KR101866232B1 - A valve room structure - Google Patents

Abstract

One embodiment of the present invention relates to a structure of a valve room to facilitate carrying a valve facility, such as a drain valve, an air valve, a decompression valve, a sludge valve, a flowmeter, a pump, and the like, in or from the valve room buried in the ground. According to one embodiment of the present invention, the structure of a valve room comprises: an outer wall part to fix a first area of an installation space capable of placing the valve facility; an upper slab formed on the upper part of the outer wall with a second area smaller than the first area to cover the upper side of the installation space; a manhole part disposed adjacent to the upper slab with a third area smaller than the first area, and allowing the installation space to communicate with the ground; and a lower slab formed on the lower part of the outer wall part and disposed in parallel to the upper slab. The outer wall part comprises a first outer wall part upwardly extended from the lower slab by a first height to form a first hollow and a second outer wall part upwardly extended from the first outer wall part by a second height to form a second hollow. The first outer wall part comprises a 1-1 outer wall upwardly extended from the lower slab and a 1-2 outer wall part connected to the second outer wall part to define the first hollow. The upper slab is made of concrete and comprises a plurality of slab units to cover the first hollow. The manhole part opens and closes the second hollow. Each slab unit comprises a plurality of longitudinal units disposed in the longitudinal direction of the first hollow and a plurality of lateral units disposed in the lateral direction of the first hollow.

Description

A valve room structure < RTI ID = 0.0 >

The present invention relates to a valve seal structure, and more particularly, to a valve seal structure for facilitating entry and exit of a valve facility such as a drain valve, an air valve, a pressure reducing valve, an outlet valve, a flow meter, To a valve seal structure.

Generally, a pipe used for a sewer, a water pipe, a pipe used for a pipeline or a gas pipe, or a pipe used for a water intake or the like is buried in the ground. In order to control various kinds of fluid flowing in the pipe, (Hereinafter collectively referred to as "valve facilities") are equipped with valves, air valves, pressure reducing valves, ito valves, fire hydrants, flow meters, pumps, etc., As shown in FIG.

Such a valve chamber is provided with a manhole cover which can be accessed by an operator for maintenance of the valve facility. The manhole cover is installed through a manhole frame.

However, if the valve facility in the valve chamber is aged or difficult to repair, the valve facility must be replaced. In such a case, the upper slab of the valve chamber constructed with concrete or the like must be disassembled and reinstalled.

Korean Patent No. 10-0302684

SUMMARY OF THE INVENTION An object of the present invention is to provide a valve seal structure for facilitating entry and exit of valve facilities such as a drain valve, an air valve, a pressure reducing valve, an outlet valve, a flow meter, and a pump in a valve chamber embedded in an underground .

The valve seal structure according to an embodiment of the present invention is a valve seal structure in which valve facilities such as a drain valve, an air valve, a pressure reducing valve, an outlet valve, a flow meter, A valve chamber structure comprising: an outer wall part for determining a first area of an installation space in which the valve facility can be positioned; a second area smaller than the first area on the outer wall part; A top slab covering the first slab, a third slab having a third area smaller than the first area while being disposed adjacent to the top slab, a manhole portion communicating with the installation space and the ground, And a lower slab disposed in parallel to the lower slab, wherein the outer wall extends from the lower slab upward at a first height, And a second outer wall portion extending from the first outer wall portion to the second height and forming a second hollow, the first outer wall portion including a first outer wall portion extending upward from the lower slab, -1 outer wall portion and a second outer wall portion defining the first hollow while being connected to the second outer wall portion, wherein the upper slab is formed of concrete, and the plurality of slabs Wherein said manhole portion opens and closes said second hollow, said plurality of slab units comprising a plurality of longitudinal units arranged in a longitudinal direction of said first hollow and a plurality of longitudinal units arranged in a widthwise direction of said first hollow A plurality of width direction units may be provided.

