KR102536642B1 - Precast culvert structure having reinforced waterproof function - Google Patents

Abstract

The present invention relates to a precast culvert assembly with improved watertight function, wherein four first through holes 11 are formed on the corner side and a first side groove communicating with each of the first through holes 11 on the side surface. The first precast culvert 10 in which (12) is formed; A second precast culvert 20 having four second through-holes 21 formed on the mosiri side and a second side concave groove 22 communicating with each of the second through-holes 21 on the side surface; a steel wire 30 passing through each of the first and second through holes 11 and 21 and protruding into the first and second side grooves 12 and 22; An anchorage 40 for fixing an end of the steel wire 30 protruding into the first and second side grooves 12 and 22; It is formed to communicate with the first and second through holes (11) (21) at the interfaces of both ends of the first and second precast culverts (10) (20), and has a diameter larger than the first and second through holes (11) (21). Both end fitting grooves 50 and; It is characterized in that it includes; a double-end fitting seal 60 that is inserted into the steel wire 30 in a state in which the first and second precast culverts 10 and 20 are in close contact with each other so as to be sealed in the both-end fitting groove 50 .

Description

Precast culvert assembly with improved watertight function {Precast culvert structure having reinforced waterproof function}

The present invention relates to a precast prefabricated culvert, and more particularly, has a watertight function that can fundamentally prevent the inflow of groundwater into the culvert as well as corrosion that may occur in steel wires that adhere to the precast culvert. It relates to an improved precast culvert assembly.

In general, the precast culvert assembly implements facilities such as water supply and sewage, power outlets, communication outlets, and utility outlets by directly assembling a precast concrete culvert manufactured in a factory on site.

The precast culvert has a structure in which four through-holes are formed on the corner side, and after inserting a steel wire into the connection hole in a state in which the culvert and other culverts are in close contact, fixing means on one side and tensioning means on the other side are used to secure the culverts on both sides. It was completed by strongly adhering to each other, and then finishing the boundary using finishing materials such as waterstop agent or sealant. The finishing material prevents the steel wire from being exposed to the outside by closing the interface between the culverts.

This precast culvert assembly eliminates the process of pouring concrete and dramatically shortens the construction period, thereby solving the inconvenience of citizens and obstruction of traffic flow. The cast culvert assembly has the advantage of having a homogeneous quality.

However, the culvert and other culverts are strongly adhered to each other by 4 steel wires. Over time, the properties of the finishing material that finishes the boundary between the culvert and other culverts change or cracks occur due to temperature changes. In this case, cracks Moisture penetrates between them and corrodes the steel wire.

In addition, when the corrosion state is prolonged, the tensile force of the steel wire is weakened, and the adhesion between the culvert and other culverts is weakened, and thus more gaps are generated at the boundary between the culvert and other culverts, which further accelerates the corrosion of the steel wire. In the end, there was a problem that the steel wire was damaged and the watertight ability of the precast culvert assembly was weakened.

The present invention was created to solve the above problems, and can substantially enable semi-permanent use by fundamentally preventing the possibility of corrosion occurring in a steel wire that adheres a precast culvert and other precast culverts to each other. It is an object to provide a precast culvert assembly with improved watertightness.

In order to achieve the above object, the precast culvert assembly with improved watertightness according to the present invention has four first through holes 11 formed on the corner side, and each first through hole 11 on the side. ) A first precast culvert 10 having a first side groove 12 communicating with the first precast culvert 10; A second precast culvert 20 having four second through holes 21 formed on the corner side and second side grooves 22 communicating with each second through hole 21 formed on the side surface; a steel wire 30 passing through each of the first and second through holes 11 and 21 and protruding into the first and second side grooves 12 and 22; An anchorage 40 for fixing an end of the steel wire 30 protruding into the first and second side grooves 12 and 22; It is formed to communicate with the first and second through holes 11 and 21 at the boundary surfaces of both ends of the first and second precast culverts 10 and 20, and is larger than the first and second through holes 11 and 21 Both ends fitting groove 50 having an inner diameter; And a double-end fitting seal 60 that is inserted into the steel wire 30 in a state in which the first and second precast culverts 10 and 20 are in close contact with each other to be sealed in the double-end fitting groove 50; characterized by

In the present invention, the both ends fitting seal 60, as the steel wire 30 passes through, the seal body 61 sandwiched in the both ends fitting groove 50, and the steel wire 30 penetrates the It includes left and right fitting pipes 62 and 63 extending to both sides of the seal body 61 and inserted into the first and second through holes 11 and 21.

