KR101884328B1 - Method for construction of sump structure - Google Patents

Abstract

The present invention relates to a method for construction of a sump structure, which comprises: a sump body having a storage space to store water therein; an external casing member into which the sump body is inserted; and a distance maintaining member placed between sump body and the external casing member to maintain a distance between the sump body and the external casing member, Therefore, on bed excavated reclaimed land, soil is backfilled in an external side of the external casing member, and as only concrete is deposited between the sump body and the external casing member to significantly reduce a using amount of unnecessary concrete for construction costs to be significantly reduced when installing a sump structure. Moreover, a construction process with respect to installation of the sump structure is simplified to increase construction convenience and shorten a construction period.

Description

[0001] METHOD FOR CONSTRUCTION OF SUMP STRUCTURE [0002]

The present invention relates to a method of constructing a water collecting structure, and more particularly, to a method of constructing a water collecting structure capable of reducing the amount of concrete placed between the water collecting structure and the ground during construction of the water collecting structure.

Generally, when building the foundation or basement of the building, the water collects at the base of the building due to the ground water or rainwater. Even after the construction is completed, the rainwater is introduced through the dry area or the underground parking lot lamp, Gathered.

The water collecting structure is installed at the lowermost part of the underground structure and collects the ground water and the rainwater during the construction of the underground structure and discharges the water to the outside of the workplace. Thus, the construction can be smoothly performed, and after the construction of the underground structure is completed, It serves as a receptacle until it is pumped out and prevents ground water from entering into the underground structure.

Concrete water collecting structure should meet the purpose of satisfying the durability as a part of the bottom surface and satisfy the purpose of collecting groundwater or rainwater and discharging it to the outside. Therefore, when designing the water collecting structure, It should be made of reinforced concrete structure.

Since the construction position of the water collecting structure should be installed at the deepest position in the foundation part, when the water collecting structure is constructed by concrete, the operation time is excessively required due to the surrounding ground water etc.

Recently, the use of a structure for constructing a water collecting structure after a trenching operation of a ground is being increasingly used, because a water collecting structure is separately made of a steel material or a synthetic resin material.

Since a steel structure material or a synthetic resin material collection structure should be installed lower than the lowermost slab of a building, separate construction work is required to install the water collection structure, and a water collection structure And the water collecting structure is installed in the ground by placing the concrete around the outer periphery of the water collecting structure.

On the other hand, according to the current building law, the water collecting structure made of steel or synthetic resin should not be installed directly in contact with the ground, but should be installed by pouring concrete around the outside.

1 is a schematic view showing an example in which a conventional water collecting structure of a steel material is installed. Referring to FIG. 1, after the water collecting structure 1 is placed in the landfill 10, And the concrete structure is installed by installing the concrete.

The inner side surface of the landfill 10 is formed as an inclined surface due to the rest angle of the soil after the trenching operation of the ground so that unnecessary amount of concrete is required to fill the concrete between the outer surface of the water collecting structure 1 and the ground do.

In addition, the rest angle becomes gentler in the case of the soft ground where the ground is weak, so that when the water collecting structure (1) is installed on the soft ground, the usage amount of the concrete is further increased and the construction cost is further increased.

An object of the present invention is to provide a construction method of a water collecting structure that can reduce the amount of concrete used when installing a water collecting structure, reduce the construction cost, and simplify the construction process.

In order to accomplish the above object, an embodiment of a method for constructing a water collecting structure according to the present invention includes a trenching step of forming a landfill to which a collecting body can be buried, a collecting body in the landfill after the trenching step, An outer casing installation step of installing an outer casing member in the landfill so as to surround the outer periphery of the collection main body so as to surround the outer periphery of the outer casing member so as to fill the inside of the landfill with the earth, The concrete is laid between the outer surface of the collector main body and the inner peripheral surface of the outer casing member after the roughening process and the upper surface of the backfill layer, And a mat concrete layer forming step of forming a mat concrete layer It shall be.

In the present invention, the outer casing may be installed such that a gap is formed between the outer surface of the collector body and the inner surface of the outer casing member so that concrete can be poured and cured.

In the present invention, the backfilling process may include forming a backfill layer in the landfill with soil, and forming a rejected concrete layer by placing discarded concrete on the backfill layer.