Each of the longitudinal units constituting the plurality of longitudinal units of the valve chamber structure according to the embodiment of the present invention is formed flat so that the lower surface thereof is disposed in parallel with the lower slab and the upper surface is parallel to the lower surface Wherein the plurality of longitudinal direction units comprise a first longitudinal direction unit, a second longitudinal direction unit, a second longitudinal direction unit, a second longitudinal direction unit, and a second longitudinal direction unit, And a third longitudinal unit, wherein the first longitudinal unit has a first parallel surface, a first inclined surface and a first inclined surface, and the second longitudinal unit includes a second parallel surface, , A 2-1 sloped surface and a 2-2 sloped surface, and the third longitudinal unit has a third parallel surface, a 3-1 sloped surface, and a 3rd -2 sloped surface, top When one side of the first longitudinal direction unit is in contact with one side of the second longitudinal direction unit and the other side of the second longitudinal direction unit is in contact with one side of the third longitudinal direction unit, The first 1-2 sloped surface and the 2-1 sloped surface form a first filling space, the 2-2 sloped surface and the 3-1 sloped surface form a second filling space, And a concrete filling agent is filled to maintain the contact state between the first longitudinal direction unit and the second longitudinal direction unit, and the second filling space is maintained between the second longitudinal direction unit and the third longitudinal direction unit So that the concrete filler can be filled.

The first longitudinal unit of the valve seal structure according to an embodiment of the present invention includes a first inclined portion formed to be embedded from the upper surface and a second inclined portion which is rotatably connected to the first inclined portion, And a first pivoting portion that is pivoted from a first position to a second position that is perpendicular to the upper surface, wherein when the first pivoting portion is located at the first position, Wherein the first hollow is adapted to be easily stacked on the upper surface of the unit, and when the second longitudinal unit is located in the second position, an external force for releasing the first longitudinal unit from the first hollow is easily applied, And a first 1-2 hollow formed in a rectangular shape and a first 1-2 hollow formed in a second rectangular shape, and when the plurality of longitudinal units cover the first 1-1 hollow, A toe skin may be laminated from the upper side of the anisotropic unit to the second height.

The concrete filler filled in the first filling space of the valve seal structure according to an embodiment of the present invention is formed to protrude upward from a virtual plane extending from the first parallel surface, The concrete filler may be formed so as to protrude upward from a virtual plane extending from the second parallel plane.

One end of each of the width direction units constituting the plurality of width direction units of the valve seal structure according to the embodiment of the present invention is in contact with the longitudinal direction unit adjacent to the manhole portion and the plurality of width direction units And the other end of each of the width direction units constituting is in contact with the first outer wall part so that the first 1-2 hollow is covered by the plurality of width direction units, The length of the width of the direction unit may be longer than the length of the width of each longitudinal unit constituting the plurality of longitudinal units.

The longitudinal unit adjacent to the second outer wall among the plurality of longitudinal units of the valve seal structure according to an embodiment of the present invention may be disposed apart from the second outer wall and may include one side exposed to the outside, Wherein the concrete filler is located between the first and second outer walls and the toe is stacked between the longitudinal unit adjacent to the second outer wall and the second outer wall, When the hollow is covered, the toes may be laminated from the upper side of the plurality of width direction units to the second height.

The valve seal structure according to an embodiment of the present invention includes a first outer side wall formed from the manhole portion to the lower slab side and a second outer side wall formed from a ladder And a metal beam crossing the first 1-1 hollow.

According to the present invention, it is possible to easily dismantle and re-install the upper slab when replacing valve facilities such as a drain valve, an air valve, a pressure reducing valve, an outlet valve, a flow meter and a pump in a valve chamber buried in the underground, Can be saved.

