KR100743369B1 - Precast culvert assembly for both culvert and utility-pipe conduit - Google Patents

Abstract

A common duct-cum-precast culvert assembly is provided to utilize as a culvert for flowing waste water or agricultural/industrial water through or a common duct for installing various cables by having excellent waterproofing efficiency and to cut down on the cost of construction by having excellent constructability, shortening a period of construction and reducing the required labor. The common duct-cum-precast culvert assembly(100) comprises many culvert units(110) assembled continuously to form a flow passage for flowing waste water or agricultural/industrial water through or to form a space for installing various cables and provided with one or more air exhaust grooves on the bottom to exhaust air between a culvert unit and a concrete foundation block to the outside smoothly when placing a waterproof member, grout grooves(120) formed on the front and rear of the culvert unit to form a space for filling grouting materials and provided with two or more shear reinforcement grooves retreated to be deeper than the grout grooves to fill up grouting materials thickly, one or more insert nuts buried under the shear reinforcement grooves and stud bolts coupled to the insert nuts to be buried under grouting materials filled in the shear reinforcement groove to heighten the binding strength of two culvert units, a concrete foundation block(130) assembled to form a foundation structure for installing the culvert units and provided with a connecting groove to couple with a connecting groove of another concrete foundation block to form one continuous groove and a connecting plate coupled to the concrete foundation block by many bolts to connect two adjacent concrete foundation blocks strongly, and a waterproof member placed between the culvert unit and the concrete foundation block to prevent the inflow of ground water to the inside of the culvert unit.

Description

Precast culvert assembly for both culvert and utility-pipe conduit

1 is a perspective view of a culvert assembly according to a preferred embodiment of the present invention,

2 is a front view of FIG. 1,

3 is a side view of FIG. 1;

Figure 4 is a perspective view of the culvert unit of the present invention,

5 is a front view of FIG. 4;

6 is a perspective view showing a state in which the grouting material filled in the grouting groove of the present invention is cured;

7 is a cross-sectional view of the shear force reinforcing groove of the present invention,

8 is a perspective view of the basic concrete block of the present invention,

9 is a perspective view of the expansion joint culvert unit of the present invention,

10 is a rear perspective view of the expansion joint culvert unit of the present invention;

11 is a cross-sectional view of the expansion joint using the expansion joint culvert unit of the present invention.

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

100: culvert assembly 110: culvert unit

(115): air exhaust groove (120): grout groove

(121): shear reinforcement groove (122): insert nut

(123): Stud bolt (130): Foundation concrete block

(133): H-beam 140: waterproof member

(150): expansion joint culvert unit (151): index ring insertion groove

(152): rubber index ring (153): water-expanded rubber ring

The present invention relates to a culvert assembly, in particular, by using a culvert unit and a base concrete block pre-fabricated to have a predetermined shape to improve the workability and waterproofness, and thus the function of the sewer pipe formed by the precast culvert The present invention relates to a pre-cast culvert assembly for a combination cavity.

In general, a culvert is a structure that forms a pipeline through which rainwater, sewage, or agricultural water flows into the ground. In the past, culverts were constructed by placing and curing concrete in the field. In order to transport the precast culvert prefabricated in the factory to the site, many methods are available to complete the construction by simply assembling the precast culvert.

The precast culvert is fast in construction speed and can be backfilled immediately after construction to solve problems such as civil inconvenience caused by construction, disruption of traffic flow and unnecessary time wasting, so it is effective for complex urban construction and thorough quality. Since it is produced at the factory by management, the quality is uniform, and the use of high-strength concrete has several advantages, such as enhancing the watertightness and durability of the structure.

When the construction method using the precast culvert as described above in more detail, after the excavation and foundation ground cleaning work in the place where the precast culvert is installed, the foundation concrete is poured. Once the foundation concrete is cured, the precast culvert is transported to the site and assembled to complete the construction.

However, the conventional construction method as described above has to close and cure the foundation concrete before assembling the precast culvert, and thus has a cost and an increase in construction period. As an example, in order to pour the foundation concrete, formwork is required, and the production of such formwork is usually performed by woodworking work. Therefore, in order to proceed with the construction, a carpenter is required separately from the assembly of precast culverts to increase labor costs. In addition, since the casting and curing period of the concrete takes longer, it is difficult to proceed quickly construction.

