KR200388678Y1 - A Ladder Mounting Structure of Concrete Manhole Lined with Waterproof Liner - Google Patents

Abstract

When the ladder is installed inside the concrete manhole having a watertight liner, the present invention can maximize the watertight performance by preventing the leakage caused by the formation of a drilled hole for the installation of the ladder, and can easily install the ladder It relates to a ladder mounting structure of the manhole provided with a liner.

In the present invention, in a manhole having a wall portion 20a and a bottom portion 20b, and a liner 60 is provided on an inner surface of the wall portion 20a, a ladder for entering and exiting a worker is provided inside the manhole 20. As a structure to be installed, the ladder 100 extends in both up and down directions on both the left and right sides, and has a frame 110 formed of a curved extension part 111 facing the wall part 20a and the frames on both sides ( The liner 60 includes a plurality of foot treads 120 installed at regular intervals across the 110 and adjacent to the top of the wall portion 20a that is higher than the expected maximum ascending level of the manhole 20. A coupling groove 22 extending through the wall portion 20a to a predetermined depth is formed through the through hole, and an end portion of the bending extension portion 111 of the ladder 100 is inserted into the coupling groove 22, and the manhole is installed. Insertion groove 23 having a predetermined depth is formed in the bottom portion 20b of the (20), The ladder mounting structure of a manhole provided with a water-tight liner for which the frame 110, the lower end of the ladder 100 is installed into the iphom 23 is provided.

Description

Ladder Mounting Structure of Concrete Manhole Lined with Waterproof Liner

The present invention relates to a structure in which a ladder is installed in a manhole provided with a watertight liner. When the ladder is installed in a concrete manhole having a watertight liner, the leak is prevented by forming a drilled hole for installing the ladder. The present invention relates to a ladder installation structure of a manhole equipped with a watertight liner of a new structure that can maximize the watertight performance and make the installation of the ladder very simple.

As a means for maintaining the watertightness in the concrete manhole used in the confluence of the sewer pipe, there is a method of installing a liner made of synthetic resin or the like on the inner wall surface of the concrete manhole. The manhole made of precast concrete is exposed to rainwater and sewage that flows inside after construction, and the neutralization of concrete is promoted by carbon dioxide generated from the inside. Corrosion of reinforcing bars causes concrete pipes to crack and leak, contaminating the surrounding soil, or, conversely, influx of water, which seriously affects power lines inside the manhole. The watertight liner is installed on the inner wall surface of the manhole where the leakage is concerned.

1A to 1C show a conventional general manhole and a ladder mounting structure thereof, in which a watertight liner is installed.

As shown in FIGS. 1A-1C, the manhole 20 in the manhole structure 10 has a wall portion 20a and a bottom portion 20b and is in the form of a cylindrical or polygonal vessel, and the manhole 20 It has a structure in which the connection pipe 30 is connected to the connection hole 21 formed in both sides of the wall part 20a of the (). And, the upper portion of the manhole 20 may be installed in the neck portion 40, the upper portion of the neck portion 40 is provided with a cover 50.

The above-described liner 60 may be installed in such a manner that a flat liner is attached to the inner surface of the wall portion 20a of the manhole 20 made of precast concrete, otherwise the manhole 20 may be formed when the manhole 20 is manufactured. 20 may be installed in a manner of integrally embedding one side protrusion of the liner inside the wall portion 20a.

And, the ladder 70 is installed on the inner wall surface of the manhole 20 for the worker's entrance and exit. However, since the conventional ladder 70 has a form in which one side thereof is inserted into and fixed into the wall portion 20a of the manhole 20, the liner 60 is inevitably installed in order to install the ladder 70. It must penetrate through.

