KR100911607B1 - Gasket Reclamation Type Culvert - Google Patents

Abstract

The present invention relates to a gasket buried culvert, in more detail, the cavity 18 is formed in the longitudinal direction by the four-sided wall 10, and the other culvert in the longitudinal direction via the gasket 20 for watertight In the prefabricated culvert continuously connected, the gasket 20, the buried portion 21 is embedded in the wall 10 in the culvert forming process and integrated with the wall; A watertight part 25 formed integrally with the buried part 22 on one side of the buried part 22 and protruding from an end surface of the wall 10 to be compressed when connected with another culvert to perform a watertight function; It relates to a gasket buried culvert characterized in that it comprises a.

Culvert, Gasket, Flush, Guide Pin

Description

Gasket Reclamation Type Culvert}

The present invention is a prefabricated culvert in which the cavity 18 is formed in the longitudinal direction by the four-sided wall 10, and is continuously connected to other culverts in the longitudinal direction via the gasket 20 for watertightness. 20 is embedded in the wall 10 in the culvert forming process is embedded with the wall 21 and integrally formed with the buried portion 21 on one side of the buried portion 21, the wall 10 It relates to a gasket buried culvert characterized in that it comprises a water-tight portion 25 is projected from the end of the cross-section and pressed when connected to the other culvert performs a watertight function.

In general, culverts are used to form waterways such as rainwater, sewage and agricultural industrial water, or to create passageways such as sidewalks and driveways, while making underground underground areas for laying telecommunications, cold and heat pipes, and storage of agricultural and marine products. It is widely used for the production of

In particular, prefabricated reinforced concrete culverts composed of reinforced concrete, which is composed of a top plate part, a bottom plate part and a side wall part in advance are integrally manufactured in a factory, and assembled by constructing a plurality of unit culverts in the field.

Prefabricated culverts will include watertight means (gaskets, watertight packings, rubber packings, rubber gaskets) for watertightness when connected to other culverts. In the prior art, the watertight means was attached to the wall section of the culvert using an adhesive such as a bond when the culvert was assembled in the field, and then another culvert was positioned and a plurality of culverts were continuously assembled by using a steel wire device or the like. This work method does not have good workability because it has to go through the process of attaching watertight means directly to the culvert in the field.In addition, since the work is performed on the site, when the skill of the worker is poor, the water stop means is mounted out of the design position. There was a problem that causes leakage.

In the present invention, the gasket refers to a watertight means inserted between the culvert and the culvert, and includes not only a gasket in a narrow sense but also a packing, a tangible index means, a rubber packing, a rubber gasket, and the like. It turns out that the concept of including watertight means with watertight shapes is used.

An object of the present invention is to provide a gasket buried culvert excellent in watertightness and its manufacturing method having an excellent effect to prevent leakage of the connection between the culvert and the culvert.

The gasket assembly process can be omitted in the field to provide a gasket buried culvert excellent in workability and a method of manufacturing the same.

Since one side of the gasket is embedded in the wall, the watertightness is more excellent, and by applying the induction pin embedding production method, the resistance to shear force acting on the assembled culvert can be increased, and the gasket buried culvert with excellent workability and its manufacturing method are To provide.

Gasket buried culvert according to the present invention for achieving this object, the cavity 18 is formed in the longitudinal direction by the four-way wall 10, the other in the longitudinal direction via the gasket 20 for watertight In the prefabricated culvert connected continuously to the culvert, the gasket 20, the buried portion 21 is embedded in the wall 10 in the culvert forming process and integral with the wall; A watertight part 25 formed integrally with the buried part 21 on one side of the buried part 21 and protruding from a cross section of the wall 10 to be crimped when connected to another culvert to perform a watertight function; Characterized in that it comprises a.

In addition, in the gasket buried culvert manufacturing method according to the present invention for achieving this object, the cavity 18 is formed in the longitudinal direction by the four-sided wall 10, and through the gasket 20 for watertight As a method of manufacturing a prefabricated culvert continuously connected to the other culverts in the longitudinal direction, the step (120) to form a reinforcing frame in the formwork, and the step of placing concrete kneaded with gravel, sand, etc. in the formwork (130) Culvert forming step (110) consisting of; Curing step (140) for curing and curing the formwork after the concrete is hardened; Including the step (120) to form a reinforcing frame within the formwork gasket (212) formed in the mounting groove 212 formed on the inner surface of the formwork plate (210) By embedding the watertight portion 25 of 20 to position the gasket 20 at the design position, the buried portion 21 of the gasket 20 is embedded in the wall 10 and the watertight portion 25 of the gasket 20. It is characterized in that the protruded state from the cross section of the wall (10).