In addition, although precast culverts are used to form a cavity for communication cables or power cables, the conventional precast culverts are laid directly on the cured foundation concrete, as described above. It is difficult to form a waterproof layer between the culvert, this caused the problem of damaging the communication cable or power cable due to the moisture in the ground flow into the culvert.

The present invention has been made in consideration of the above problems, and an object of the present invention is to provide a common joint precast culvert assembly that can be utilized as a culvert or a culvert in which wastewater and agricultural industrial water flows, or various cables are installed. have.

It is another object of the present invention to provide a precast culvert assembly for a joint tool which can reduce construction cost by reducing construction time and reducing construction cost due to excellent workability.

The present invention to achieve the object as described above and to perform the problem for eliminating the conventional drawbacks is that the front and rear surfaces are open, assembled so that a plurality are connected to form a flow path for waste water or agricultural water flow or various cables are installed A plurality of culvert units configured to form a space;
Grout grooves are formed on the front and rear surfaces of the culvert unit to form a space in which the grouting material is filled, and are formed to be connected to the bottom surface of the culvert unit so that the grouting material injected from the upper portion of the culvert unit is also supplied to the lower portion of the culvert unit;
Is installed on the ground on which the culvert unit is to be installed is configured to provide a space for the culvert unit, a structure in which the H-beam protruding upward to support the culvert unit to a certain height to form a predetermined space between the culvert unit A plurality of basic concrete blocks manufactured by a low precast method and formed to have different lengths from the culvert unit;
A waterproofing member in which a grouting material supplied through the grout groove is filled between the culvert unit and the base concrete block;
At least one air discharge groove formed in a bottom of the culvert unit so that air between the culvert unit and the base concrete block is discharged to the outside when the grouting material is injected between the culvert unit and the base concrete block;
At least two shear force reinforcing grooves formed to have a predetermined length along the grout grooves and recessed to have a deeper depth than the grout grooves so that the grouting material is injected to a thicker thickness;
At least one insert nut provided with a locking jaw at the end of the hexagonal column shape and embedded in the shear force reinforcing groove;
One end is fastened to the insert nut, the other end stud bolt is installed so as to be located in the shear force reinforcement groove formed in the other culvert unit disposed adjacent to;
A connection groove formed at both ends of the upper end of the foundation concrete block with a predetermined depth, and when two foundation concrete blocks are disposed adjacent to each other, forming a continuous groove; And
And a joint plate combined precast culvert assembly including a connecting plate fastened to and fixed to two basic concrete blocks by a plurality of bolts inside the connecting groove.

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In addition, the present invention is to produce a culvert unit and the base concrete block in a precast method, but only a part of the H-beams are embedded on the base concrete block to make the culvert unit is supported to a certain height at the top of the base concrete block Carrying step (S1);

Aligning and assembling the foundation concrete blocks to the ground to be built by the culvert (S2);

Aligning and assembling the culvert unit on the H-beams provided in the basic concrete blocks aligned through the step S2; And

The grouting material is injected between the culvert units assembled through the step (S3) to fill the grouting material between the culvert units, and the grouting material is filled into the space formed between the culvert unit and the base concrete block to prevent the waterproof member. Characterized in that the culvert construction method using a pre-cast culvert combination combines the step consisting of forming a step (S4).

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 shows a perspective view of a culvert assembly according to a preferred embodiment of the present invention, FIG. 2 shows a front view of FIG. 1, and FIG. 3 shows a side view of FIG. 1. 1 to 3, the culvert assembly 100 according to the preferred embodiment of the present invention includes a culvert unit 110, a grout groove 120, a base concrete block 130, and a waterproof member 140. It consists of. The culvert assembly 100 is excellent in workability in a precast manner in which the culvert unit 110 and the base concrete block 130 are manufactured to have a predetermined shape at the factory and then assembled in the field, and the culvert unit 110 And a waterproof member 140 is provided between the foundation concrete block 130 and configured to more reliably prevent water from flowing into the culvert, and each component will be described in detail as follows. .