1 is a schematic perspective view of a valve seal structure according to an embodiment of the present invention;
2 is a plan view of a valve seal structure according to one embodiment of the present invention.
3 is a cross-sectional view of a valve seal structure in accordance with one embodiment of the present invention.
4 is a plan view illustrating an outer wall portion of a valve seal structure according to an embodiment of the present invention.
5 and 6 are schematic views for explaining an upper slab of a valve chamber structure according to an embodiment of the present invention;
7 to 9 are schematic views for explaining a disassembly process of an upper slab of a valve seal structure according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventive concept. Other embodiments falling within the scope of the inventive concept may readily be suggested, but are also considered to be within the scope of the present invention.

The same reference numerals are used to designate the same components in the same reference numerals in the drawings of the embodiments.

FIG. 1 is a schematic perspective view of a valve seal structure according to an embodiment of the present invention. FIG. 2 is a plan view of a valve seal structure according to an embodiment of the present invention. Fig.

1 to 3, a valve seal structure 1 according to an embodiment of the present invention includes valve facilities such as a drain valve, an air valve, a pressure reducing valve, an outlet valve, a flow meter, and a pump in a valve chamber buried underground To the valve chamber.

The valve seal structure 1 of the present invention may include an outer wall portion 10, an upper slab 20, a manhole portion 30, and a lower slab 40.

The outer wall portion 10 determines a first area of the installation space S where the valve facility can be located. The outer wall portion 10 is made of precast concrete and embedded in the basement.

Here, the first area means the floor area of the space surrounded by the outer wall part 10. [

The outer wall portion 10 includes a first outer wall portion 11 and a first outer wall portion 11 forming a first hollow V1 while extending from the lower slab 40 upward at a first height H1 And a second outer wall portion 12 extending from the second outer wall portion 12 to the second height H2 in the upward direction to form a second hollow V2.

The first outer wall portion 11 is provided with a rectangular columnar installation space S formed at a first height H1 from the bottom surface of the underground and the second outer wall portion 12 is provided with a first outer wall portion 11 to a second height H2 to form a second hollow V2.

The first hollow (V1) has a polygonal shape and the second hollow (V2) has a rectangular shape. Here, the rectangular shape may be a polygonal shape in which a square formed by the second hollow V2 is removed.

The first hollow (V1) has a first hollow (V1-1) formed in a first rectangular shape and a first hollow (V1-2) formed in a second rectangular shape. In other words, the first hollow V1 may have a shape connecting the first rectangle and the second rectangle.

The first hollow V1 formed by the first outer wall portion 11 and the second hollow V2 formed by the second outer wall portion 12 are formed in the shape of It seems to form one square hollow. However, the first hollow V1 is formed at the first height H1 and the second hollow V2 is formed at the second height H2.

The upper slab 20 covers the upper side of the installation space S with a second area smaller than the first area formed on the upper part of the outer wall 10.

The upper slab 20 is made of concrete and is composed of a plurality of slab units covering the first hollow V1. Specifically, the plurality of slab units include a plurality of longitudinal direction units 21 arranged in the longitudinal direction of the first hollow V1 and a plurality of lateral direction units 23 arranged in the width direction of the first hollow V1 Respectively.

Here, the plurality of longitudinal direction units 21 cover the first 1-1 hollows V1-1, and the plurality of width direction units 23 cover the 1st 1-2 hollows V1-2.

The valve seal structure 1 of the present invention may further include a metal beam 60 that crosses the 1-1 hollow (V1-1), and the metal beam 60 includes the 1-1 hollow (V1- 1), so that the loads of the plurality of longitudinal units 21 can be dispersed.

The plurality of longitudinal direction units 21 are placed on the upper surface of the first outer wall portion 11 and cover the first-first hollow V1-1. Accordingly, the area occupied by the plurality of longitudinal direction units 21 can be larger than the size of the 1-1 th hollow (V1-1).

Hereinafter, the upper slab 20 will be described in detail with reference to FIGS. 5 and 6. FIG.