According to the present invention solves the problems of the prior art, there is provided a gasket buried culvert excellent in watertightness and excellent manufacturing method to prevent leakage of the connection between the culvert and culvert.

In addition, since the gasket assembly process can be omitted in the field, there is provided a gasket buried culvert excellent in workability and a manufacturing method thereof.

In addition, one side of the gasket is embedded in the wall, the watertightness is more excellent, by applying a guide pin embedded production method can increase the resistance to shear force acting on the assembled culvert, and excellent construction gasket buried culvert and its manufacture A method is provided.

Hereinafter, a gasket buried culvert according to the present invention and a manufacturing method thereof will be described in detail according to an embodiment shown in the accompanying drawings.

1 is a front view of a gasket buried culvert according to an embodiment of the present invention, Figure 2 is a cross-sectional view and an AA line of Figure 1 for showing a gasket buried structure according to an embodiment of the present invention, Figure 3 Front view of a gasket buried culvert manufacturing method according to an embodiment of the present invention, Figure 4 is a rear view of the gasket buried culvert according to an embodiment of the present invention, Figure 5 is a guide pin insertion according to an embodiment of the present invention 4 is a cross-sectional view and an enlarged view of the line BB of Figure 4, Figure 6 is a cross-sectional view of the coupling portion of the culvert of Figures 1 and 4 ("AA" + "BB"), Figure 7 is an embodiment of the present invention Figure 8 is a plan view of the gasket buried culvert according to the embodiment, Figure 8 is a side coupling configuration of the gasket buried culvert according to an embodiment of the present invention, Figure 9 is a formwork, reinforcing bar and frame according to an embodiment of the present invention Gasket cross section configuration diagram.

General structure and assembly method of the prefabricated culvert is known in the present specification will be omitted for clarity of the invention.

The gasket buried culvert according to the present invention is a prefabricated type in which the cavity portion 18 is formed in the longitudinal direction by the four-sided wall 10 and continuously connected to the other culverts in the longitudinal direction via the gasket 20 for watertight. It's about culverts.

As shown in Fig. 1, the culvert is formed with a cavity 18 in the longitudinal direction assembled by a four-sided wall 10 consisting of an upper plate portion, a bottom plate portion and both side wall portions.

A wall is used as a term referring to a wall formed on all sides, but the wall does not mean including all four walls together, and in the present invention, a wall means at least one of the four walls or one wall (for example, a side wall). It may mean at least a part of).

As shown in FIG. 2 or FIG. 6, the gasket 20 includes a buried portion 21 and a watertight portion 25 embedded in the wall 10. In principle, the shape of the buried portion 21 and the watertight portion 25 is not limited. The buried portion 21 is embedded in the wall 10 in the culvert forming process and is integrated with the wall.

As shown, the watertight portion 25 is formed integrally with the buried portion 22 on one side of the buried portion 22, as shown in Figure 6, protrudes from the cross-section of the wall 10, the other culvert It is pressed to form a watertight function when connected with the.

As shown in Figure 1, the gasket may be formed in the inner and outer double, as shown in Figure 1, the inner gasket is formed of the letter "W" but the outer side of the "c" shaped gasket with the top plate side open Can be used. In this case, the outer gasket is not formed in the upper plate portion of the wall, but because the mortar filling of the upper plate portion can be visually confirmed, watertightness can be ensured. The present invention includes the case where the gasket is embedded in at least part of the wall.

Preferably, the buried portion 21 of the gasket 20 includes a reduced portion 22 which is reduced in size from a portion 25a (see enlarged view of FIG. 2) in contact with the end face of the wall 10 of the watertight portion 25; It is comprised including the latching part 23 extended from the edge part of the reduction part 22. As shown in FIG. However, as described above, the shape of the gasket is not limited to the shape shown in the figure. The locking portion 23 performs a function of increasing the embedding force by preventing removal from inside the concrete due to the shape of the shape, and the watertight portion 25 is wider than the reduction portion 22 and increases watertightness at the time of culvert connection.

The watertight portion 25 may be provided with a cavity hole 27 therein to increase the watertightness by increasing the amount of deformation relative to the unit pressing force. When the cavity hole 27 is present in the watertight portion 25, it can be seen from the test that the watertightness is increased, because the binding force of the steel wire connecting the culvert is limited.

The present invention may further include an induction pin 30 provided on one side of the wall and an induction pin insertion hole 35 formed on the other side of the wall. One side of the guide pin 30 is embedded in the wall 10 during the culvert molding process and is integrated with the wall. In addition, it may be configured to further include a check hole 37 for communicating the outer surface of the wall 10 and the inner side of the guide pin insertion hole 35.