In the present invention, the both ends fitting seal 60 is formed on the inner circumferential surface of the left fitting pipe 62 and a plurality of left o-ring wings 64 in close contact with the outer circumferential surface of the steel wire 30, and the right fitting pipe It is formed on the inner circumferential surface of (63) and further includes a plurality of right O-ring wings 65 in close contact with the outer circumferential surface of the steel wire 30.

In the present invention, the first and second through holes 11 and 22 are formed to communicate with the first and second through holes 11 and 21 on the inner surface of the first and second side grooves 12 and 22 ( 12) a concave fitting groove 70 having a larger inner diameter; And a concave fitting seal 80 that is inserted between the anchorage 40 and the concave fitting groove 70 so as to be sealed while being inserted into the steel wire 30; further includes.

In the present invention, the concave fitting seal 80 is in close contact with the anchorage 40 and has a larger diameter than the coupler 42 and includes a support plate ring 81 made of a metal material, and the support plate ring 81 It is located between the and the concave fitting groove 70 and is made of a rubber material and includes a support sealing 82 for preventing penetration of water into the first and second through holes 11 and 21.

In the present invention, the support sealing ring 82 includes a disk seal 82b having a ring groove 82a into which the support plate ring 81 is inserted, and extending forward from the disk seal 82b to the first, It includes a fitting pipe 82c inserted into the two through holes 11 and 21.

According to the present invention, according to the present invention, both end fitting grooves 50 formed to communicate with the first and second through holes 11 and 21 at the interfaces of both ends of the first and second precast culverts 10 and 20 are Formed, the first and second precast culverts 10 and 20 are inserted into the steel wire 30 in a state of close contact and include a double-end fitting seal 60 that is sealed in the both-end fitting groove 50, Even if the physical properties of the finishing material that finishes the interface between the 1 and 2 precast culverts 10 and 20 change or cracks occur and the groundwater penetrates, it is possible to fundamentally prevent the steel wire 30 from being exposed to groundwater. Accordingly, even after a long time, the durability of the precast culvert assembly can be maintained semi-permanently by preventing corrosion of the steel wire 30.

In addition, a concave fitting groove 70 communicating with the first and second through holes 11 and 21 is formed on the inner surface of the first and second side grooves 12 and 22, and is inserted into the steel wire 30 Since the fitting seal 80 is sealedly inserted between the anchorage 40 and the fitting groove 70, even if the finishing agent that finished the first and second side grooves 12 and 22 is damaged and groundwater penetrates, the groundwater Penetration into the first and second through holes 11 and 21 can be fundamentally prevented, and thus corrosion of the steel wire 30 can be prevented again to maintain the durability of the precast culvert assembly.

1 is a perspective view of a precast culvert assembly with improved watertight function according to the present invention;
2 is a side view of the precast culvert assembly of FIG. 1;
3 is a side view for explaining the structure by extracting the precast culvert of FIG. 1;
Figure 4 is a side view for explaining that the anchorage for fixing the steel wire to the side groove of Figure 1 is located;
Figure 5 is a side view for explaining the both end fitting grooves formed to communicate with the first and second through holes on both front and rear end surfaces of the precast culvert of FIG. ,
Figure 6 is a view for explaining the structure of the fitting seal of Figure 5;
Figure 7 is to explain the concave fitting groove formed to communicate with the first and second through holes on the inner surface of the first and second side concave grooves of FIG. side view for

Hereinafter, a precast culvert assembly with improved watertightness according to the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, what is described as "above" or "above" may include not only what is directly on top of contact but also what is on top of non-contact. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. Terms are only used to distinguish one component from another. Singular expressions include plural expressions unless the context clearly dictates otherwise. In addition, when a certain component is said to "include", this means that it may further include other components without excluding other components unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation. In addition, in the drawings, the size of components may be exaggerated or reduced for convenience of description. For example, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to the illustrated bar.

1 is a perspective view of a precast culvert assembly with improved watertightness according to the present invention, FIG. 2 is a side view of the precast culvert assembly of FIG. 1, and FIG. 3 is an extract of the precast culvert of FIG. 1 to explain the structure. A side view for, Figure 4 is a side view for explaining that the anchorage for fixing the steel wire to the side groove of Figure 1 is located.

