where the artificial waterfall can be installed is widened, and the force applied to the building or ground on which the artificial waterfall is installed is relatively small, so that the artificial waterfall can be safely and permanently installed.

Claims (6)

A retaining wall having a predetermined height and provided inside the artificial waterfall; Glass Fiber Reinforced Cement (GRC) artificial cancer forming the appearance of the artificial waterfall; And An artificial waterfall structure having a support member installed between the retaining wall and the GRC artificial arm to connect and support the retaining wall and the GRC artificial arm, Artificial waterfall structure, characterized in that to apply the fiberglass reinforced plastics (FRP) on the inner side of the GRC artificial cancer. The method of claim 1, An artificial waterfall structure, characterized in that the first applying the primer (primer) to the inner portion of the GRC artificial cancer and then applying the FRP. The method according to claim 1 or 2, The GRC artificial cancer is made by connecting a plurality of GRC artificial cancer panel, the artificial waterfall structure, characterized in that the FRP is applied again to the connection portion of the GRC artificial cancer panel of the inner portion of the GRC artificial cancer. Installing a retaining wall having a predetermined height inside the artificial waterfall is formed; Installing a support member on a side of the retaining wall; And A construction method of an artificial waterfall structure comprising the step of installing a GRC artificial arm to form the appearance of the artificial waterfall on the support member, Construction method of the artificial waterfall structure, characterized in that to apply the FRP to the inner portion of the GRC artificial arm. The method of claim 4, wherein A method of constructing an artificial waterfall structure, characterized in that the first applying the primer (primer) to the inner portion of the GRC artificial cancer and then applying the FRP. The method according to claim 4 or 5, The GRC artificial cancer is made by connecting a plurality of GRC artificial cancer panel, the construction method of the artificial waterfall structure, characterized in that FRP is applied again to the connection portion of the GRC artificial cancer panel of the inner portion of the GRC artificial cancer.

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