KR102421097B1 - Precast concrete culvet structure - Google Patents

Abstract

A culvert structure according to one embodiment of the present invention comprises: a body unit which is formed in a cuboid shape, forms a body space of a cuboid shape penetrating both longitudinal sections, and forms an auxiliary space to connect an inside and outside of the body space on a part of a lower surface along the body space; and a plurality of auxiliary body units which are respectively formed in beam shapes, located in the auxiliary space, and fixed to the body unit. The precast concrete culvert structure has reduced weight to be easily transported and constructed.

Description

Precast concrete culvet structure

The present invention relates to a precast concrete culvert structure, and more particularly, to a precast concrete culvert structure capable of preventing damage during construction while reducing weight.

Culverts are buried to accommodate various underground facilities (electric wires, water pipes, gas pipes, communication cables, etc.) or to be used as sewer pipes, drainage pipes, agricultural water pipes, water intake pipes, etc. . The structures for these culverts are made of concrete, and in the past, they were constructed through concrete pouring construction. As a result, traffic jams in downtown areas, scattering dust, and dust are generated, which is a cause of frequent civil complaints.

Today, precast concrete culvert structures are prefabricated in factories and assembled on site. These precast concrete culvert structures are constructed by connecting a plurality of them to form a passage having a predetermined length. In addition, the precast concrete culvert structure is made in the form of a box having a space formed therethrough, and is made of concrete as a whole and has a significant weight. For this reason, the precast concrete culvert structure manufactured in the factory has some difficulties in being transported to the site or being constructed in the field. Precast concrete culvert structures are also constructed in a way that is propelled underground. Here, the driving force may be applied to the longitudinal section of the precast concrete culvert structure by the propulsion device, and the precast concrete culvert structure is damaged or cracked due to the driving force because it is made of concrete. For this reason, the precast concrete culvert structure is constructed underground in a damaged or cracked state, and thus it may be further damaged or cracked by external forces caused by soil and soil in the ground.

The technical problem to be achieved by the precast concrete culvert structure according to the technical idea of the present invention is to provide a precast concrete culvert structure that has a reduced weight and can be easily transported and constructed.

In addition, the technical problem to be achieved by the precast concrete culvert structure according to the technical idea of the present invention is to provide a precast concrete culvert structure that can be stably constructed when propelled underground and constructed.

In addition, the technical problem to be achieved by the precast concrete culvert structure according to the technical idea of the present invention is to provide a precast concrete culvert structure capable of preventing the inflow of fluid from the outside in a state in which they are interconnected.

The technical task to be achieved by the precast concrete culvert structure according to the technical idea of the present invention is not limited to the tasks mentioned above, and another task not mentioned will be clearly understood by those skilled in the art from the following description .

The culvert structure according to an embodiment according to the technical idea of the present invention is made of a rectangular parallelepiped shape, a rectangular parallelepiped body space is formed to penetrate both longitudinal cross-sections, and the inside and outside of the body space along the body space on a part of the lower surface A body portion in which an auxiliary space is formed to connect the; And it may be characterized in that it comprises a plurality of auxiliary body parts each made in the shape of a beam, positioned in the auxiliary space and fixed to the body portion.

In addition, the auxiliary body portion, each made of an H-beam shape, located along the body space from the side of the auxiliary space and spaced apart to be parallel to each other in the auxiliary space, a pair of fixing members fixed to the body portion; and a pair of connecting members each having an H-beam shape, spaced apart from each other to be parallel to each other between the fixing members, and connecting the fixing members while orthogonal to the fixing members.

In addition, the fixing member, each made of a plate shape corresponding to the side surface of the auxiliary space, a pair of fixing flanges spaced apart from each other to be positioned parallel to each other; and a fixing web formed in a plate shape having a length corresponding to the fixing flange and fixed by being positioned orthogonal to the fixing flanges between the fixing flanges, wherein one of the fixing flanges corresponds to the inner surface of the auxiliary space. Positioned and fixed, the other of the fixing flanges may be connected orthogonally to the connecting member.

In addition, the body portion further includes a plurality of fixed bases positioned and fixed near the upper and lower ends of the auxiliary space and near both longitudinal cross-sections of the body from the side of the auxiliary space, and at least one of the fixing flanges has a plurality of corresponding to the fixed base. Four fixing holes are formed, and in a state in which one of the fixing flanges is positioned to correspond to the side surface of the auxiliary space and the fixing hole is positioned to correspond to the fixing base, the fastening member is inserted into the fixing base after passing the fixing hole and is screwed Combined, it is possible to fix the auxiliary body portion to the body portion.