As shown, the precast culvert assembly with improved watertight function according to the present invention has four first through holes 11 formed on the corner side and communicates with each of the first through holes 11 on the side surface. A first precast culvert 10 having a first side groove 12; A second precast culvert 20 having four second through holes 21 formed on the corner side and second side concave grooves 22 communicating with each of the second through holes 21 formed on the side surface; a steel wire 30 passing through each of the first and second through holes 11 and 21 and protruding into the first and second side grooves 12 and 22; An anchorage 40 for fixing the end of the steel wire 30 protruding into the first and second side grooves 12 and 22; It is formed to communicate with the first and second through holes (11) (21) at the interfaces of both ends of the first and second precast culverts (10) (20), and has a larger inner diameter than the first and second through holes (11) (21). Both ends having a fitting groove (50) and; A double-end fitting seal 60 that is inserted into the steel wire 30 in a state in which the first and second precast culverts 10 and 20 are in close contact with each other to be sealed in the both-end fitting groove 50; It is formed to communicate with the first and second through holes 11 and 21 on the inner surface of the first and second side grooves 12 and 22, and has a larger inner diameter than the first and second through holes 11 and 12. Concave fitting groove 70 and; It is characterized in that it includes; a yo-in seal 80 that is sandwiched to be sealed between the anchorage 40 and the yo-in groove 70 while being inserted into the steel wire 30.

The precast culvert has the same structure, and the number of precast culverts employed varies depending on the size of the assembly to be implemented. In this embodiment, two precast culverts from among a plurality of precast culverts are extracted and described by referring to first and second codes.

As shown in FIGS. 1 and 2, the first precast culvert 10 has four first through holes 11 formed on the corner side and a first side surface communicating with the first through hole 11 on the side surface. In addition to the groove 12, a first convex portion 13 formed at the front end and a first concave portion 14 formed at the rear end and meshed with the first convex portion 13 are further included, and the second free The cast culvert 20 further includes a second convex part 23 formed at the front end and a second convex part 24 formed at the rear end and having a form engaged with the second convex part 23. Accordingly, when the first and second precast culverts 10 and 20 are in close contact, the adjacent first convex part 14 and the second convex part 23 are engaged, so that a plurality of first and second convex parts are in close contact. The precast culverts 10 and 20 may be aligned in a line.

As shown in FIG. 2, the steel wire 30 passes through the first and second through holes 11 and 21 when the first and second precast culverts 10 and 20 are in close contact with each other. It protrudes into the first and second side grooves 12 and 22. The steel wires 30 protruding inside the first and second side grooves 12 and 22 are fixed to the first and second side grooves 11 and 22 by being coupled to the anchorage 40. The steel wire 30 may be formed by twisting a thin wire or may be implemented in a round bar shape, and in this embodiment, a round bar shape is described for easy explanation.

As shown in FIG. 4, the anchorage 40 fixes the end of the steel wire 30 inside the first and second side grooves 12 and 22, and is a wedge in which the end of the steel wire 30 is sandwiched. (41) and a coupler (42) that is in close contact with the inner surfaces of the first and second side grooves (12) (22) while being inserted into the wedge (41).

The wedge 41 is composed of a plurality of wings forming a cone shape, and when trying to move to the inside of the coupler 42 in a state where it is partially pinched in the coupler 42, the plurality of wings are pinched together and the steel wire 30 pinched is tightened with strong force.

With the anchorage 40 fixing the end of the steel wire 30 inside the first and second side grooves 12 and 22, the sealant finishing agent closes the first and second side grooves 12 and 22, thereby fixing the anchorage ( 40) and the steel wire 30 are not exposed to the outside. Since this anchorage 40 is a common technique in the art, further detailed description will be omitted.

Figure 5 is a side view for explaining the both end fitting grooves formed to communicate with the first and second through holes on both front and rear end surfaces of the precast culvert of FIG. And, Figure 6 is a view for explaining the structure of the fitting seal of Figure 5.

The both end fitting grooves 50 are formed to communicate with the first and second through holes 11 and 21 at both front and rear boundary surfaces of the first and second precast culverts 10 and 20, respectively. It forms a larger inner diameter than the first and second through holes 11 and 21.

The double end fitting seal 60 seals the steel wire 30 by being inserted into the both end fitting groove 50 when the first and second precast culverts 10 and 20 are in close contact with each other. This double-end fitting seal 60 extends to both sides of the seal body 61 as the steel wire 30 passes through and the seal body 61 inserted into the both ends fitting groove 50 and the steel wire 30 penetrates formed on the inner circumferential surface of the left and right fitting pipes 62 and 63 and the left fitting pipe 62, which are inserted into the first and second through holes 11 and 21, and are in close contact with the outer circumferential surface of the steel wire 30 , In this embodiment, three left o-ring wings 64 and a plurality of right fitting tubes 63 formed on the inner circumferential surface and in close contact with the outer circumferential surface of the steel wire 30, in this embodiment, three right o-ring wings 65 includes

The thickness (D1) of the seal body (61) is more than twice the depth (D2) of the both ends fitting groove (50). Accordingly, when the first and second precast culverts 10 and 20 are in close contact with each other, the seal body 61 is deformed and adheres to the bottom of the both end fitting groove 50.