Figure 4 shows a perspective view of the culvert unit of the present invention, Figure 5 shows a front view of FIG. 4 and 5, the culvert unit 110 is assembled so that a plurality of connected to form a flow path for the waste water or agricultural water, or to form a space for installing various cables, the ceiling 111 and the floor It consists of 112 and both side walls 113 and 114, and is formed in the structure which opened the front and back surface. Meanwhile, at least one air discharge groove 115 is formed in the bottom 112 of the culvert unit 110 to form air between the culvert unit 110 and the base concrete block 130 when the waterproof member 140 is formed. Will help to be discharged to the outside smoothly. In addition, the culvert unit 110 is provided with a through hole 116 is provided with a steel wire (R1) for firmly binding the neighbor culvert unit 110, such as known precast culvert.

The grout groove 120 is formed on the front and rear surfaces of the culvert unit 110 to form a space in which the grouting material is filled, and the ceiling 111 constituting the culvert unit 110 on the front and rear surfaces of the culvert unit 110 and It is formed along the bottom 112 and both side walls (113, 114), is configured to surround the flow path formed by the culvert unit 110, and the grouting material injected from the top of the culvert unit 110 of the culvert unit 110 It is also discharged to the bottom is configured to form a waterproof member 140.

The grout groove 120 is formed as a groove having a uniform depth as a whole, but at least two shear force reinforcement grooves 121 having a deeper depth are formed. The shear force reinforcing groove 121 is configured to be recessed so as to have a deeper depth than the depth of the general grout groove 120 over a certain period, so that the grouting material is filled in a thicker portion of the grouting material in the shape as shown in FIG. 6, the grouting hardened in the shape as shown in FIG. 6 serves as a locking step for reinforcing the binding force in the vertical direction of two neighboring culvert units 110 to more effectively cope with the floating settlement.

7 is a cross-sectional view of the shear force reinforcing groove of the present invention. Referring to FIG. 7, the shear force reinforcing groove 121 has at least one insert nut 122 provided with a locking jaw 122a at its end in a hexagonal column shape, and is embedded in the shear nut reinforcing groove 121, and the stud is inserted into the insert nut 122. One end of the bolt 123 is fastened, and the other end of the stud bolt 123 is disposed in the shear force reinforcement groove 121 provided in the other culvert unit 110 adjacently disposed to be filled in the shear force reinforcement groove 121. By being buried in the grouting material is configured to further increase the binding force of the two neighboring culvert unit (110).

8 is a perspective view of the basic concrete block of the present invention. Referring to FIG. 8, the foundation concrete block 130 is separated from the conventional method of placing concrete in the field to form the foundation structure for installation of the culvert unit, and has a uniform shape in the factory as in the culvert unit 110. By curing the concrete to have a base concrete block 130 is manufactured and then transported and assembled to the site is configured to form a base structure for installation of the culvert unit (110). Meanwhile, the basic concrete block 130 includes a bottom plate part 131 formed in a flat plate shape so that the culvert unit 110 is placed, and side wall parts 132 protruding upward from both left and right ends of the bottom plate part 131. And to form a space in which the grouting material is filled. The bottom plate 131 is provided with an H-beam 133 for supporting the culvert unit 110 to a predetermined height to form a space in which the grouting material is filled, and the H-beam 133 is a basic concrete block 130. ) Is formed integrally with the basic concrete block 130 by pouring concrete in a state in which a portion of the H-beam 133 is buried and the remaining portion is disposed to protrude to the upper portion of the bottom plate 131. Connection grooves 134 recessed to a predetermined depth are formed at both ends of the upper end of the side wall part 132, and the connection groove 134 is coupled to the connection groove 134 of another neighboring concrete block 130. And to form one continuous groove. Meanwhile, the connecting plate 135 is installed in the groove formed by the coupling of the connecting grooves 134 formed in the two basic concrete blocks 130, and the connecting plate 135 is formed by the plurality of bolts 136. It is coupled to the block 130 to be firmly connected to the two neighboring concrete blocks 130, the grouting material is filled in the connection groove 134 after the connecting plate 135 is fixed by the bolt 136.

The base concrete block 130 as described above is formed to have a different length from the culvert unit (110). This prevents the joints between the joints and the culvert unit 110 between the basic concrete blocks 130 from being matched with each other, so that an additional effect of mutually complementing the strength of the joints can be expected. In addition, the base concrete block 130 is provided with a through-hole 137 is provided with a steel wire (R2) for firmly binding the neighboring base concrete blocks 130, similar to the culvert unit (110).