The manhole portion 30 is formed with a third area smaller than the first area while being disposed adjacent to the upper slab 20. The manhole portion 30 can open / close the second hollow V2 formed by the second outer wall.

In addition, one side of the manhole portion 30 is exposed to the ground so that the user can confirm the position of the valve chamber and can provide a passage for entrance and exit to the installation space S from the outside.

Specifically, the user can open the manhole portion 30 and move from the ground to the installation space S, so that the valve facility installed in the installation space S can be repaired and inspected.

The valve seal structure 1 according to the present invention is formed along the first outer side wall and the second outer side wall formed from the manhole portion 30 to the lower slab side and facilitates the entrance and exit of the user from the manhole portion 30 to the installation space S And a ladder portion 50 for allowing the ladder portion 50 to rotate.

The ladder portion 50 may be formed as a metal step unit disposed at a predetermined distance from the bottom surface of the installation space S along the first outer wall portion 11 and the second outer wall portion 12. [

The lower slab 40 is formed at the lower portion of the outer wall portion 10 and is disposed in parallel with the upper slab 20. [ The lower slab 40 is connected to the lower surface of the outer wall portion 10 and provides the bottom surface of the installation space S. [

A drain pit (not shown) may be formed in the lower slab 40. Here, the drain pit refers to a pit that collects and flows the liquid (water, drain) flowing out from equipment or piping.

4, the first outer wall part 11 according to an embodiment of the present invention includes a first outer wall part 111 and a second outer wall part 12 extending upward from the lower slab 40 And a second outer wall portion 112 defining the first hollow V1 while being connected to the first hollow portion V1.

Specifically, the 1-1 outer wall portion 111 is an outer wall for providing a side surface of the installation space S and is an outer wall standing up from the bottom surface of the installation space S, and the 1-2 outer wall portion 112 Is an outer wall disposed in parallel with the bottom surface of the installation space S for raising the second outer wall portion 12 from the first height H1 to the second height H2.

5 and 6 are schematic views illustrating an upper slab of a valve seal structure according to an embodiment of the present invention.

7 to 9 are schematic views for explaining the disassembly process of the upper slab of the valve seal structure according to the embodiment of the present invention.

5 to 9, each of the longitudinal direction units constituting the plurality of longitudinal direction units 21 according to the embodiment of the present invention includes a bottom surface, an upper surface, and a schematic And may be a rectangular parallelepiped shape.

The lower surface of each of the longitudinal units is formed to be parallel to the lower slab 40. The upper surface of the lower slab 40 is parallel to the lower surface of the lower slab 40. The upper surface of the lower slab 40 is parallel to the lower surface of the lower slab 40, And a second inclined surface formed downwardly inclined.

The plurality of longitudinal units 21 includes a first longitudinal unit 211, a second longitudinal unit 212 and a third longitudinal unit 213. Here, the first, second and third longitudinal direction units are arbitrary numbers for explaining the longitudinal direction unit, and the number of longitudinal direction units may be more than three depending on the size of the first-first hollow (V1-1) have.

The first longitudinal unit 211 has a first parallel surface 211a, a first inclined surface 211b and a second inclined surface 212b and the second longitudinal unit 212 has a second And the third longitudinal direction unit 213 includes a third parallel surface 213a, a third-first inclined surface 213b, and a third parallel surface 213b. And a 3-2-slanted surface 213c.

Here, the first longitudinal unit 211, the second longitudinal unit 212, and the third longitudinal unit (not shown) are provided to cover the first hollow V1, specifically, the first-first hollow V1-1. 213 are placed in contact with each other.

Specifically, one side of the first longitudinal direction unit 211 is in contact with one side of the second longitudinal direction unit 212, and the other side of the second longitudinal direction unit 212 and the third longitudinal direction unit 213 Is in contact with one side face

At this time, the 1-2 first inclined surface 211c and the 2nd-1 inclined surface 212b form a first filling space, the 2-2 inclined surface 212c and the 3-1 inclined surface 213b form a second filling space, Thereby forming a space.

