KR200439333Y1 - Drainage Trench Unit - Google Patents

Abstract

The present invention relates to a drain trench unit that can build a drain trench by fitting assembly using a connecting socket. The drain trench unit 100 according to the present invention includes a bottom wall 112 and both side walls 113 and a bottom wall 112 and both side walls 113 forming a drainage passage 111 having a predetermined width, height, and length. A trench body 110 having a first fitting concave-convex 114 formed on at least a portion of the outer side surface; And a bottom wall 121 and both side walls 122 corresponding to the bottom wall 112 and the both side walls 113 of the trench body 110, wherein the first walls of the two adjacent trench bodies 110 are adjacent to each other. A connection socket 120 having a fitting fitting protrusion 114 fitted at each end thereof to each of the fitting fitting protrusions 123 connecting the two adjacent trench bodies 110 to each other; In this case, the first fitting concave-convex 114, the groove 114d formed in the bottom wall 112, the projections 114e formed in the central portion of the side wall 113, and the side wall ( A hole 114f opened downward on top of 113; The second fitting recesses and protrusions 123 are formed at positions corresponding to the recesses 114d in the extension portions 121a protruding from both sides of the bottom wall 121 to be fitted into the recesses 114d ( 123d), a slot 123e formed at a position corresponding to the protrusion 114e and fitted into the hole 114f, and a slot 123e formed at a position corresponding to the hole 114f. It characterized in that it comprises a projection 123f.

Description

Drainage Trench Unit

The present invention relates to a drain trench unit, and more particularly to a drain trench unit that can build a drain trench by fitting assembly using a connecting socket.

It is common to establish a drainage trench for collecting sewage and discharging it to sewage on the floor where sewage needs to be treated, such as a parking lot floor.

One way to build drainage trenches is to build drainage trenches directly on site by laying bricks when placing floor concrete.However, this construction method is low in productivity and does not fit well in the resulting trenches. Since various problems can be caused, a technique for building drainage trenches by manufacturing standardized drainage trench units as off-the-shelf in a factory and not as a construction site and assembling these ready-made drainage trench units on the floor when placing floor concrete The drainage trench unit is made of various materials such as concrete, metal and plastic synthetic resin.

One of the challenges in constructing drain trenches with drain trench units is that a great deal of time and effort must be spent connecting the units to the proper draft without gaps.

That is, in the conventional method of connecting the drainage trench unit, a method of connecting only the unit and the unit to be in contact with each other when placing bottom concrete without forming a separate connection structure in the unit and forming a bolt hole at the end of the unit Although there was a method of interconnecting adjacent units by bolt assembly, the former method only depends on the skilled sense of the operator to connect the unit and form the drainage gradient, so that the resultant drain trench may be leaked or drained. There were not many defects, and the latter method was less leaking and drainage than the former, but there was a problem that it is very cumbersome to connect units to bolting work.

An object of the present invention is to construct a drain trench in the bottom concrete as a drain trench unit by providing a drain trench unit that can be assembled with the unit by using a socket, so that the drain trench can be constructed more conveniently and easily. In addition, it is intended to significantly reduce drainage or leaks from the resulting drainage trench.

According to the present invention, a drain trench unit is provided.

The drain trench unit of the present invention includes a trench body having a bottom wall and both side walls forming a drainage path having a predetermined width, height, and length, and first fitting concavities and convexities formed on at least a portion of an outer surface of the bottom wall and both side walls; And a bottom wall and a side wall corresponding to the bottom wall and the side walls of the trench body, wherein the first fitting concavities and convexities of the two adjacent trench bodies are respectively fitted to interconnect the two adjacent trench bodies. A connecting socket having second fitting irregularities formed at both ends; Characterized in that it comprises a.

The first fitting recesses and protrusions include grooves formed in the bottom wall, protrusions formed in the central portions of the both side walls, and holes opened downward in the upper sides of the both side walls; The second fitting concavities and convexities are formed at positions corresponding to the concave grooves in the elongated portions protruding to both sides of the bottom wall, and are formed at positions corresponding to the convex grooves, and the projections are fitted. And a slot formed at a position corresponding to the hole and fitted to the hole.