In addition, the fixed base is made in the form of a nut, the base body is inserted into the side of the auxiliary space, one surface is positioned to form the same plane as the side of the auxiliary space; and a base auxiliary body made in the form of a reinforcing bar, which is connected to the other surface opposite to one surface of the base body and is positioned inside the body portion, wherein a portion of the fastening member is inserted into the base body to be screw-coupled.

In addition, the culvert structure, each of which is made of a circular bar shape or a circular pipe shape, is inserted into the body part through a cross-section of the body part and further comprises a plurality of support reinforcement parts positioned near the auxiliary space along the body space, the body part When propelled underground, a propulsive force may be applied to the support reinforcement.

In addition, the support reinforcement portion may be rotatably positioned in the body portion and detachable from the body portion.

In addition, a guide space is concavely formed along the periphery of the body space in one cross section of the body, and guide protrusions corresponding to the guide space are formed to protrude along the periphery of the body space in the other longitudinal cross-section opposite to the one cross section of the body. When connected to each other, the guide protrusion of one body part may be inserted into the guide space of the other body part.

In addition, a pair of blocking members made of a water-expandable material are positioned between the mutually connected body parts, and the guide protrusion of one body part is inserted into the guide space of the other body part, and the guide protrusion is the inner surface of the guide space. In a state spaced apart from the blocking members, the blocking members are in contact with the other longitudinal end face of one body part and the one end face of the other body part, and may be positioned along the guide space in a state spaced apart from each other so that the guide space is positioned therebetween.

In addition, in a state in which the blocking members are in contact with the body parts in contact with each other, a waterproofing agent may be injected between the blocking members.

The precast concrete culvert structure according to embodiments according to the technical spirit of the present invention has the following effects.

(1) It is manufactured to reduce weight and can be easily transported and constructed.

(2) When it is propelled underground and constructed, it can be constructed stably.

(3) In a state of being connected to each other, the inflow of fluid from the outside can be prevented.

However, the effects that can be achieved by the culvert structure according to an embodiment of the present invention are not limited to those mentioned above, and other effects not mentioned may be clearly understood by those skilled in the art from the description below. will be.

In order to more fully understand the drawings cited herein, a brief description of each drawing is provided.
1 is a perspective view showing a precast concrete culvert structure according to an embodiment of the present invention.
Figure 2 is a perspective view showing the separated precast concrete culvert structure according to an embodiment of the present invention.
Figure 3 is a cross-sectional view showing a state of connecting the precast concrete culvert structure according to an embodiment of the present invention.

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail through the detailed description. However, this is not intended to limit the present invention to specific embodiments, and it should be understood that the present invention includes all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, numbers (eg, first, second, etc.) used in the description process of the present specification are only identification symbols for distinguishing one component from other components.

In addition, in this specification, when a component is referred to as "connected" or "connected" with another component, the component may be directly connected or directly connected to the other component, but in particular It should be understood that, unless there is a description to the contrary, it may be connected or connected through another element in the middle.

In addition, in the present specification, two or more components may be combined into one component, or one component may be divided into two or more for each more subdivided function. In addition, each of the components to be described below may additionally perform some or all of the functions of other components in addition to the main functions that each component is responsible for, and some of the main functions of each of the components may have different functions. It goes without saying that it may be performed exclusively by the component.

Hereinafter, embodiments according to the technical spirit of the present invention will be described in detail in turn.

1 is a perspective view illustrating a precast concrete culvert structure 100 according to an embodiment of the present invention, and FIG. 2 is a perspective view showing the precast concrete culvert structure 100 according to an embodiment of the present invention. 3 is a cross-sectional view showing a state in which the precast concrete culvert structure 100 according to an embodiment of the present invention is connected.

1 to 3 , the precast concrete culvert structure 100 according to an embodiment of the present invention may include a body portion 101 , an auxiliary body portion 102 and a support reinforcement portion 103 . It can accommodate various underground facilities (electric wires, water pipes, gas pipes, communication cables, etc.) or can be used as sewage pipes, drain pipes, agricultural water pipes, water intake pipes, and the like. In addition, the precast concrete culvert structure 100 of this embodiment may be installed by being propelled underground.