The first filling space is filled with a concrete filler so that the contact between the first longitudinal unit 211 and the second longitudinal unit 212 is maintained.

In addition, the second filling space is filled with a concrete filler so that the contact between the second longitudinal unit 212 and the third longitudinal unit 213 is maintained.

The concrete filler is formed of a material having flowability and filled in the first filling space and the second filling space. After a certain period of time, the concrete filling agent is changed into a non-fluid solid form so that the respective longitudinal units are fixed in contact with each other .

The concrete filler filled in the first filling space is formed protruding upward from a virtual plane extending from the first parallel surface 211a. The concrete filling agent filled in the second filling space is formed by the second parallel surface 212a ) Extending in the upward direction from the imaginary plane.

In other words, the concrete filling agent filled in the first filling space is formed to be larger than the first filling space and protruded from the upper side of the longitudinal direction unit, and the concrete filling agent filled in the second filling space is also formed larger than the second filling space And is formed so as to protrude from the upper surface of the longitudinal unit.

The concrete filling agent is filled in the filling space formed between the respective longitudinal units while the first 1-1 hollow (V1-1) is covered by the plurality of longitudinal units 21, and the concrete filling agent is solidified The toe P is piled up from the upper surface of the plurality of longitudinal units 21 to the second height H2.

The lengthwise unit adjacent to the second outer wall of the plurality of longitudinal units 21 is disposed to be spaced apart from the second outer wall, and a concrete filler W is disposed between one side exposed to the outside and the first outer wall. Thereby reinforcing the connection between the first and second outer walls and the longitudinal unit adjacent to the second outer wall.

The toe P stacked on the upper side of the plurality of longitudinal direction units 21 is stacked between the longitudinal unit adjacent to the second outer side wall and the second outer side wall.

As a result, the toe P stacked on the upper side of the plurality of longitudinal units 21 is hardened in the form of a wedge between the longitudinal unit adjacent to the second outer wall and the second outer wall in the course of compacting, (P) can be prevented from moving from the upper side of the plurality of longitudinal direction units (21).

6, the first longitudinal direction unit 211 is rotatably connected to the first recessed portion 214 and the first recessed portion 214 which are formed by being embedded from the upper surface, (215) that is rotated to a second position that is vertically disposed with respect to the upper surface at a first position, which is concealed in the first position (214).

Here, the first turning unit 215 makes it easy for another longitudinal unit to be stacked on the upper surface of the first longitudinal unit 211 when the first turning unit 215 is located at the first position.

Specifically, the longitudinal unit used in the valve seal structure 1 of the present invention is not manufactured at a construction site where the valve seal structure 1 is installed to be buried underground, but is previously manufactured elsewhere, So that it is transported to the carrier paper while being stacked on the vehicle to facilitate transportation.

At this time, the first rotary part 215 is located at the first position so as not to protrude from the upper surface of the first longitudinal direction unit 211, thereby facilitating the stacking of the plurality of longitudinal direction units 21.

In addition, when the first rotary part 215 is located at the second position, the first longitudinal direction unit 211 and the second longitudinal direction unit 211 are arranged in an annular shape which is easily applied with an external force by the user or the lifting device of the first longitudinal direction unit 211, As shown in Fig.

Further, when the first rotary part 215 is located at the second position, an external force for releasing the first longitudinal unit 211 from the first hollow V1 is easily applied.

7 to 9, the valve seal structure 1 of the present invention is for facilitating access of the valve facilities installed in the installation space S, And the toe P adjacent to the manhole portion 30 is taken out and the plurality of longitudinal units 21 are taken out of the first outer wall portion (S) 11) to secure space for access to the valve facilities.

At this time, the first rotary part 215 located on the upper surface of the first longitudinal direction unit 211 exposed to the outside by the rolled toe P is moved to the second position, and the first rotary part 215 The first longitudinal unit 211 covering the first hollow V1 can be separated from the first outer wall part 11 by applying an external force.