The present invention has the effect of reducing the construction cost by greatly reducing the amount of unnecessary concrete used by filling the outer side of the outer casing member with soil when constructing the water collecting structure.

The present invention simplifies the construction process for installation of the water collecting structure, thereby enhancing the convenience of installation and shortening the construction period.

1 is a schematic view showing an installation example of a conventional water collecting structure;
2 is an exploded perspective view showing an embodiment of the water collecting structure according to the present invention.
3 is a schematic view showing an installation example of an embodiment of the water collecting structure according to the present invention.
4 is a sectional view showing another embodiment of the water collecting structure according to the present invention.
5 is a sectional view showing still another embodiment of the water collecting structure according to the present invention.
6 is an exploded perspective view showing still another embodiment of the water collecting structure according to the present invention.
7 is a schematic view showing an installation example of another embodiment of the water collecting structure according to the present invention.
8 is a process diagram showing an embodiment of a water collecting structure construction method according to the present invention.
9 is a schematic view showing an embodiment of a water collecting structure construction method according to the present invention.

Hereinafter, the present invention will be described in more detail.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to the detailed description of the present invention, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms. Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

FIG. 2 is an exploded perspective view illustrating an embodiment of the water collecting structure according to the present invention, and FIG. 3 is a schematic view showing an example of installing the water collecting structure according to the present invention.

2 and 3, an embodiment of the water collecting structure according to the present invention includes a water collecting body 100 in which a storage space for storing water is formed.

The main body 100 includes a reinforcing bar connecting portion 100a for connecting the reinforcing bar 20 of the reinforcing concrete to an outer side of the reinforcing bar connecting portion 100a. The reinforcing bar connecting portion 100a is formed in a ring shape surrounding the outer periphery of the collecting main body 100 And a plurality of reinforcing through holes, through which the ends of the reinforcing bars 20 are inserted and connected, are spaced apart.

The collecting body 100 includes a bottom wall 110 and a side wall 120 surrounding the bottom wall 110 to form a storage space therein. 130, and a storage space for storing water therein.

The bottom of the bottom portion 110 is provided with a lower space through which the concrete can be filled. The bottom of the bottom portion 110 is formed with a concrete A reinforcing body 113 is provided so as to protrude. The concrete reinforcement member 113 includes, for example, an angle, a rebar, etc., having an L-shaped portion formed by bending a part of the end portion side, and various other known structures capable of increasing the rigidity of the concrete filled in the lower space And can be implemented in a modified manner.

The lower space is provided with a cured lower concrete body 112 filled with concrete.

The groundwater inflow part 111 protrudes to the upper and lower parts of the lower part 110 and protrudes downward from the lower part 110. The groundwater inflow part 111, Has a height such that the portion can contact the ground through the lower space. The length of the groundwater inflow portion 111 protruding to the lower portion of the lower surface portion 110 is formed to be at least equal to the height of the lower space and can be brought into contact with the ground.

A reinforcing rib 140 for reinforcing the rigidity of the collecting main body 100 is provided at the upper portion of the lower surface 110 so as to protrude. The reinforcing rib body 140 is spaced apart from the outer periphery of the groundwater inflow portion 111 protruded from the upper portion of the lower surface portion 110 and has one end fixed to the outer surface of the groundwater inflow portion 111, So that the overall stiffness of the collecting main body 100 is increased so that it is not deformed or damaged by the earth pressure.

The upper surface portion 130 is provided with a hollow portion 131 penetrating vertically and the hollow portion 131 is partially protruded from the upper portion of the upper surface portion 130 so that when the later- Do not enter. The hollow portion 131 is formed to have a height corresponding to a height of a pouring position of the mat concrete poured into the upper portion of the upper surface portion 130.

The main body 100 is inserted into the outer casing member 200 and the outer casing member 200 is formed in a shape corresponding to the main body 100 so that the outer periphery of the main body 100 As shown in FIG.

When the housing-housing main body 100 is cylindrical, the outer casing member 200 is formed in a cylindrical shape having open top and bottom.

The housing housing body 100 and the outer casing member 200 are made of steel or synthetic resin as an example and may be manufactured using various known materials capable of securing rigidity in a state of being embedded in the ground .