The left and right fitting pipes 62 and 63 are inserted into the first and second through holes 11 and 21 through which the steel wire 30 passes. The left and right fitting pipes 62 and 63 have left and right slopes 62a and 63a that become narrower toward both sides, and accordingly, the first and second precast culverts 10 and 20 are mutually When in close contact, the first and second left and right fitting pipes 62 and 63 are guided so as to be accurately inserted into the first and second through holes 11 and 21 and at the same time the first and second through holes 11 and 21 ) is strongly attached to the inner circumferential surface of the

The left and right O-ring blades 64 and 65 are in close contact with the outer circumferential surface of the steel wire 30 sandwiched between the left and right fitting pipes 62 and 63. As shown in FIG. 6, the left O-ring wing 64 and the right O-ring wing 65 are formed obliquely in the direction in which the steel wire 30 is sandwiched, and accordingly, the steel wire 30 is fitted with both ends of the seal 60 ), while lying obliquely to one side when penetrating, the outer circumferential surface of the steel wire 30 is firmly sealed.

Even if the groundwater is penetrated by the waterstop material being damaged or cracks are generated at the interface between the first and second precast culverts 10 and 20 by the both ends fitting groove 50 and the both ends fitting seal 60, the groundwater does not flow through the steel wire. (30), the possibility of steel wire corrosion can be fundamentally eliminated.

Figure 7 is to explain the concave fitting groove formed to communicate with the first and second through holes on the inner surface of the first and second side concave grooves of FIG. This is a side view for

The groove fitting groove 70 is formed to communicate with the first and second through holes 11 and 21 on the inner surface of the first and second side grooves 12 and 22, and the first and second through holes 11 ( 12) By forming a larger inner diameter, a space in which the concave fitting seal 80 is inserted is provided.

The concave fitting seal 80 is positioned between the anchorage 40 and the concave fitting groove 70 in a state of being sandwiched by the steel wire 30, and the penetration water penetrates into the first and second through holes 11 and 21. prevent that This concave fitting seal 80 is in close contact with the anchorage 40 and has a larger diameter than the coupler 42 and is between a support plate ring 81 made of a metal material and between the support plate ring 81 and the concave fitting groove 70 It is located in the rubber material and includes a support sealing 82 for preventing the permeation water from penetrating into the first and second through holes 11 and 21.

The support sealing ring 82 includes a disk seal 82b having a ring groove 82a into which the support plate ring 81 is inserted, and first and second through holes 11 and 21 extending from the disk seal 82b toward the front side. It includes a fitting pipe 82c that is inserted into.

Accordingly, when the anchorage 40 assembled to the steel wire 30 presses the recessed seal 80 with a strong force, the disc after being dispersed in the support ring plate 81 made of metal inserted into the ring groove 82a Since the seal 82b is applied, it is possible to prevent the support sealing 82 made of rubber from being damaged. In particular, since the support sealing 82 is inserted into the concave fitting groove 70, the support sealing 82 can maintain its shape even when a strong force is applied through the anchorage 40.

If the concave fitting groove 70 is not employed, when a strong force is applied through the anchorage 40, the support sealing 82 expands in the radial direction and is damaged.

In this way, according to the present invention, both end fitting grooves 50 formed to communicate with the first and second through holes 11 and 21 are formed on the boundary surfaces of both ends of the first and second precast culverts 10 and 20, , By including a double-end fitting seal 60 that is inserted into the steel wire 30 in a state in which the first and second precast culverts 10 and 20 are in close contact and sealed in the both-end fitting groove 50, the first, Even if the physical properties of the finishing material that finishes the interface between the 2 precast culverts 10 and 20 change or cracks occur and the groundwater penetrates, the steel wire 30 can be fundamentally prevented from being exposed to groundwater. Even over time, the durability of the precast culvert assembly can be maintained semi-permanently by preventing corrosion of the steel wire 30.