Preferably, the first fitting irregularities include grooves formed in the bottom walls adjacent to the both side walls, protrusions formed in the central portions of the both side walls, and holes opened downwardly on the both side walls; The second fitting concavities and convexities are formed at positions corresponding to the concave grooves to be fitted into the concave grooves, slots formed at positions corresponding to the convex projections to fit the projections, and positions corresponding to the holes. And a protrusion formed to fit in the hole.

Preferably, a gradient is formed on the bottom wall of the connection socket.

Since the drain trench unit according to the present invention described above is composed of a trench body 110 and a connection socket 120 that can be assembled by fitting, not only can the drain trench be more conveniently and easily installed, There is an effect that can significantly reduce drainage defects or leaks from the resulting drainage trench.

In addition, since the drain trench unit 100 of the present invention has a gradient formed in the connection socket 120, the gradient can be easily applied during construction, thereby reducing the drainage defect in the resulting drain trench.

Hereinafter, the drainage trench unit according to the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are merely illustrative of the drainage trench unit according to the present invention, and are not intended to limit the scope of the present invention.

As shown in Figure 1 and 2, the drainage trench unit 100 according to the present invention is largely configured to include a trench body 110 and the connection socket 120. Although the trench unit 100 of the present invention is not excluded from being formed of another molding material such as a metal material, it may be preferably formed by molding with a plastic synthetic resin.

The main body 110 is a main member forming the drainage passage 111. Like the general drainage trench unit, the bottom wall 112 and the side walls 113 are formed to form the drainage passage 111 having a standardized width, height, and length. Equipped. The standard (width, height and length) of the drainage channel 111 formed by the main body 110 may be set in various ways, for example, the width 200-350mm, the height 40-70mm, the length 1,000mm, etc. Can be united By forming the concave-convex (112a) on the outer surface of the bottom wall 112 in contact with the bottom concrete can improve the bonding strength of the main body 110 to the bottom concrete.

According to a feature of the present invention, at least a portion of the bottom wall 112 and the outer side surfaces of the side wall 113 of the trench body 110, the first fitting unevenness 114 for fitting assembly with the connection socket 120 ) Is formed.

The shape and the formation position of the first fitting recesses and protrusions 114 formed in the trench body 110 are not particularly limited as long as the two adjacent trench bodies 110 can be fitted and assembled using the connection socket 120.

In the illustrated embodiment, one groove 114a is formed in the bottom wall 112 adjacent to both side walls 113 as the first fitting unevenness 114, and two protrusions are formed at approximately the center of both side walls 113. As shown in FIG. An example in which 114b is formed and a hole 114c opened downward on the upper side of both side walls 113 is shown.

According to a feature of the present invention, two adjacent trench bodies 110 are fitted and assembled by a connection socket 120.

The connection socket 120 includes a bottom wall 121 and both side walls 122 having a size corresponding to the bottom wall 112 and the side walls 113 of the trench body 110, and has a drainage passage 111 formed in the body 110. Drainage paths corresponding to) are formed, and can be formed to an appropriate length as a socket.

The first fitting concave and convexities 114 of two adjacent trench bodies 110 are respectively fitted to both ends of the connection socket 120, so that the second fitting concave and convex portions for fitting and connecting two adjacent trench bodies 110 to each other are fitted. 123 is formed. The second fitting concavities and convexities 123 of the connecting socket 120 are formed in shapes and positions corresponding to the shapes and positions of the first fitting concavities and convexities 114 of the trench body 110.

In the illustrated embodiment, the second fitting recesses 123 of the connecting socket 120 are formed at positions corresponding to the recesses 114a of the bottom wall 112 of the trench body 110 to be fitted into the recesses 114a. Two slots 123b formed at positions corresponding to the two parallel protrusions 114b of the both side walls 113 of the trench body 110 to be fitted, and the protrusions 114b to be fitted, and FIG. 3 illustrates an example of a protrusion 123c formed at a position corresponding to the hole 114c of both side walls 113 of the trench body 110 and fitted to the hole 114c.

In the illustrated embodiment has been described an example in which both the recessed portion and the convex portion is included in each of the fitting irregularities (114, 123) applied to the trench body 110 and the connection socket 120, but only the recessed portion formed in the trench body 110 Of course, the connecting socket 120 may be applied to other structures, such as forming only the convex portion.

According to the features of the drainage trench unit 100 according to the present invention as described above, the trench body 110 adjacent to the connection socket 120 by using the fitting irregularities 114 and 123 formed in the trench body and the connection socket 120. By constructing the drainage trenches by connecting the two to each other, it is possible to significantly reduce the construction difficulties described above with respect to the prior art.