Referring back to FIG. 2, the waterproof member 140 is formed between the culvert unit 110 and the base concrete block 130 to prevent the moisture in the ground from flowing into the culvert unit 110. The grouting material injected from the upper portion of the culvert unit 110 is discharged to the lower portion of the culvert unit 110 through the grout groove 120 is filled between the culvert unit 110 and the base concrete block 130, and then hardened Is formed. Meanwhile, when the grouting material is filled, air between the culvert unit 110 and the base concrete block 130 is discharged to the outside through the air discharge groove 115 provided in the culvert unit 110.

Figure 9 shows a perspective view of the expansion joint culvert unit of the present invention, Figure 10 shows a rear perspective view of the expansion joint culvert unit of the present invention, Figure 11 using the expansion joint culvert unit of the present invention The cross section of an expansion joint is shown. 9 to 11, the expansion joint culvert unit 150 has the same shape as the culvert unit 110 described above, and the grout groove 120 described above is formed on one surface of the front or rear surface. , The index ring insertion groove 151 is formed on the other side. Meanwhile, rubber joint rings 152 and water-expandable rubber rings 153 are installed at the joints of two neighboring expansion joint culvert units 150.

The index ring insertion groove 151 is made of a groove formed to have a uniform width and depth along the ceiling and bottom and both side walls of the expansion joint culvert unit 150. The rubber index ring 152 is a donut shaped body 152a, an insertion portion 152b formed to protrude to both sides of the body 152a and inserted into the index ring insertion groove 151, and the insertion portion ( It is composed of a plurality of projections (152c) formed to protrude on the outer peripheral surface of the (152b). The water-expandable rubber ring 153 is disposed so as to have a predetermined distance from the rubber water ring 152 at the inside and outside of the rubber water ring 152 installed in the water ring insertion groove 151 and the two expansion joint culverts adjacent to each other. In close contact with the unit 150 is configured to seal the space in which the rubber index ring 152 is installed.

Referring to the culvert construction method using the precast culvert assembly 100 of the present invention configured as described above are as follows.

After using the mold having a predetermined shape to produce a culvert unit 110, the base concrete block 130 and the expansion joint culvert unit 150 having the configuration as described above, transport the culvert to the site to be constructed .

After arranging the ground of the place where the culvert is to be constructed, the prepared basic concrete block 130 is aligned and assembled. At this time, the two neighboring concrete blocks 130 are adjacently coupled using the steel wire (R2). In addition, the connection plate 135 is disposed inside the groove formed by the coupling of the connection grooves 134 provided in the two basic concrete blocks 130, and the connection plate 135 is fastened by bolts 136 and then fixed. , Filling the grouting material in the connection groove 134 is very recessed groove.

Next, the prepared culvert unit 110 is placed on the H-beam 133 provided in the basic concrete block 130, and the culvert unit 110 is formed so that a space is formed between the culvert unit 110 and the basic concrete block 130. ). Meanwhile, when the culvert units 110 are aligned, neighboring culvert units 110 are firmly coupled using the steel wire R1 like the basic concrete blocks.

When the culvert units 110 are aligned on the base concrete block 130 as described above, the grouting material is injected through the grout grooves 120 provided between the culvert units 110. In this case, a part of the grouting material injected into the grout groove 120 fills the grout groove 120, and the remaining grouting material is discharged to the lower portion of the culvert unit 110 to between the culvert unit 110 and the base concrete block 130. Fill the space formed in the. Meanwhile, when grouting material is filled between the culvert unit 110 and the base concrete block 130, the air between the culvert unit 110 and the base concrete block 130 is an air discharge groove 115 provided in the culvert unit 110. Is discharged to the outside through, when the grouting material is completely filled into the space formed between the culvert unit 110 and the base concrete block 130, blocking the air discharge groove 115, grouting through the air discharge groove 115 This will prevent ash from escaping. The grouting material injected through the grout groove 120 fills the grout groove 120 and fills the space between the culvert unit 110 and the base concrete block 130.

As described above, the waterproofing member 140 is formed by the grouting material filled between the culvert unit 110 and the basic concrete block 130, and the waterproofing member 140 has moisture in the ground flowing into the culvert. It can play a role of blocking the barriers to create a more healthy environment for community use. In addition, the grouting material to be filled in the grout groove 120 is partially filled by the shear force reinforcement groove 121 and then hardened to reinforce the joint shear force between the culvert unit 110.