In addition, a concave fitting groove 70 communicating with the first and second through holes 11 and 21 is formed on the inner surface of the first and second side grooves 12 and 22, and is inserted into the steel wire 30 Since the fitting seal 80 is sealedly inserted between the anchorage 40 and the fitting groove 70, even if the groundwater infiltrates because the finishing agent that finished the first and second side grooves 12 and 22 is damaged. can be fundamentally prevented from penetrating into the first and second through holes 11 and 21, and thus corrosion of the steel wire 30 can be prevented again to maintain the durability of the precast culvert assembly.

Although the present invention has been described with reference to an embodiment shown in the drawings, this is only exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

10 ... 1st precast culvert 11 ... 1st through hole
12 ... first side groove 13 ... first convex part
14 ... 1st convex part 20 ... 2nd precast culvert
21 ... second through hole 22 ... second side groove
23 ... 2nd convex part 24 ... 2nd convex part
30 ... steel wire 40 ... anchorage
41 ... Wedge 42 ... Coupler
50 ... both ends fitting groove 60 ... both ends fitting seal
61 ... Seal body 62, 63 ... Left and right fitting pipes
62a, 63 ... Left, right slope 64 ... Left O-ring wing
65 ... Right O-ring wing 70 ... Concave fitting groove
80 ... fitting seal 81 ... support plate ring
82 ... support sealing 82a ... ring groove
82b ... disk seal 82c ... fitting pipe

Claims (6)

Four first through holes 11 formed on the corner side, a first side groove 12 formed on each of the outer upper and lower surfaces and communicating with the first through hole 11, and a first side groove 12 formed at the front end. A first precast culvert 10 including a first convex part 13 and a first convex part 14 formed at the rear end and meshed with the first convex part 13;
Four second through-holes 21 formed on the corner side, second side recesses 22 formed on the outer upper and lower surfaces and communicating with the second through-holes 21, and the first formed at the front end. A second precast culvert (20) including two convex parts (23) and a second convex part (24) formed at the rear end and meshed with the second convex part (23);
a steel wire 30 passing through each of the first and second through holes 11 and 21 and protruding into the first and second side grooves 12 and 22;
An anchorage 40 for fixing an end of the steel wire 30 protruding into the first and second side grooves 12 and 22;
It is formed to communicate with the first and second through holes 11 and 21 at the boundary surfaces of both ends of the first and second precast culverts 10 and 20, and is larger than the first and second through holes 11 and 21 Both ends fitting groove 50 having an inner diameter;
A double-end fitting seal 60 that is tightly fitted into the double-end fitting groove 50 in a state where the first and second precast culverts 10 and 20 are in close contact with the steel wire 30;
It is formed on the inner surface of the first and second side grooves 12 and 22 to communicate with the first and second through holes 11 and 21, and is larger than the first and second through holes 11 and 12. A concave fitting groove 70 having a diameter; and
Including,
The double-end fitting seal 60 has a seal body 61 inserted into the both-end fitting groove 50 as the steel wire 30 passes through, and the seal body 61 as the steel wire 30 passes through It extends to both sides of and includes left and right fitting pipes 62 and 63 inserted into the first and second through holes 11 and 21, but the thickness D1 of the seal body 61 is at both ends It is more than twice the depth (D2) of the fitting groove (50);
The double end fitting seal 60 is formed obliquely in the direction of the seal body 61 on the inner circumferential surface of the left fitting pipe 62, and a plurality of left O-ring wings 64 in close contact with the outer circumferential surface of the steel wire 30 and , It is formed obliquely on the inner circumferential surface of the right fitting pipe 63 so as to be symmetrical to the left O-ring wing 64 and further includes a plurality of right O-ring wings 65 in close contact with the outer circumferential surface of the steel wire 30;
The left and right fitting pipes 62 and 63 are formed with left and right inclined surfaces 62a and 63a that become narrower toward both sides;
The concave fitting seal 80 is in close contact with the anchorage 40 and has a larger diameter than the coupler 42 and includes a support plate ring 81 made of a metal material, the support plate ring 81 and the concave fitting groove 70 ) and includes a support sealing 82 made of rubber material to prevent penetration of water into the first and second through holes 11 and 21;
The support sealing ring 82 is inserted into the concave fitting groove 70, and includes a disk seal 82b having a ring groove 82a into which the support plate ring 81 is fitted, and a disk seal on the opposite side of the ring groove 82a. It extends from (82b) and becomes narrower toward the tip and includes a fitting pipe (82c) inserted into the first and second through holes (11) (21); characterized in that the precast with improved watertight function. culvert assembly. delete delete delete delete delete

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