KR200390708Y1 - Manhole - Google Patents

Abstract

The present invention relates to a manhole structure in which a ladder coupling hole is formed at predetermined intervals in an up and down direction on an inner wall surface, wherein the ladder coupling hole has a through hole having an inner diameter toward an inner wall surface of the manhole wall, and the manhole wall of the manhole structure. It is characterized in that it passes through the manhole wall having a coupling hole formed in a larger diameter than the passage hole while communicating with the passage hole toward the outer wall surface.

As a result, a manhole structure can be installed on the inner wall of the manhole simply and firmly, and a construction cost and a construction process and a construction period can be reduced, and a construction failure can be prevented.

Description

Manhole Structures {Manhole}

The present invention relates to a manhole structure, and more particularly to a manhole structure with improved ladder installation structure.

When a movement path (hereinafter referred to as a "pipe") of sewage, rainwater and communication cables is formed in the basement, a manhole structure is provided at the branch point of the pipe.

The manhole structure is formed with a doorway for the worker to enter the inside of the manhole, the depth of the manhole is provided with a ladder so that the worker can be lifted in and out on the inner wall surface of the manhole structure.

An example in which a ladder 120 is installed in the conventional manhole structure 101 is illustrated in FIG. 9. As shown in this figure, the conventional method for installing the ladder 120 in the manhole structure 101, the operator one by one in the vertical direction of the ladder insertion hole 110 of a predetermined depth on the inner wall surface of the manhole structure 101 After forming at predetermined intervals, the ladder (not shown) in the manhole structure 101 by inserting and coupling both ends of the ladder 120 having a ?? shape into the ladder insertion hole 110 filled with the adhesive material 111. 120).

However, in the conventional method for installing the ladder 120 in the manhole structure 101, simply inserting both ends of the ladder 120 into the ladder insertion hole 110 formed on the inner wall surface of the manhole structure 101, the adhesive material ( Since it is fixed to 111, the engagement state of the ladder 120 is very weak.

As a result, when a load due to a worker lift or the like is applied to the ladder 120, the ladder 120 may be arbitrarily separated from the inner wall surface of the manhole structure 101. This is a serious problem that can lead to a worker's crash.

In order to solve this problem, another method for installing the ladder 220 in the conventional manhole structure 201 is disclosed in FIG. Prior art shown in this figure is to install the ladder support member 210 in the concrete placing space in the area between the manhole formwork 205 and the manhole outer formwork 203 before placing the manhole structure 201. At this time, the ladder support member 210 is fixed to the manhole internal formwork 205 and the ladder insertion hole 211 is formed at the end of the ladder support member 210 toward the inside of the manhole structure 201.

After placing the concrete between the manhole inner mold 205 and the outer mold 203 in a state in which the ladder support member 210 is coupled to the manhole inner mold 205, the inner and outer molds 205 and 203 through a predetermined curing period. When dismantling is completed the manhole structure 201 is exposed to the ladder insertion hole 211 of the ladder support member 210 on the inner wall surface.

When the ladder 220 is installed in the manufactured manhole structure 201, both ends of the ladder 220 are coupled to the ladder insertion hole 211 inside the manhole structure 201, and at this time, the ladder insertion hole 211. The fixing nut 215 is firmly fixed to the circumference of the ladder 220 by the fastening structure, thereby keeping the coupling state of the ladder 220 fixed.

However, in the conventional method for installing the ladder 220 in another manhole structure 201, the ladder support member 210, which is a separate additional part to the manhole internal formwork 205 before pouring the manhole structure 201 Since it must be installed one by one, there is a problem that the construction work is cumbersome, and the construction cost increases and the construction period increases due to the addition of parts and processes.

In addition, when the ladder support member 210 is not firmly installed in the manhole internal mold 205 due to the carelessness of the operator, the ladder support member 210 does not endure the concrete placing pressure, that is, the manhole structure 201. ) There was a problem of poor construction, such as buried in the wall, or leaving the installation position.

Therefore, an object of the present invention, the manhole structure that can be installed simply and firmly on the inner wall surface of the manhole, while reducing the construction cost and construction process and construction period for the ladder installation, and prevent construction failure To provide.