The concrete filling body 200a is provided between the housing housing main body 100 and the outer casing member 200 and the concrete used in the construction of the mat concrete layer 50 is inserted into the housing body 100 And the outer casing member 200, and is cured and cured together with the mat concrete layer 50 as an example.

The reinforcing rib 210 may protrude from the outer surface of the outer casing member 200 and the reinforcing rib 210 may protrude from the outer casing member 200 in a ring shape surrounding the outer casing member 200.

The plurality of reinforcing ribs 210 may be provided so as to be spaced apart from each other in the upward and downward directions of the outer casing member 200.

The outer casing member 200 is formed to have a height enough to cover only a part of the housing main body 100 so that the reinforcing bar 100a can be exposed to the upper side of the outer casing member 200.

A gap holding member 300 is provided between the collector housing 100 and the outer casing member 200 to maintain a gap between the collector housing 100 and the outer casing member 200. The gap holding member 300 may protrude from the outer surface of the collector main body 100 or the inner surface of the outer casing member 200.

The gap holding member 300 is shown protruding from the outer surface of the housing body 100 in the figure, but may be provided on the inner surface of the outer casing member 200.

The spacing member 300 protrudes from the outer surface of the housing main body 100 as shown in the figure below. When the spacer member 300 is protruded from the inner surface of the outer casing member 200, As shown in FIG.

The gap holding member 300 includes a gap holding bolt 310 protruding from the outer surface of the collector main body 100 and a gap holding nut 320 screwed to the gap holding bolt 310 can do.

The gap holding member 300 may be shorter in length and longer in the direction in which the gap holding nut 320 is rotated.

At the end of the gap holding member 300, that is, at the end of the gap holding nut portion 320, a ball body 330 which is in contact with the inner surface of the outer casing member 200 is rotatably provided.

The ball body 330 contacts the inner surface of the outer casing member 200 and rolls so that the outer casing member 200 can be smoothly positioned outside the collection body 100.

Since the outer casing member 200 is placed on the landfill 10 which is lowered from the upper portion of the housing main body 100 after the housing main body 100 is placed on the landfill 10, 100, the ball body 330 comes into contact with the inner surface of the outer casing member 200 and rolls so that the outer casing member 200 can smoothly descend.

The ball body 330 is rotated while adjusting the position of the outer casing member 200 or the position of the housing body 100 in a state of being in contact with the inner surface of the outer casing member 200, Or the position of the house receiving main body 100 can be smoothly adjusted.

That is, the gap holding member 300 can be adjusted in length according to the size of the outer casing member 200 during construction, and the gap of the outer casing member 200 can be uniformly controlled around the outer periphery of the collection main body 100 .

When the ball body 330 provided at the end of the gap holding member 300 contacts the inner surface of the outer casing member 200 or the inner surface of the collector main body 100 and rotates, Noise, abrasion, and the like generated when the gap holding member 300 is in contact with the inner surface of the outer casing member 200 or the inner surface of the collecting body 100 is prevented.

4 is a cross-sectional view showing another embodiment of the water collecting structure according to the present invention. Referring to FIG. 4, the gap holding member 300 is fixed to the lower surface of the lower surface portion 110 at one end and is located in the lower space, And the end side portion protruding through the side wall portion 120 is bent to support the inner side surface of the outer casing member 200.

The gap holding member 300 serves to reinforce the lower concrete body 112 in the lower space and to protrude to the outside of the side wall part 120 and to sandwich the space between the collector main body 100 and the outer casing member 200 It can play a role of maintaining the interval.

5, the water collecting structure according to the present invention is provided at a lower portion of the water collecting body 100 and includes a water collecting body 100 The height adjuster 400 may further include a height adjuster 400 that adjusts the height of the display panel 400.

The length of the height adjuster 400 is adjustable and the height of the container 100 can be adjusted.

The height adjuster 400 may include a plurality of the height adjusting bodies 400 spaced apart from the bottom surface of the collecting body 100. The height adjusting bodies 400 may be individually adjustable in length so that the collecting body 100 can be horizontally adjusted.

The height adjusting body 400 includes a first height adjusting bolt member 410 protruding from a lower surface of the collecting main body 100, a height adjusting member 420 having a height at which the upper end side is screwed to the lower end side of the first height adjusting bolt member 410 The adjusting screw member 430 may include a second height adjusting bolt member 420 threaded in a direction opposite to the first height adjusting bolt member 410 and screwed to the lower end of the height adjusting screw member 430 have.