The body 101 may have a rectangular parallelepiped shape and may be made of concrete. In addition, the body portion 101 may include a body space 111 , an auxiliary space 113 , a guide space 115 , a guide protrusion 117 , and a fixed base 119 .

The body space 111 may be formed to penetrate both longitudinal cross-sections of the body 101 . Here, the body space 111 may have a shape corresponding to the body part 101 (ie, a rectangular parallelepiped shape).

The auxiliary space 113 may be formed on a portion of the lower surface of the body 101 to connect the inside and the outside of the body space 111 along the body space 111 . In addition, the auxiliary space 113 may have a width smaller than the width of the body space 111 . Here, the width of the body space 111 may mean a distance between both sides of the body space 111 , and the width of the auxiliary space 113 may mean a distance between both sides of the auxiliary space 113 .

The guide space 115 may be concavely formed along the circumference of the body space 111 in one cross-section of the body part 101 . Here, the guide space 115 may have a width that gradually becomes narrower as it is spaced apart from one cross-section of the body portion 101 .

The guide protrusion 117 may be formed to protrude along the periphery of the body space 111 in the other longitudinal cross-section opposite to the first cross-section of the body portion 101 . Here, the guide protrusion 117 may have a shape corresponding to the guide space 115 , and may have a width that becomes narrower as it is spaced apart from the other longitudinal cross-section of the body portion 101 .

The fixed base 119 is made of a plurality of pieces, and may be positioned and fixed in the body portion 101 to correspond to the side surface of the auxiliary space 113 . Here, the fixed base 119 may be located near the upper and lower ends of the auxiliary space 113 from the side of the auxiliary space 113 , and both longitudinal cross-sections of the body 101 .

In addition, each of the fixed base 119 may include a base body 119a and a base auxiliary body 119b.

The base body (119a) is made in the form of a nut, it may be inserted into the side of the auxiliary space (113). Here, one surface of the base body 119a may be positioned to form the same plane as the side surface of the auxiliary space 113 , and the other surface opposite to one surface of the base body 119a is to be located inside the body 101 . can

The base auxiliary body 119b is formed in the form of a reinforcing bar, and is connected to the other surface of the base body 119a and may be located inside the body 101 .

The fixing base 119 as described above may be made of metal. When the body 101 is manufactured, the fixed base 119 may be disposed on the body 101 while the concrete is curing.

The auxiliary body portion 102 is made of a plurality of doedoe, each may be made of a beam (beam) shape made of steel (steel). The auxiliary body portion 102 may be combined in a shape corresponding to the auxiliary space 113 , be positioned in the auxiliary space 113 and fixed to the body portion 101 . In addition, the auxiliary body portion 102 may include fixing members 121 and connecting members 123 .

The fixing members 121 are made of a pair, and each may be formed in an H-beam shape. The fixing members 121 may be respectively positioned along the body space 111 from the side of the auxiliary space 113 , spaced apart from each other to be parallel to each other in the auxiliary space 113 and fixed to the body 101 .

Also, the fixing member 121 may include fixing flanges 121a and a fixing web 121b.

The fixing flanges 121a are made of a pair, and each may be formed in a plate shape corresponding to a side surface of the auxiliary space 113 . These fixing flanges 121a may be spaced apart from each other to be parallel to each other. In addition, fixing holes 121 ′ may be formed in at least one of the fixing flanges 121a to correspond to the fixing base 119 .

The fixing web 121b may be formed in a plate shape having a length corresponding to the fixing flange 121a. The fixing web 121b may be positioned between the fixing flanges 121a to be perpendicular to the fixing flanges 121a. Here, the fixing web (121b) may be fixed to the fixing flange (121a).

When the fixing member 121 as described above is positioned to correspond to the side surface of the auxiliary space 113 and contacted, one of the fixing flanges 121a is in contact while corresponding to the side surface of the auxiliary space 113, and the fixing web ( 121b) may be positioned between the fixing flanges 121a to be perpendicular to the side surface of the auxiliary space 113 .

The connecting members 123 are made of a pair, and each may be formed in an H-beam shape. The connection members 123 may be spaced apart from each other to be parallel to each other between the fixing members 121 , and may be fixed to the fixing members 121 while being perpendicular to the fixing members 121 . In addition, the connection members 123 may be fixed to the fixing members 121 by welding while being separated from the fixing members 121 .

