LEAKAGE PREVENTION DRAINAGE TRAP WITH JOINT REINFORCING MEMBER, AND INSTALLATION METHOD THEREOF

Abstract

The present disclosure relates to, in a drainage trap including a drainage pipe inserted into a drainage hole and an inlet portion formed at a top of the drainage pipe with a plurality of holes formed therein for performing a filtering function during drainage, a leakage prevention drainage trap with a joint reinforcing member and an installation method thereof. The joint reinforcing member 120 formed of a resin mesh or a metal mesh is coupled to an edge 113 of the drainage trap to be positioned between an upper portion of a mortar layer and tiles and is installed in a joint cement between the drainage trap and the tiles to firmly reinforce the joint cement.

Claims

1. A leakage prevention drainage trap with a mesh-shaped joint reinforcing member formed therein, comprising: a drainage pipe inserted into a drainage hole; and an inlet portion formed at a top of the drainage pipe with a plurality of holes formed therein for performing a filtering function during drainage, wherein a groove is formed along an edge of a drainage trap, joint reinforcing member is formed of a resin-made or metal-made mesh having a hole at a central portion and placed between a mortar layer and floor tiles, an edge of the central portion of the mesh is bent downward and inserted into the groove, and in the groove and in a gap between a drainage trap edge and the floor tiles, a joint cement is filled and placed by using the mesh as an aggregate.

2. An installation method of a leakage prevention drainage trap with a mesh-shaped joint reinforcing member formed therein, comprising: inserting a drainage trap into a drainage pipe and forming a mortar layer on a concrete layer to reach a top portion of the drainage trap; placing a joint reinforcing member, which is formed of a resin-made or metal-made mesh having a hole at a central portion, on the mortar layer by inserting an edge of the central portion of the mesh into a groove formed at an edge of the drainage trap; installing floor tiles on the joint reinforcing member and the mortar layer; and filling a joint cement in the groove, in a gap between the drainage trap and the floor tiles, and in a gap between the floor tiles.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0023] FIG. 1 is a cross-sectional view showing a drainage trap installed in one embodiment of the present disclosure.

[0024] FIG. 2 shows a plan view of a configuration of the present disclosure.

DETAILED DESCRIPTION

[0025] FIG. 1 is an installation cross-sectional view of the present disclosure, and FIG. 2 shows a plan view of a configuration. The installation is performed through a step of forming the mortar layer 150 on the concrete layer 210, a step of inserting the drainage trap coupled with the joint reinforcing member into the drainage pipe 200, a step of installing tiles 160 on the joint reinforcing member 120 and the mortar layer 150, and a step of filling a joint cement in a gap between the drainage trap 110 and the tiles 160 and a gap between the tiles. As shown in FIG. 1, a groove 114 is formed on an edge 113 of the drainage trap 110, and the joint reinforcing member is hooked into the groove and coupled thereto.

[0026] As shown in FIGS. 1 and 2, the tiles 160 are installed on the joint reinforcing member 120 in such a manner that a portion of the joint reinforcing member 120 overlaps with the tiles 160.

[0027] The joint cement is installed by being filled in the joint 130 and is firmly formed by being solidified with the mesh-shaped joint reinforcing member inserted therein. Therefore, cracking or damage does not occur even after a long-term use, and as a result, there is a remarkable effect of preventing the occurrence of water leakage in the vicinity of the drainage trap 110.

[0028] The joint reinforcing member is formed of a mesh type such as a metal mesh, a resin mesh or the like, and the joint cement enters holes of the joint reinforcing member to form a solid bond with the mesh. With this structural reinforcement, the joint cement is stably maintained against cracking or separation caused by damage.

[0029] The configuration of the present disclosure is not limited to the above embodiment, and includes various embodiments that can be implemented within the general technical scope.