For example, as illustrated in FIGS. 1A to 1C, a conventional ladder 70 includes a plurality of drill holes 61 formed in the liner 60 and the wall portion 20a in the manhole 20. ) Is formed at regular intervals in the up and down directions, and the foot stepping rod 71 is inserted into and fixed to each of the plurality of drilling holes 61. As such, in order to install the foot stepping rod 71, the drilling hole 61 penetrating the liner 60 must be formed at a considerable number of points in the up and down directions. Therefore, the drilling holes 61 formed in the lower portion are forced to be immersed in rainwater or sewage flowing through the manhole 20, and accordingly, the sewage or rainwater may flow into the manhole 20 into the wall portion 20a of the manhole 20. By penetration, a problem arises in that the watertight effect is halved.

In addition, in order to install the ladder 70, a plurality of drilling holes 61 must be drilled in the manhole 20 one by one, and the foot stepping rods 71 must be installed in each of the drilling holes 61, thereby installing the ladder. The disadvantage is that the work is complicated and time-consuming.

The present invention has been developed to solve the above conventional problems. Therefore, an object of the present invention, when installing a ladder inside a concrete manhole having a watertight liner inside, to maximize the watertight performance by preventing the leakage caused by forming a hole in the liner and the manhole wall for the installation of the ladder It is possible to provide a ladder installation structure of a manhole equipped with a watertight liner of a new structure that can easily install a ladder.

In order to achieve the above object, in the present invention, in the manhole having a wall portion and a bottom portion, and a liner is provided on the inner surface of the wall portion, a ladder for installing the worker in the inside of the manhole, the ladder is left , The frame includes a frame extending from the right side and extending in the up and down direction, the upper end of which extends toward the wall, and a plurality of foot stepping portions installed at regular intervals across the frame on both sides, and the estimated maximum rise of the manhole. At a point adjacent to the top of the wall portion higher than the water level, a coupling groove is formed through the liner to extend a predetermined depth into the wall portion, the bending extension end of the ladder is inserted into the coupling groove, the bottom portion of the manhole An insertion groove having a predetermined depth is formed in the insert, and the frame lower end portion of the ladder is inserted into the insertion groove. The ladders of the manhole structure is watertight liner, characterized in that provided is provided.

In the above-described present invention, the ladder includes at least one foot step portion and the frame is divided into a plurality of divided elements in up and down directions, and the divided elements adjacent to each other in the up and down directions are divided frames. It may have a configuration that is coupled by the coupling shaft 112 and the coupling hole 113 formed in the upper, lower.

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

2A to 2C show a manhole and a ladder installation structure thereof according to a preferred embodiment of the present invention. FIG. 2A is a front cross-sectional view, and FIG. 2B is a sectional view taken along line II-II of FIG. 2A. 2C is a cross-sectional view taken along the line III-III of FIG. 2A. The same reference numerals are given to the same components as those in Figs. 1A to 1C, and the repeated description thereof will be omitted.

As shown in FIG. 2A, the manhole 20 includes a wall portion 20a and a bottom portion 20b, and a liner 60 is provided on an inner surface of the wall portion 20a. In addition, the connection hole 21 formed at both sides of the wall portion 20a of the manhole 20 has a structure in which the connection pipe 30 is connected.

Ladder 100 according to the present invention, has a form extending in the vertical direction along the wall portion 20a of the manhole 20 so that the worker can enter and exit. Specifically, the ladder 100 extends in both the left and right sides in the up and down directions to support the entire ladder 110, and a plurality of frames are installed at regular intervals across the frame 110 on both sides. It comprises a foot step portion 120.

In the ladder 100 of the present invention, the upper end thereof is fixed to the wall portion 20a of the manhole 20, and the lower end thereof is fixed to the bottom portion 20b of the manhole 20.

2B and 2C show an embodiment of fixing the upper end and the lower end of the ladder 100. As shown in FIGS. 2B and 2C, the upper end of the frame 110 of the ladder 100 is a curved extension 111 that is bent at an angle of about 90 degrees toward the wall portion 20a of the manhole 20. Is done. Corresponding to the bending extension portion 111, a coupling groove 22 is formed in the wall portion 20a of the manhole 20, and the bending extension portion 111 of the ladder 100 is inserted therein. .