Also, the connecting member 123 may include connecting flanges 123a and a connecting web 123b.

The connection flanges 123a are made of a pair, and each may be formed in a plate shape having a width corresponding to the width of the fixing flange 121a. These connection flanges 123a may be positioned to be parallel to each other, and may be positioned to be perpendicular to the other one of the fixing flanges 121a.

The connecting web 123b may be formed in a plate shape having a width corresponding to the width of the fixing flange 121a and a length corresponding to the connecting flange 123a. The connecting web 123b may be positioned between the connecting flanges 123a to be orthogonal to the connecting flanges 123a, and may be positioned to be perpendicular to the other one of the fixing flanges 121a.

In the connection member 123 as described above, both longitudinal cross-sections of the connection flanges 123a and the connection web 123b may contact and be fixed to the other one of the fixing flanges 121a of the fixing member 121, respectively. Due to this, the connecting members 123 may be positioned to be perpendicular to the fixing members 121 .

On the other hand, as mentioned above, when the fixing member 121 is contacted to correspond to the side surface of the auxiliary space 113 , one of the fixing flanges 121a is in contact while corresponding to the side surface of the auxiliary space 113 , The fixing web 121b may be positioned between the fixing flanges 121a to be perpendicular to the side surface of the auxiliary space 113 . Here, the fixing holes 121 ′ formed in one of the fixing flanges 121a may be positioned to correspond to the fixing base 119 , and in particular, may be positioned to correspond to the base body 119a of the fixing base 119 . have. The fastening member 110 may be inserted and screwed into the base body 119a while passing through the fixing hole 121 ′. Here, one end portion of the fastening member 110 may be screwed and inserted while being screwed to the base body 119a. Fastening through the screw coupling of the fastening member 110 and the fixing base 119 as described above may fix the auxiliary body 102 to the body 101 in the auxiliary space 113 .

The support reinforcing part 103 may be formed in plurality, and each may be formed in a bar shape. The support reinforcement 103 may be inserted into the body 101 through a cross-section of the body 101 and positioned along the body space 111 . Here, the support reinforcing part 103 may be located near the auxiliary space 113 and located below the body part 101 .

In addition, the support reinforcement 103 may be made of steel, and may be formed in the form of a round bar or a round pipe. The support reinforcing part 103 can be rotated while being inserted into the body 101 through a cross-section of the body 101, and can be separated from the body 101 through a cross-section of the body 101. can In this embodiment, the support reinforcement portion 103 is made of four, each of which may be located in pairs at both sides of the body portion (101).

The precast concrete culvert structure 100 according to this embodiment as described above may be constructed underground as follows.

The body portion 101, the auxiliary body portion 102 and the support reinforcement portion 103 may be transported to the construction site in a state separated from each other. Here, the auxiliary body portion 102 may be transported in a state in which the fixing members 121 and the connecting members 123 are separated.

At the construction site, the fixing members 121 and the connecting members 123 are welded to form an auxiliary body portion 102 , and this auxiliary body portion 102 is located in the auxiliary space 113 of the body portion 101 , It may be fixed to the body 101 . In addition, the support reinforcement part 103 may be inserted into the body part 101 through a cross-section of the body part 101 to be positioned.

The culvert structure 100 assembled as described above may be positioned such that the guide protrusion 117 of the body 101 faces the ground. That is, the other longitudinal cross-section of the body portion 101 may be positioned to face the ground. Here, the propulsion force is applied to the support reinforcement part 103 to move the body part 101 together with the auxiliary body part 102 toward the ground to be propelled into the ground. That is, the propulsion device that generates the propulsion force may be in contact with the support reinforcing part 103 to provide the propulsion force to the body part 101 through the support reinforcing part 103 .

In addition, when the body portion 101 is propelled into the ground together with the auxiliary body portion 102 , the soil located in the body space 111 may be guided in a direction opposite to the propulsion direction. Due to this, the soil can be removed from the body space (111).

In addition, in a state in which the body portion 101 is completely propelled into the ground and soil is removed from the body space 111 , the body portion 101 supports the load applied by the soil and soil in combination with the auxiliary body portion 102 . It may not be deformed or cracked while doing so. In some cases, concrete may be poured into the auxiliary space 113 to correspond to the auxiliary body 102 . Here, the concrete poured into the auxiliary space 113 may be formed as a lower surface of the body space 111 .