When the height adjusting screw member 430 is rotated, the first height adjusting bolt member 410 and the second height adjusting bolt member 420, which are screwed to each other in opposite directions, And the length of the first height adjusting bolt member 410 and the second height adjusting bolt member 420 may be increased while moving in opposite directions.

The height adjuster 400 may further include a foot pedestal member 440 rotatably coupled to an end of the second height adjusting bolt member 420 and seated on the bottom of the landfill 10 .

The pedestal member 440 is rotated when the bottom of the landfill 10 is tilted so that the collection main body 100 can be stably positioned horizontally.

That is, when the bottom surface of the landfill 10 is uneven, the height of the height adjusting body 400 may be adjusted to align the height of the housing body 100, It can be positioned at a desired height.

FIG. 6 is an exploded perspective view illustrating still another embodiment of the water collecting structure according to the present invention, and FIG. 7 is a schematic view showing an example of a water collecting structure according to another embodiment of the present invention.

6 and 7, the water collecting structure according to the present invention includes a reinforcing bar connecting bracket member 500 having reinforcing bar holes to which reinforcing bar 20 of reinforcing concrete can be connected, And a first guide rail member 600 to which a reinforcing bar bracket member 500 is movably coupled in a circumferential direction of the housing main body 100.

The first guide rail member 600 is provided with a rail groove portion for guiding movement of the reinforcing bar connecting bracket member 500 in the transverse direction, that is, in the circumferential direction of the collecting main body 100. The reinforcing bar connecting bracket And is movably coupled.

The bracket member 500 for connecting the reinforcing bars can be moved to fit the reinforcing bar 20 before the concrete is laid and can be simply connected to the reinforcing bar 20. [

The water collecting structure according to the present invention further includes a second guide rail member 700 which is disposed on the outer surface of the collecting main body 100 and spaced apart from the first water collecting structure 100 and in which the first guide rail member 600 is movable upward and downward, As shown in FIG.

The second guide rail member 700 is provided with a rail groove portion in a longitudinal direction on which the first guide rail member 600 is movably engaged. Both ends of the first guide rail member 600 are movably coupled to the rail groove portions and are moved upward and downward along the longitudinal direction of the second guide rail member 700, respectively.

The first guide rail member 600 moves upward and downward along the second guide rail member 700 in a state of being closely contacted with the outer surface of the collector main body 100 to adjust the height of the bracket member 500 for connecting the reinforcing bars .

That is, the reinforcing bracket member 500 is movable left and right along the first guide rail member 600 and is movable up and down along the second guide rail member 700, So that it is possible to easily connect the reinforcing bar 20 during construction, and it is possible to improve the convenience of the construction and shorten the construction time.

The gap holding member 300 is provided with a reinforcing bar connecting hole 341 that can connect the reinforcing bar 20 to the end side and is fixed to the outer side surface of the collecting main body 100 through the outer casing member 200 A gap between the collector body 100 and the outer casing member 200 is formed by supporting the inner side surface of the outer casing member 200 by being coupled to the reinforcing- And a casing supporting portion 350 for supporting the casing.

The reinforcing-connection gap holding portion 340 is detachably screwed to the casing coupling portion 150 provided on the outer surface of the collector main body 100 in a bolt-like configuration having threads formed on the outer peripheral surface thereof.

The casing supporting portion 350 has a nut structure that can be screwed to the bolt-shaped reinforcing-connection spacing portion 340 to adjust its position.

The outer casing member 200 is formed with a gap maintaining hole 220 through which the reinforcing steel connection gap retaining portion 340 passes.

The second guide rail member 700 is provided with a coupling portion rail groove 710 to which the casing coupling portion 150 is movably coupled upward and downward and the casing coupling portion 150 is coupled to the coupling portion rail groove 710 And can be moved up and down in combination.

The gap maintaining holes 220 are formed in the shape of an elongated hole in the longitudinal direction so that the reinforcing steel connection gap retaining portion 340 penetrated can be moved upward and downward.