Preferably, the bottom wall 112 of the connection socket 120 may be formed with a gradient 124 from upstream to downstream. As shown in FIG. 3, the bottom wall 112 of the connecting socket 120 is not flat but has a high slope on one side and a low side on the other side. By assembling the trench body 110 in such a way that it is located at the lower side and the downstream side, it is very easy to give a gradient for natural drainage to the drainage trench which is constructed on the floor concrete.

In the accompanying drawings, the material separation prevention member 130 is assembled to both side walls 113 of the trench body 110, and the thickening portion 125 formed at the upper end of both side walls 122 of the connection socket 120 is connected. As part to make the outer rim angle of the socket 120 to match the shape of the assembled material separation prevention member 130, a detailed description thereof is omitted since it is not directly related to the features of the present invention. For the configuration of the material separation prevention 130 may refer to the same patent application (patent application 10-2007-0003839) of the present inventors.

4 and 5 are different from the embodiments of FIGS. 1 and 2, the shape and the formation position of the first fitting concave-convex 114 of the main body 110 and the second fitting concave-convex 123 of the connecting socket 120 are different. A somewhat different drain trench unit 1 is illustrated.

4 and 5, the first fitting concavities and convexities 114 of the main body 110 are projections formed in the grooves 114d formed in the bottom wall 112 and the roughly central portions of both side walls 113. 114e, and the hole 114f which opens in the upper side of the both side wall 113, and is an example.

The second fitting concave-convex 123 of the connecting socket 120 corresponds to the concave portion 114d of the bottom wall 112 of the main body 110 in the extension portion 121a protruding to both sides of the bottom wall 121. A slot 123d formed at a position corresponding to the groove 114d and a protrusion 114e formed at a position corresponding to the protrusion 114e of both side walls 113 of the main body 110 to fit the protrusion 114e ( 123e and protrusions 123f formed at positions corresponding to the holes 114f of the side walls 113 of the main body 110 and fitted to the holes 114f.

In the present embodiment, the concave-convex 112a of the bottom wall 112 of the main body 110 described above is used in combination with the concave groove 114d for structural simplification, but is not limited thereto.

1 is a perspective view of an exemplary drainage trench unit according to the present invention;

2 is a cross-sectional view of an exemplary drainage trench unit according to the present invention;

3 is a cross-sectional view of a state of use of an exemplary drainage trench unit according to the present invention;

4 is a perspective view of another exemplary drain trench unit according to the present invention;

5 is a cross-sectional view of another exemplary drainage trench unit in accordance with the present invention.

<Description of Symbols for Main Parts of Drawings>

100: trench unit 110 of the present invention: trench body

111: drainage channel 112: bottom wall

113: side walls 114: first fitting irregularities

114a, 114d: Groove 114b, 114e: Protrusion

114c, 114f: Hole 120: Connection socket

121: bottom wall 122: both side walls

123: 2nd fitting unevenness 123a, 123d: convex part

123b, 123e: slot 123c, 123f: protrusion

124: gradient

Claims (1)

First fittings formed on at least a portion of the bottom wall 112 and both side walls 113, and the outer side surfaces of the bottom wall 112 and both side walls 113 forming a drainage passage 111 having a predetermined width, height, and length. A trench body 110 having unevenness 114; And A bottom wall 121 and both side walls 122 corresponding to the bottom wall 112 and the side walls 113 of the trench body 110, and the first fitting of the two adjacent trench bodies 110. Connecting sockets 120 having a fitting fittings 114 respectively fitted to each other so that second fitting fittings 123 are formed at both ends to interconnect two adjacent trench bodies 110; Including: The first fitting recesses and protrusions 114 are recessed to the bottom wall 112, the grooves 114d, the protrusions 114e formed at the central portions of the both side walls 113, and the upper side of the both side walls 113. An open hole 114f; The second fitting recesses and protrusions 123 are formed at positions corresponding to the recesses 114d in the extension portions 121a protruding from both sides of the bottom wall 121 to be fitted into the recesses 114d ( 123d), a slot 123e formed at a position corresponding to the protrusion 114e and fitted into the hole 114f, and a slot 123e formed at a position corresponding to the hole 114f. Drainage trench unit, characterized in that it comprises a projection (123f).

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