In the precast concrete culvert structure 100 according to this embodiment, the body portion 101 is made in a rectangular parallelepiped shape, has a body space 111 penetrating both longitudinal cross-sections, and on the lower surface the inside and outside of the body space 111 are formed. It has an auxiliary space 113 for connecting. Here, the body 101 may have a reduced weight by having the auxiliary space 113 as compared to the case of having the body space 111 . In addition, the auxiliary body portion 102 is made of a plurality of beam shapes, by being positioned in the auxiliary space 113 and fixed to the body portion 101, can be combined with the body portion (101). When the body portion 101 is propelled underground and constructed, the body portion 101 may not be deformed or cracked while supporting the load applied by the soil in combination with the auxiliary body portion 102 . In particular, the precast concrete culvert structure 100 according to this embodiment forms an overall appearance by the auxiliary body portion 102 made of steel while being positioned in the body portion 101 and the auxiliary space 113 made of concrete. can do. Here, the auxiliary body portion 102 is made of a combination of a plurality of H-beam shapes, and may have a significantly lighter weight than concrete that may correspond to the size of the auxiliary space 113 . Therefore, the precast concrete culvert structure 100 according to this embodiment has a light weight and can be easily transported.

In addition, in the precast concrete culvert structure 100 according to this embodiment, the support reinforcement part 103 is made of a bar shape made of steel, and the body part ( It may be located near the auxiliary space 113 formed in the lower portion of the 101). When the body portion 101 is propelled underground, the driving force may be directly applied to the support reinforcement portion 103 through the support reinforcement portion 103 . That is, the driving force may be intensively applied to the support reinforcement 103 made of steel. Here, the body portion 101 may be propelled into the ground by a driving force applied to the support reinforcement portion 103 . In particular, since the support reinforcement part 103 is made of steel having a higher strength than concrete, it can be used to propel the body part 101 underground without being damaged by the driving force. Therefore, the culvert structure 100 according to this embodiment can be uniformly or damaged by the propulsion force acting in the process of propulsion in the ground can be prevented.

On the other hand, the culvert structure 100 according to the present embodiment may be connected to each other in a state in which the body space 111 is connected, consisting of a plurality. Here, the guide protrusion 117 formed on the other longitudinal cross-section of one body portion 101 may be inserted into the guide space 115 formed on the one end surface of the other body portion 101 . By inserting the guide protrusion 117 into the guide space 115 , the body parts 101 may be positioned to be easily connected.

Blocking members 120 may be installed between the body parts 101 as described above. Here, the blocking members 120 are made as a pair, and may be positioned along the guide space 115 , and may be spaced apart from each other so that the guide space 115 is positioned therebetween.

In addition, when the guide protrusion 117 formed on the other longitudinal cross-section of one body part 101 is inserted into the guide space 115 formed on the one end surface of the other body part 101, the blocking members 120 are one The other longitudinal section of the body 101 and the other longitudinal section of the other body 101 of the can be separated from each other. Here, the guide protrusion 117 may be inserted into the guide space 115 while being spaced apart from the inner surface of the guide space 115 , and may be positioned between the blocking members 120 . For this reason, in a state in which the body parts 101 are connected to each other, the blocking members 120 may close the gap between the body parts 101 .

In addition, the blocking member 120 may be made of a water-expandable material, may be expanded in contact with water, and may firmly close between the body parts 101 .

In addition, while the blocking members 120 are in contact with the body parts 101 , a waterproofing agent (not shown) may be injected between the blocking members 120 . Here, the waterproofing agent may be applied around the body space 111 to correspond to the guide space 115 and the guide protrusion 117 between the body parts 101 . Accordingly, in a state in which the body parts 101 are connected to each other, between the body parts 101 can be more firmly closed. For this reason, the precast concrete structure 100 according to the present embodiment can prevent the moisture contained in the soil from flowing into the body space 111 even when they are connected to each other.

On the other hand, the same guide space as the guide space 115 may be formed in the other longitudinal section of the body 101 instead of the guide protrusion 117 . Due to this, the space into which the waterproofing agent is injected can be increased.