Induction pin 30 is coupled in a manner that is inserted into the guide pin insertion hole 35 when the culvert coupling, the check hole 37 is used as a means for checking whether the mortar is completely filled in the guide pin insertion hole 35 do.

The manufacturing method of such a gasket-filled culvert is described below.

In the method for manufacturing a gasket-filled culvert according to the present invention, the cavity 18 is formed in the longitudinal direction by the four-sided wall 10, and continuously with other culverts in the longitudinal direction via the gasket 20 for watertight. A method of manufacturing a prefabricated culvert connected.

As shown in Figure 3, the gasket buried culvert production method according to the present invention, the step of forming a reinforcing frame in the form 120, and the step of pouring concrete kneaded with gravel, sand, etc. A culvert forming step (110) consisting of 130; It includes a curing step (140) to cure by separating the formwork after the concrete is hardened.

As shown in Figure 3, gasket buried culvert production method according to the present invention, gasket 20 in the seating groove 212 formed on the inner surface of the formwork plate 210 in the step 120 to form a reinforcing frame in the formwork And embedding the watertight portion 25 into the gasket 20 at the design position.

Figure 9 shows the configuration of the formwork plate, the reinforced frame and the gasket. In the step of forming the reinforcing frame in the formwork, first, the seating groove corresponding to the outer shape of the watertight portion 25 of the gasket 20 on the inner surface side of the plate 210 (more specifically cross-sectional finishing plate) of the formwork ( After the 212 is provided, the gasket 20 may be formed by embedding the watertight portion 25 of the gasket 20 in the seating groove 212 formed at the inner surface of the plate member 210 (more specifically, the end face plate) of the formwork 200. 20) at the design position.

Then, the burying portion 21 of the gasket 20 is buried in the wall 10 through the culvert forming step 110, which comprises the step 130 of pouring the concrete kneaded with gravel, sand, etc. into the formwork. The watertight portion 25 of the gasket 20 is manufactured to protrude from the cross section of the wall 10 so that the gasket embedded culvert is molded.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, the scope of the present invention is not limited to these embodiments, and the scope of the present invention is defined by the following claims, and equivalent scope of the present invention. It will include various modifications and variations belonging to.

The reference numerals set forth in the claims below are merely to aid the understanding of the present invention, not to affect the interpretation of the scope of the claims, and the scope of the claims should not be construed narrowly.

1 is a front view of a gasket buried culvert according to an embodiment of the present invention.

Figure 2 is a cross-sectional view taken along the line A-A of Figure 1 for showing a gasket buried structure according to an embodiment of the present invention.

Figure 3 is a front view of the gasket buried culvert manufacturing method according to an embodiment of the present invention.

Figure 4 is a rear view of the gasket buried culvert according to an embodiment of the present invention.

5 is a cross-sectional view taken along the line B-B of Figure 4 for showing the configuration of the guide pin insertion hole according to an embodiment of the present invention.

Figure 6 is a cross-sectional view of the coupling portion of the culvert of Figures 1 and 4 ("A-A" + "B-B").

Figure 7 is a plan view of a gasket buried culvert according to an embodiment of the present invention.

Figure 8 is a side coupling configuration of the gasket buried culvert according to an embodiment of the present invention.

9 is a cross-sectional configuration of the formwork plate, reinforced frame and gasket according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10 wall 18 cavity 20 gasket

21: buried portion 22: reduction portion 23: locking portion

25: watertight portion 27: cavity hole 30: guide pin

35: insertion hole 37: check hole 200: formwork

210: formwork plate 212: seating groove

Claims (5)

In the prefabricated culvert which is formed in the longitudinal direction by the wall 10, the cavity 18 is continuously connected with other culverts in the longitudinal direction via the gasket 20 for watertightness,  The gasket 20 is embedded in at least a portion of the wall 10 during the culvert forming process and is integrated with the wall, and integral with the buried portion 21 on one side of the buried portion 21. It is formed to include, and comprises a watertight portion 25 which protrudes from the cross section of the wall 10 to be crimped when connected with other culverts to perform a watertight function, The buried portion 21 of the gasket 20 is a reduction portion 22 which is formed to be reduced in size from a portion 25a of the watertight portion 25 in contact with the end surface of the wall 10, and an end portion of the reduction portion 22. Configured to include a locking portion 23 extended from the The watertight portion 25 is a gasket buried culvert, characterized in that the cavity hole 27 is provided to increase the water tightness by increasing the amount of deformation relative to the unit compression force. delete delete delete delete

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