Meanwhile, after a plurality of culvert units 110 are coupled to each other to form a culvert having a predetermined length, the culvert unit 150 is combined to form a stretch joint. More specifically, the above-described expansion joint culvert unit 150 is disposed in such a manner that one surface of the expansion joint culvert unit 150 having a grout groove 120 is in close contact with the culvert unit 110 that has been constructed. In the same manner as in the fixing with a steel wire and grouting material is injected to combine the culvert unit 110 and the expansion joint culvert unit 150.

Since the new expansion joint culvert unit 150 is disposed adjacent to the expansion joint culvert unit 150 installed, the expansion ring insertion groove 151 provided in the expansion joint culvert unit 150 installed rubber index ring ( Rubber expansion ring 152 is disposed so that one side insertion portion 152b of 152 is inserted, and a new expansion joint is used in a state in which the water-expandable rubber ring 153 is disposed inside and outside the rubber discharge ring 152. The culvert unit 150 is disposed, and the expansion joint is formed by urethane caulking on the outer side of the water-expandable rubber ring 153.

By repeating the operation of combining the predetermined number of culvert unit 110 and expansion joint culvert unit 150 as described above is to construct a culvert of the desired length.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

According to the present invention, the culvert unit and the base concrete block are manufactured separately in the factory according to the precast method, and then work is carried out by assembling by transporting them to the site, so that the workability is excellent and the construction cost can be reduced. It became. Furthermore, by forming a waterproof member between the culvert unit and the base concrete block, it is possible to create a more healthy environment for use of the common sphere by preventing water from flowing into the interior of the constructed culvert.

Claims (7)

A plurality of culvert units (110) configured to form a flow path through which the front and rear surfaces are opened, and the plurality are connected to each other so that waste water or agricultural water flows, or where various cables are installed; The grouting unit is formed on the front and rear surfaces of the culvert unit 110 to form a space in which the grouting material is filled, and is formed to be connected to the bottom surface from the upper surface of the culvert unit 110 so that the grouting material injected from the upper portion of the culvert unit 110 is the culvert unit ( Grout groove 120 formed to be supplied to the lower portion of the 110; The culvert unit 110 is installed on the ground to be installed is configured to provide a space for the culvert unit 110, the culvert unit 110 to form a predetermined space between the culvert unit 110 to a certain height H-beam 133 supporting the structure is produced by a precast method in a structure protruding upwards, a plurality of basic concrete blocks 130 formed to differ in length from the culvert unit 110; A grouting material supplied through the grout groove 120 to be filled between the culvert unit 110 and the base concrete block 130; When the grouting material is injected between the culvert unit 110 and the base concrete block 130, the bottom of the culvert unit 110 is discharged so that air between the culvert unit 110 and the base concrete block 130 is discharged to the outside. At least one air discharge groove 115 formed in 112; At least two or more shear force reinforcing grooves 121 formed to have a predetermined length along the grout groove 120 to be recessed to have a deeper depth than the grout groove 120 so that the grouting material is injected to a thicker thickness; At least one insert nut (122) provided with a locking jaw (122a) at the end in a hexagonal column shape is embedded in the shear force reinforcing groove 121; One end is fastened to the insert nut 122, the other end stud bolt 123 is installed so as to be located in the shear force reinforcement groove formed in the other culvert unit disposed adjacent to; A connection groove 134 formed to be recessed at a predetermined depth at both ends of the upper end of the basic concrete block 130, and when the two basic concrete blocks 130 are disposed adjacent to each other, forming one continuous groove; And And a coupling plate (135) fastened to and fixed to the two basic concrete blocks (130) by a plurality of bolts (136) in the connection groove (134). delete delete delete delete The method of claim 1, Equipped with the same shape as the culvert unit 110, the grout groove 120 is formed on any one of the front or rear, the expansion joint culvert unit 150 is formed on the other side of the index ring insertion groove 151 ; A donut-shaped body 152a, formed to protrude on both sides of the body 152a and inserted into the index ring insertion groove 151 to be projected on the outer peripheral surface of the insertion portion 152b A rubber index ring 152 installed between two expansion joint culvert units 150 disposed adjacent to each other by being formed of a plurality of protrusions 152c; And The rubber index ring 152 is disposed so as to be spaced apart from the rubber index ring 152 at predetermined intervals, and is installed between the two expansion joint culvert unit 150 adjacent to the rubber index ring 152 And a water-expandable rubber ring (153) for sealing the space in which it is installed. delete

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