In the above, the technical idea of the present invention has been described in detail with reference to preferred embodiments, but the technical idea of the present invention is not limited to the above embodiments, and those of ordinary skill in the art within the scope of the technical spirit of the present invention Various modifications and changes are possible by the person.

100: precast concrete culvert structure
101: body part
102: auxiliary body portion
103: support reinforcement part

Claims (10)

A body portion made of a rectangular parallelepiped shape, a body space of a rectangular parallelepiped shape is formed to penetrate both longitudinal cross-sections, and an auxiliary space is formed on a part of the lower surface to connect the inside and the outside of the body space along the body space; and
Each of which is made in a beam shape, including a plurality of auxiliary body parts positioned in the auxiliary space and fixed to the body portion,
Auxiliary body,
A pair of fixing members each made of an H-beam shape, positioned along the body space from the side of the auxiliary space and spaced apart from each other to be parallel to each other in the auxiliary space and fixed to the body; and
A pair of connecting members each made in an H-beam shape, spaced apart to be parallel to each other between the fixing members, and perpendicular to the fixing members, connecting the fixing members,
The fixing member is
A pair of fixing flanges, each of which has a plate shape corresponding to the side of the auxiliary space, and is spaced apart from each other to be parallel to each other; and
Doedoe made of a plate shape having a length corresponding to the fixing flange, comprising a fixing web that is fixed by being positioned orthogonal to the fixing flanges between the fixing flanges,
One of the fixing flanges is positioned and fixed to correspond to the inner surface of the auxiliary space, and the other of the fixing flanges is connected orthogonally to the connecting member,
body part,
In the side of the auxiliary space, it further comprises a plurality of fixed bases positioned and fixed near the upper and lower ends of the auxiliary space and near both longitudinal cross-sections of the body,
A plurality of fixing holes are formed in at least one of the fixing flanges to correspond to the fixing base,
In a state in which one of the fixing flanges is positioned to correspond to the side surface of the auxiliary space and the fixing hole is positioned to correspond to the fixing base, the fastening member is inserted and screwed into the fixing base in a state that passes through the fixing hole, so that the auxiliary body is part of the body fixed to the buoy,
fixed base,
a base body made in the form of a nut and positioned to be inserted into the side of the auxiliary space, one surface of which is positioned to form the same plane as the side of the auxiliary space; and
It is made in the form of a reinforcing bar, and is connected to the other surface opposite to one surface of the base body and includes a base auxiliary body positioned inside the body part,
Culvert structure, characterized in that a portion of the fastening member is inserted into the base body and screwed together.
delete delete delete delete A body portion made of a rectangular parallelepiped shape, a body space of a rectangular parallelepiped shape is formed to penetrate both longitudinal cross-sections, and an auxiliary space is formed on a part of the lower surface to connect the inside and the outside of the body space along the body space;
A plurality of auxiliary body parts each made of a beam shape, located in the auxiliary space and fixed to the body portion; and
Each of which is made in a circular bar shape or a circular pipe shape, including a plurality of support reinforcement parts inserted into the body part through a cross-section of the body part and positioned near the auxiliary space along the body space,
A culvert structure, characterized in that when the body part is propelled into the ground, a driving force is applied to the support reinforcement part.
7. The method of claim 6,
The support reinforcement portion is rotatably positioned in the body portion, and the culvert structure, characterized in that detachable from the body portion.
7. The method of claim 1 or 6,
A guide space is concavely formed along the periphery of the body space in one cross-section of the body, and a guide projection corresponding to the guide space is formed to protrude along the periphery of the body space in the other longitudinal cross-section opposite to the one cross-section of the body,
Culvert structure, characterized in that when the body parts are connected to each other, the guide projection of one body part is inserted into the guide space of the other body part.
9. The method of claim 8,
A pair of blocking members made of a water-expandable material are positioned between the body parts connected to each other,
The guide protrusion of one body part is inserted into the guide space of the other body part, and in a state in which the guide protrusion is spaced apart from the inner surface of the guide space, the blocking members are on the other longitudinal end face of one body part and one end face of the other body part. A culvert structure, characterized in that it is positioned along the guide space while being spaced apart from each other so that they are in contact and the guide space is positioned therebetween.
10. The method of claim 9,
In a state in which the blocking members are in contact with the body parts in contact with each other, a waterproofing agent is injected between the blocking members.

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