When the concrete of the landfill 10 is formed of reinforced concrete, the reinforcing steel 20 to be laid is connected to the reinforcing steel connecting space retaining part 340 protruding outward of the outer casing member 200, The gap holding portion 340 may be positioned so as to correspond to a height at which the reinforcing bars 20 connected to move upward and downward along the coupling rail grooves 710 are arranged.

That is, since the interval maintaining portion 340 for reinforcing steel connection can be moved up and down to adjust the height, the position of the reinforcing bar connecting portion 340 can be positioned corresponding to the reinforcing bar 20 in the reinforcing bar connecting operation, So that it is possible to improve the convenience of construction and shorten the construction time.

FIG. 8 is a process diagram showing one embodiment of the water collecting structure construction method according to the present invention, and FIG. 9 is a schematic view showing an embodiment of the water collecting structure construction method according to the present invention.

8 and 9, the method for constructing a water collecting structure according to the present invention includes a trenching step S100 for forming a landfill 10 into which the collecting body 100 can be embedded, a trenching step S100 A water collecting structure installation step S200 for installing the water collecting body 100 in the landfill 10 and an outer casing member 200 for enclosing the outer periphery of the water collecting body 100 in the landfill 10, A backing step S400 for forming a backing layer 30 on the outer side of the outer casing member 200 by filling the inside of the landfill 10 with the soil, The mat concrete (50) is formed by pouring and curing concrete into the upper part of the back filler layer (30) and the outer casing member (200) after the laying step S500, Layer forming process (S600).

The trenching step S100 includes a trenching step S110 of forming a landfill 10 in which the ground 100 can be buried and confirming the level of the bottom surface of the landfill 100, A mason compaction 10a or a bottom clearance process S120.

In the backfilling step S400, the backfilling layer 30 is formed in the landfill 10 in step S410. The backfilling concrete 30 is poured on the backfilling layer 30 to form the forbidden concrete layer 40 ) (S420).

Since the concrete is buried only on the outer side of the outer casing member 200 in the landfill and between the main body 100 and the outer casing member 200, the amount of concrete used during the installation of the water- Reduce construction costs.

That is, according to the present invention, the outer side of the outer casing member 200 is filled with soil when the water collecting structure is constructed, thereby greatly reducing the amount of unnecessary concrete used, thereby greatly reducing the construction cost.

The present invention simplifies the construction process for installation of the water collecting structure, thereby enhancing convenience in construction and shortening the construction period.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: landfill 20: reinforcing steel
30: backfill layer 40: abandoned concrete layer
50: matt concrete layer 100: collecting body
100a: reinforcing connection portion 110:
111: Groundwater inflow part 112: Lower concrete block
113: concrete reinforcing body 120: side wall portion
130: upper surface portion 131: hollow portion
140: reinforcing rib body 150: casing coupling portion
200: outer casing member 200a: concrete filling body
210: reinforcing rib portion 220: gap holding hole
300: gap holding member 310: gap holding bolt part
320: a gap maintaining nut part 330: a ball body
340: space retaining portion for reinforcing steel connection 341: reinforcing connecting hole
350: casing supporting part 400: height adjusting body
410: first height adjusting bolt member 420: second height adjusting bolt member
430: height adjusting screw member 440: support foot member
500: bracket member for reinforcing steel connection 600: first guide rail member
700: second guide rail member 710: engaging portion rail groove

Claims (3)

A trenching step of forming a landfill into which the housing receiving body can be buried;
A water collecting structure installing step of installing a water collecting body in the landfill after the trenching process;
An outer casing installation step of installing an outer casing member in the landfill so as to surround the outer periphery of the collection housing body in a spaced manner;
A backfilling step of filling the inside of the landfill with soil to form a backfill layer outside the outer casing member;
A backing step of placing reinforcing bars after the backing process; And
And a mat concrete layer forming step of forming a mat concrete layer by pouring and curing concrete between the outer surface of the collector main body and the inner peripheral surface of the outer casing member after the laying process and the upper portion of the back filler ground layer Construction method of sump structure.
The method according to claim 1,
Wherein the outer casing is provided with an outer casing member such that a gap is formed between the outer surface of the outer casing member and the inner circumferential surface of the outer casing member so that concrete can be poured and cured.
The method according to claim 1,
In the backfilling step,
Forming a soil-backed soil layer in the landfill; And
And forming an abandoned concrete layer by pouring abandoned concrete over the backfill layer.

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