It is also possible to maintain the contact between the first longitudinal unit 211 and the second longitudinal unit 212 in order to separate the first longitudinal unit 211 from the first outer wall part 11, An external force is applied to the concrete filling material W exposed at one end of the first longitudinal direction unit 211 and the second longitudinal direction unit 212 to remove the concrete filling material W from the first filling space, At this time, the concrete filling material W can be easily removed by charging one end of the concrete filling material W which is larger than the first filling space.

Since the concrete filler W is formed to protrude from the upper surface of the first longitudinal unit 211 and the second longitudinal unit 212, when the concrete filler W is struck using the striking member, Only the concrete filling material W can be struck without striking the direction unit 211 and the second longitudinal direction unit 212.

This is because the first longitudinal unit 211 and the second longitudinal unit 212 separated from the first outer wall part 11 are connected to each other after the introduction of a new valve facility, So that damage / breakage caused by the striking member is minimized.

One end of each of the width direction units 23 constituting the plurality of width direction units 23 is in contact with the longitudinal direction unit adjacent to the manhole portion 30 and constitutes a plurality of width direction units 23 The other end of each of the width direction units 23 is brought into contact with the first outer wall portion 11 so that the first and second hollows V1-2 are covered by the plurality of width direction units 23. [

The width of each of the width direction units 23 constituting the plurality of width direction units 23 is longer than the width of each of the length direction units constituting the plurality of length direction units 21 .

This is because the entrance and exit of the valve facilities installed in the installation space S can be realized through the first 1-1 hollows V1-1 so that the plurality of width direction units 23 are separated from the first outer wall part 11 This is for the occasion when it is not necessary.

Specifically, when the plurality of width direction units 23 do not have to be separated from the first outer wall portion 11, the plurality of width direction units 23 are arranged in the width direction of the valve facilities V1-1 through the first- The length of the width of each of the width direction units 23 is formed to be larger than the length of the width of each of the longitudinal units so that the load of the operator is more stably supported.

When the plurality of width direction units 23 cover the first 1-2 hollows V1-2, the toe P (soil) is removed from the upper side of the plurality of width direction units 23 to the second height H2, .

As a result, the upper surface of the valve seal structure 1 of the present invention is in a flat state, and only the manhole portion 30 is exposed to the outside.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be apparent to those skilled in the art that changes or modifications may fall within the scope of the appended claims.

1: Valve seal structure
S: Installation Space
H1: First height
H2: second height
V1: 1st hollow
V1-1: 1st Hollow
V1-2: 1st & 2nd hollow
V2: Second hollow
10: outer wall portion
20: Upper slab
K1: First filling space
K2: the second filling space
W: Concrete filler
P: Toffee
30: Manhole
40: Lower slab
50: Ladder portion
60: metal beam

Claims (7)