The above object, according to the present invention, in the manhole structure in which the ladder coupling hole is formed at a predetermined interval in the vertical direction on the inner wall surface, the ladder coupling hole has a through hole having an inner diameter toward the inner wall surface of the manhole wall, It is achieved by the manhole structure characterized in that it passes through the manhole wall with a coupling hole formed in a larger diameter compared to the through hole facing the outer wall surface of the manhole wall.

Here, the through hole preferably has an inner diameter corresponding to the diameter of the ladder.

And, it is effective that the length of the passage hole has a length of at least 1/2 of the thickness of the manhole wall.

In addition, it is more preferable that an insertion guide portion inclined toward the inside of the through hole is formed at an inlet of the through hole facing the inner wall surface of the manhole.

On the other hand, the ladder coupling hole is preferably at least the coupling hole is airtightly treated with a fixing material after the ladder coupling.

At this time, it is effective that the fixing material is cement mortar.

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

1A and 1B are perspective views of a manhole structure according to the present invention, and FIG. 2 is a partial cross-sectional view of a ladder coupling hole region of the manhole structure of FIG. 1. As shown in these figures, the manhole structure 1 according to the present invention is a plurality of ladder coupling holes 10 are formed through a pair of predetermined intervals along the vertical direction of the manhole wall (3). Here, the manhole structure 1 may be a circular manhole or a rectangular manhole or a polygonal manhole, but the following description and drawings will be described by way of example as a circular manhole for convenience of description.

The ladder coupling hole 10 is a manhole wall in a form in which a through hole 11 having an inner diameter facing the inner wall surface of the manhole wall 3 and a coupling hole 13 facing the outer wall surface of the manhole wall 3 communicate with each other. It is penetrated in (3).

Passing hole 11 preferably has an inner diameter corresponding to the diameter of both ends of the ladder 20 to be coupled to the ladder coupling hole (10). This is to prevent the play between the ladder 20 and the passage hole 11 in the state in which the ladder 20 is coupled to the ladder coupling hole 10 so that the ladder 20 does not flow arbitrarily. At this time, it is preferable that the length of the passage hole 11 has a length of at least 1/2 of the thickness of the manhole wall 3. This is to secure a large support area for the ladder 20 for the through hole 11 that substantially supports the engagement state of the ladder 20.

In addition, it is preferable that an insertion guide portion 11a inclined axially inward in the circumferential direction is formed at the entrance of the passage hole 11 on the inner wall surface side of the manhole structure 1. This is a structure for more smooth insertion is made when inserting both ends of the ladder 20 into the through hole (11).

The coupling hole has a larger diameter than the through hole 11, whereby a locking step due to the difference in diameter between the coupling hole 13 and the through hole 11 is formed. The locking step 13a will be described later, but by locking both ends of the ladder 20, the ladder 20 coupled to the ladder coupling hole 10 is prevented from being separated.

After the coupling hole 13 is coupled to the ladder 20, as shown in FIG. 5, it is hermetically treated with a fixing material 15 such as cement mortar or other hermetic treatment agent such that the ladder 20 is more firmly installed and fluid is prevented from entering. Etc., are preferable. Of course, if the airtightness is secured between the passage hole 11 and the ladder 20, the presence or absence of the airtight treatment of the coupling hole 13 can be selectively performed depending on the situation.

Meanwhile, as a method of forming the ladder coupling hole 10 in the manhole structure 1, first, as shown in FIG. 6, the concrete drill 31 corresponding to the diameter of the ladder 20 and the concrete having a larger diameter therefrom. For example, a method of forming the ladder coupling hole 10 by drilling the through hole 11 and the coupling hole 13 in the inner wall surface and the outer wall surface of the manhole structure 1 using the drill 33 may be used as an example. have.

As another method of forming the ladder coupling hole 10 in the manhole structure 1, as shown in FIG. 7, the manhole inner mold 41 and the manhole outer mold 43 before pouring the manhole structure 1. Rod-shaped ladder coupling hole having a different diameter portion corresponding to the ladder coupling hole forming member 51, that is, the through hole 11 and the coupling hole 13 corresponding to the ladder coupling hole 10 to be formed between the For example, a method of installing the forming member 51 such that the ladder coupling hole 10 is formed by the ladder coupling hole forming member 51 when the manhole structure 1 is placed.

Here, the ladder coupling hole 10 may be formed to be located in a straight line with each other at a predetermined interval in the vertical direction to the wall 3 of the manhole structure 1, as shown in Figure 1a, as shown in Figure 1b It may be formed alternately from side to side along the direction.