In the present invention, the coupling groove 22 has a shape extending through the liner 60 from the inside of the manhole 20 to a predetermined depth into the wall portion (20a). As such, since the coupling groove 22 penetrates through the liner 60, leakage of the coupling groove 22 is greater than that of other portions where the liner 60 is maintained intact. Therefore, the coupling groove 22 is preferably formed at a position higher than the expected maximum ascent water level L of the manhole 20 so as not to be immersed in rainwater or sewage flowing through the manhole 20. Typically, the water level does not rise to the top of the manhole 20, so that the coupling groove 22 is formed in a portion adjacent to the top of the manhole 20 can be said to be safe for leakage.

On the other hand, in inserting the upper end of the ladder 100 into the coupling groove 22, as shown in Figures 2b and 2c, the size of the coupling groove 22 extends the bending of the ladder 100 It is formed to be larger than the end size of the portion 111, and embedded therein a separate socket 130, and then inserted into the installation extension of the bending extension 111 of the ladder 100 in the socket 130 can do.

Similarly, in inserting and installing the lower end of the ladder 100 into the coupling groove 23, as shown in Figure 2b and 2c, the size of the coupling groove 23, the frame of the ladder ( The lower end of the 110 may be formed to have a larger size, and a separate socket 140 may be embedded therein, and then the lower end of the frame 110 may be inserted into and installed in the socket 140.

Here, the sockets 130 and 140 may be made of plastic or stainless steel to prevent rust. In addition, the sockets 130 and 140 are installed in a manner in which the wall portion 20a of the manhole 20 is embedded in concrete when the manhole 20 is manufactured (precasted), or otherwise after the manhole 20 is manufactured. Inside the manhole 20, the coupling grooves 22 and 23 may be drilled and inserted into the liner 60 and the wall portion 20a of the manhole 20.

If, in addition to the method of using the sockets 130 and 140 as described above, the upper and lower ends of the frame 110 are respectively inserted into the coupling grooves 22 and 23, and then the end of the frame 110 and the coupling groove ( It can also be installed in such a way that the grout is filled in the gap between 22) and (23).

As such, according to the present invention, the wall portion of the manhole 20 does not have to be formed in the up and down directions in the coupling groove 22 penetrating the liner 60 and the wall portion 20a for the installation of the ladder 100. Since only one place is formed in each of the 20a and the bottom 20b, the structure is simplified and the drilling operation is simplified. In particular, the coupling groove 22 penetrating the liner 60 and the wall portion 20a is formed only at a point adjacent to the uppermost end of the manhole 20, and the coupling groove 22 is the expected maximum of the manhole 20. By being formed in the upper portion of the water level (L), there is no room for water leakage due to the formation of the coupling groove 22. Therefore, even when the ladder 100 must be installed in the manhole 20 provided with the liner 60, the watertight performance is not impaired or the watertight performance can be maximized.

3A and 3B show a preferred embodiment of a ladder according to the present invention, FIG. 3A shows a perspective view of an installation state, and FIG. 3B shows a perspective view of a separated state.

Ladder 100 according to the present invention may be used in the form of an integral whole, it is more preferable to use a prefabricated as shown in Figure 3a and 3b.

As shown in FIGS. 3A and 3B, the ladder 100 is formed of a split element 100a that is divided into a plurality of frames 110 in an up and down direction, so that the divided split elements 100a are sequentially formed. Has an assembled structure The one splitting element 100a includes one or more foot stepping portions 120 (in the figure, divided into a shape including one foot stepping portion 120). In addition, the split elements 100a divided in the up and down directions as described above have a shape in which the coupling shaft 112 and the coupling hole 113 are formed at the top and bottom, or bottom and top of the corresponding frame 110. Adjacent dividing elements 100a are fitted to each other by the coupling shaft 112 and the coupling hole 113. As a preferred assembling method, first, the ends of both frames 110 of the lowermost dividing element 100a are inserted into the engaging groove 23 or the socket 140 formed in the bottom portion 20b of the manhole 20, and above them. A plurality of splitting elements 100a are sequentially assembled using the coupling shaft 112 and the coupling hole 113. At the end, the assembling groove 23 formed at the wall portion 20a of the manhole 20 or at the same time assembling the dividing element 100a having the bent extension 111 and the end of the bent extension 111 is provided. Installation is very simple and convenient because the assembly is completed when inserted into the socket 140.