1. A valve chamber structure for facilitating entry and exit of a valve facility in a valve chamber buried in an underground into and out of the valve chamber,
An outer wall part determining a first area of an installation space where the valve facility can be located;
An upper slab covering an upper side of the installation space with a second area smaller than the first area on an upper portion of the outer wall;
A manhole portion disposed adjacent to the upper slab and having a third area smaller than the first area, the manhole communicating with the installation space and the ground; And
And a lower slab formed at a lower portion of the outer wall portion and disposed in parallel with the upper slab,
Wherein,
A first outer wall extending from the lower slab at a first height to form a first hollow and a second hollow extending from the first outer wall to a second height at a second height, 2 outer wall portion,
Wherein the first outer wall portion comprises:
A first outer wall portion extending in the upward direction from the lower slab and a second outer wall portion defining the first hollow while being connected to the second outer wall portion,
Wherein the upper slab comprises:
A plurality of slab units formed of concrete and covering the first hollow,
Wherein the manhole portion opens and closes the second hollow,
Wherein the plurality of slab units comprise:
A plurality of longitudinal units arranged in the longitudinal direction of the first hollow and a plurality of lateral units arranged in the width direction of the first hollow,
Wherein each of the longitudinal direction units constituting the plurality of longitudinal direction units comprises:
The lower surface of the lower slab is flat so as to be disposed in parallel with the lower slab. The upper surface of the lower slab has a parallel surface disposed parallel to the lower surface, a first inclined surface inclined downward from one end of the parallel surface, and a second inclined surface inclined downward from the other end of the parallel surface. And an inclined surface,
Wherein the plurality of longitudinal direction units comprise:
A first longitudinal unit, a first longitudinal unit, a second longitudinal unit and a third longitudinal unit,
Wherein the first longitudinal unit comprises:
A first parallel surface, a first-first inclined surface, and a first-second inclined surface,
Wherein the second longitudinal unit comprises:
A second-parallel surface, a second-first inclined surface, and a second-2-inclined surface,
Wherein the third longitudinal unit comprises:
A third-parallel slope, a third-first slope, and a third-2 slope,
Wherein one side of the first longitudinal unit and one side of the second longitudinal unit are in contact with one side of the first longitudinal unit and the other side of the second longitudinal unit to cover the first hollow, The first 1-2 sloped surface and the 2-1 sloped surface form a first filling space, the 2-2 sloped surface and the 3-1 sloped surface form a second filling space,
The first filling space
A concrete filler is filled to maintain a contact state between the first longitudinal unit and the second longitudinal unit,
The second filling space
A concrete filler is filled so that the contact between the second longitudinal unit and the third longitudinal unit is maintained,
Wherein the first longitudinal unit comprises:
A first inclined portion formed to be embedded from an upper surface and a second inclined portion connected to the first inclined portion so as to be rotatably connected to the first inclined portion, And a turning portion,
The first rotating portion,
The second longitudinal unit being configured to allow the other longitudinal unit to be easily stacked on the upper surface of the first longitudinal unit when the first longitudinal unit is located in the first position, So that it is easy to apply an external force for the light-
The first hollow portion
And a first 1-2 hollow formed in a first rectangular shape and a first 1-2 hollow formed in a second rectangular shape,
Wherein when the plurality of longitudinal direction units cover the first 1-1 hollow, a toe skin is laminated from the upper side of the plurality of longitudinal units to the second height.
delete delete The method according to claim 1,
The concrete filler filled in the first filling space may include a filler,
A first parallel plane extending from an imaginary plane extending in an upward direction,
The concrete filling agent filled in the second filling space may include a filler,
Wherein the valve body structure is formed so as to protrude upward from an imaginary plane extending from the second parallel surface.
The method according to claim 1,
Wherein one lateral end of each of the width direction units constituting the plurality of width direction units is in contact with a longitudinal direction unit adjacent to the manhole portion and the other lateral end of each width direction unit constituting the plurality of width direction units is in contact with the non- Wherein the first < RTI ID = 0.0 > 1-2 < / RTI > hollow is in contact with the first outer wall,
Wherein the width of each of the width direction units constituting the plurality of width direction units is longer than the width of each of the length direction units constituting the plurality of length direction units.
6. The method of claim 5,
And a longitudinal unit adjacent to the second outer wall among the plurality of longitudinal units,
A concrete filling material is disposed between one side exposed to the outside and the first and second outer walls,
The toffee (soil)
A second outer wall adjacent to the second outer wall and a second outer wall,
Wherein when the plurality of width direction units cover the first and second hollows, the toe skin is laminated from the upper side of the plurality of width direction units to the second height.
6. The method of claim 5,
A first outer wall formed from the manhole portion to the lower slab side and a ladder portion formed along the second outer wall portion to facilitate entry and exit of the user from the manhole portion into the installation space; And
And a metal beam crossing the 1-1 hollow portion.

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