On the other hand, when combining the ladder 20 to the manhole structure 1 according to the present invention, as shown in Figure 3, each ladder coupling hole 10 formed in the inner wall of the manhole both ends of the ??-shaped ladder 20 prepared in advance ) Into both through holes (11).

Then, as shown in Figure 4, both ends of the ladder 20 is exposed to the outside through both coupling holes 13 formed toward the outer wall of the manhole structure (1). In this state, the engaging members 23 are coupled to both ends of the ladder 20 at the outside of the manhole structure 1, and the ladder 20 is pressed into the manhole structure 1.

At this time, the engaging member 23 coupled to both ends of the ladder 20 is caught to the engaging step 13a portion of the through-hole 11 and the coupling hole 13 to the extent that can be accommodated in the coupling hole (13) You just need to have a size. 3 to 5, the locking member 23 is provided with a nut, and the male screw portion 21 is formed in advance on the outer circumferential surface of both ends of the ladder 20, so that the nut is attached to both ends of the ladder 20. It may be provided in a fastening structure. Of course, the locking member 23 may be provided in various structures depending on the circumstances.

When the engaging members 23 are coupled to both ends of the ladder 20 and the ladder 20 is pressed into the manhole, as shown in FIG. 5, the ladder 20 protrudes from the inner wall surface of the manhole structure 1. In this state, the filling hole 13 is filled with a curable fixing material 15 such as cement mortar, and airtightly finished. Then, after the hardening time of the hard material elapses, the ladder 20 is firmly coupled to the inner wall surface of the manhole structure 1, so that the manufacture of the manhole structure 1 having the ladder 20 is performed as shown in FIG. 8. Simply done.

As described above, the manhole structure according to the present invention having a through hole inside the manhole structure corresponding to the diameter of the ladder and a ladder coupling hole having a manhole structure outer engagement hole having a larger diameter than the through hole has a separate ladder support member. Ladders can be installed on manhole structures simply and securely without being buried in the structure.

Thereby, the construction cost and the construction period can be reduced according to the reduction of parts and processes for installing a ladder in the manhole structure.

In addition, the ladder is firmly and accurately installed in the manhole structure, thereby preventing safety accidents and poor construction.

As described above, according to the present invention, the manhole can be easily and firmly installed on the inner wall surface of the manhole, and can reduce construction costs, construction process, and construction period for the ladder installation, and prevent construction failure. A structure is provided.

1a and 1b is a perspective view of a manhole structure according to the present invention,

FIG. 2 is a partial cross-sectional view of the ladder coupling hole region of the manhole structure of FIG.

3 to 5 is a view showing a process of installing a ladder in the manhole structure according to the present invention,

6 and 7 are a cross-sectional view showing a method for forming a ladder coupling hole in the manhole structure according to the present invention,

8 is a perspective view of the ladder coupling construction is completed in the manhole structure according to the present invention,

9 is a cross-sectional view of the ladder installation area of the conventional manhole structure;

Figure 10 is a cross-sectional view of the ladder installation area of another conventional manhole structure.

* Explanation of symbols for the main parts of the drawings

10: ladder coupling hole 11: through hole

13: binding hole 15: fixing substance

20: ladder

Claims (6)

In the manhole structure in which the ladder coupling hole is formed at predetermined intervals in the vertical direction on the inner wall surface, The ladder coupling hole A through hole having an inner diameter toward the inner wall surface of the manhole wall; And a manhole structure communicating with the through hole toward the outer wall of the manhole wall and passing through the manhole wall with a coupling hole formed with a larger diameter than the through hole. The method of claim 1, The through-hole manhole structure characterized in that it has an inner diameter corresponding to the diameter of the ladder. The method according to claim 1 or 2, The length of the through hole is a manhole structure, characterized in that having a length of at least 1/2 of the thickness of the manhole wall. The method of claim 3, The manhole structure characterized in that the inlet portion of the through-hole inclined toward the inner side of the through-hole toward the inner wall surface of the manhole is formed. The method of claim 4, wherein The ladder coupling hole is a manhole structure characterized in that at least the coupling hole is hermetically treated with a fixing material after the ladder coupling. The method of claim 5, The fixing material is a manhole structure, characterized in that the cement mortar.