In the above detailed embodiments of the present invention shown in the accompanying drawings have been described in detail, but this is only one example of a preferred embodiment of the present invention, the scope of protection of the present invention is not limited thereto. Therefore, the embodiments of the present invention as described above are capable of various modifications and equivalent other embodiments by those of ordinary skill in the art within the technical spirit of the present invention, such modifications and equivalent other embodiments are present Naturally, it belongs to the attached utility model registration claim of the invention.

As described above, the present invention has a structure in which only the top end of the ladder penetrates the liner provided in the wall of the manhole.

Therefore, the number of drill holes to be formed in the liner for the installation of the ladder is minimized, and since the drill holes are located above the expected maximum ascending water level of the manhole, there is no possibility of leakage even if the ladder is installed. The watertight performance in can be maximized.

In addition, since the ladder is divided into a plurality of split elements, and each of the divided elements has a simple structure that fits the coupling shaft and the coupling hole, the installation work of the ladder is very simple and convenient.

1A to 1C show a conventional general manhole and a ladder installation structure thereof, FIG. 1A is a front sectional view, FIG. 1B is a perspective view showing the internal structure of FIG. 1A, and FIG. 1C is a sectional view taken along line II of FIG. 1A. to be.

Figure 2a to 2c shows a manhole and a ladder installation structure according to a preferred embodiment of the present invention, Figure 2a is a front cross-sectional view, Figure 2b is a cross-sectional view of the line II-II of Figure 2a, Figure 2c is a It is sectional drawing of the III-III line | wire.

Figure 3a and Figure 3b shows an example of a ladder according to the present invention, Figure 3a is a perspective view of the installation state, Figure 3b is a perspective view of the separated state.

<Explanation of symbols for the main parts of the drawings>

20: manhole 20a: manhole wall

20b: manhole bottom 21: connector

30: connector 60: liner

61: drill hole 100: ladder

100a: partition element 110: frame

111: bend extension 112: coupling shaft

113: coupling hole 120: foot step

130,140: Socket

Claims (2)

In a manhole having a wall portion 20a and a bottom portion 20b and having a liner 60 on an inner surface of the wall portion 20a, the manhole 20 has a structure for installing a ladder for entering and exiting a worker. , The ladder 100 extends in both up and down directions on both the left and right sides, and has a top end crossing the frame 110 formed of the curved extension part 111 facing the wall part 20a and the frame 110 on both sides. It includes a plurality of foot step portion 120 is installed at a predetermined interval, A coupling groove 22 is formed at a point adjacent to the uppermost end of the wall portion 20a that is higher than the expected maximum ascending level of the manhole 20 and extends a predetermined depth into the wall portion 20a through the liner 60. The end of the bending extension 111 of the ladder 100 is inserted into the coupling groove 22, An insertion groove 23 having a predetermined depth is formed in the bottom portion 20b of the manhole 20, and a lower end of the frame 110 of the ladder 100 is inserted into the insertion groove 23. Ladder mounting structure of manhole with watertight liner. The method of claim 1, The ladder 100 includes one or more foot treads 120 and includes a plurality of dividing elements 100a in which the frame 110 is divided into a plurality of up and down directions. Elements (100a) is a ladder mounting structure of the manhole provided with a watertight liner, characterized in that the coupling shaft 112 and the coupling hole 113 formed on the upper and lower ends of the divided frame (110).