KR102296206B1 - Sectionally devided precast culvert box - Google Patents

Abstract

The present invention relates to a quadrilateral separation type precast culvert box, and more particularly, to a quadrilateral separation type precast culvert box formed by combining an upper slab, a lower slab and a pair of wall parts pre-fabricated in a precast type, the upper On both sides of the slab, in a direction perpendicular to the bonding surface between the upper slab and the pair of wall parts, a plurality of coupling holes penetrating the upper slab body are formed, and a steel plate provided with bolt fastening holes is inserted inside each coupling hole. and inserting at least one or more insert anchors, respectively, at positions corresponding to the plurality of coupling holes at the upper ends of the pair of wall parts, and in the construction process, a high-tensile bolt penetrating the bolt fastening holes formed in the steel plate, the insert anchor After each fastening to the mortar, by filling and hardening the mortar inside the coupling hole, the mortar filled in the coupling hole is integrally and firmly coupled with the steel plate and high-tensile bolt, and the upper slab and a pair of walls constituting the culvert box It relates to a quadrilateral separation type precast culvert box, characterized in that the structural integrity of the culvert box is improved by effectively distributing the load applied to the culvert box by configuring the parts to be firmly coupled to each other and to behave as one.

Description

Quadrilateral precast culvert box

The present invention relates to a quadrilateral separation type precast culvert box, and more particularly, to a quadrilateral separation type precast culvert box formed by combining an upper slab, a lower slab and a pair of wall parts pre-fabricated in a precast type, the upper On both sides of the slab, in a direction perpendicular to the bonding surface between the upper slab and the pair of wall parts, a plurality of coupling holes penetrating the upper slab body are formed, and a steel plate provided with bolt fastening holes is inserted inside each coupling hole. and inserting at least one or more insert anchors, respectively, at positions corresponding to the plurality of coupling holes at the upper ends of the pair of wall parts, and in the construction process, a high-tensile bolt penetrating the bolt fastening holes formed in the steel plate, the insert anchor After each fastening to the mortar, by filling and hardening the mortar inside the coupling hole, the mortar filled in the coupling hole is integrally and firmly coupled with the steel plate and high-tensile bolt, and the upper slab and a pair of walls constituting the culvert box It relates to a quadrilateral separation type precast culvert box, characterized in that the structural integrity of the culvert box is improved by effectively distributing the load applied to the culvert box by configuring the parts to be firmly coupled to each other and to behave as one.

In the process of manufacturing a hollow structure such as a waterway, a common hole and a passageway, culvert boxes of various sizes are used depending on the purpose of use.

In the case of such a culvert box, in the conventional case, a unit unit pre-fabricated in a factory in a precast method for shortening the construction period and economical construction, that is, a construction method of manufacturing a structure by connecting and bonding box-type precast culvert blocks in the field is mainly used. However, recently, as the culvert box is applied to large structures such as passageways and airport facilities and the size is gradually increased, the precast culvert box is separated into various forms to improve the convenience in the production and transportation process. A method of constructing a culvert box by assembling and combining each concrete block at a construction site after producing and transporting each manufactured concrete block is being applied.

For example, as in Korean Patent Registration No. 10-2061224, the upper and lower concrete blocks are separated and pre-fabricated, and then the upper and lower concrete blocks are fastened to form a culvert box at the construction site. A precast culvert box and its construction method have been proposed, and in Korean Utility Model No. 20-0148172, all four sides of the culvert box are separated to construct a prefabricated concrete block with an upper slab, a lower slab, and a pair of wall parts. A technology related to a quadrilateral separation type culvert box for constructing a hollow culvert box by fastening in the field has been disclosed.

However, in the case of the quadrilateral separation type culvert box constructed in this way, a strong bond at the joint surface between each interconnected concrete block is very important in maintaining the structural integrity of the structure manufactured through the continuous fastening of the culvert box. At this time, in the conventional quadrilateral precast culvert box, such as the above-mentioned Nos. 148 and 172, the coupling structure between the upper slab and the wall part is maintained through auxiliary configurations such as interlocking projections and receiving grooves, Such a coupling structure is simply to prevent the upper slab and the wall from being separated from each other, and the connection between the upper slab and the wall is mainly maintained by the weight of the upper plate.

That is, in the conventional quadrilateral separation type culvert box described above, the coupling relationship between the upper slab and the wall part is mainly maintained by the weight of the upper slab, and the coupling of the fastening part between the upper slab and the wall part is integrally and solidly combined. The persisted structure becomes unsupported.

Accordingly, when an external force such as an overhead load is applied to the quadrilateral separable precast culvert box having the above-described structure, the external force applied at the connection portion between the upper slab and the wall part constituting the culvert box cannot be effectively resolved, so it is applied to the culvert box. The external force is mainly concentrated in the central part of the upper slab, and as a result, the thickness of the upper slab is inevitably increased, and at the same time, there is a problem that the structural integrity of the overall culvert box is inevitably deteriorated.

1. Korea Patent Publication No. 10-2061224 (Registration date: 2019.12.24.) "Upper and lower separable precast culvert box and its construction method" 2. Korean Utility Model Publication No. 20-0148172 (Registration Date: 1999. 6.15.) "Prefabricated Culvert"

The present invention is to solve the problems according to the prior art described above, in a quadrilateral precast culvert box formed by combining an upper slab, a lower slab and a pair of wall parts pre-fabricated in a precast type, the upper slab On both sides of the, in a direction perpendicular to the joint surface between the upper slab and the pair of wall parts, a plurality of coupling holes penetrating the upper slab body are formed, and a steel plate having a bolt fastening hole is inserted inside each coupling hole. , At the upper end of the pair of wall parts, at least one or more insert anchors are respectively inserted at positions corresponding to the plurality of coupling holes, and in the construction process, high-tensile bolts passing through the bolt fastening holes formed in the steel plate are applied to the insert anchors. After each fastening, by filling and hardening the mortar inside the coupling hole, the mortar filled in the coupling hole is integrally and firmly coupled with the steel plate and high tension bolt, and the upper slab and a pair of wall parts constituting the culvert box It is an object of the present invention to provide a quadrilateral separation type precast culvert box with improved structural integrity of the culvert box by effectively distributing the load applied to the culvert box by being firmly coupled to each other and configured to act integrally.

As a technical idea for achieving the above object, in the present invention, the upper slab, the lower slab, and the pair of wall parts are separated and manufactured, respectively, in a quadrilateral separation type precast culvert box formed in a hollow box shape through the fastening process at the construction site. In the following, the upper slab and the pair of wall parts are pre-fabricated in a precast type and configured to be mutually fastened at the construction site, and on both sides of the upper slab, perpendicular to the junction surface between the upper slab and the pair of wall parts In a shape penetrating the upper slab body in the direction, a plurality of coupling holes having at least one stopping protrusion formed along the inner wall are formed, and at the upper end of the pair of wall parts, at least at a position corresponding to the coupling hole, respectively. Inserting one or more insert anchors, inserting a steel plate having a bolt fastening hole at a position corresponding to the insert anchor into the locking jaw formed in the coupling hole, and inserting a high tension bolt into the insert anchor through the bolt fastening hole, A quadrilateral separation type precast culvert box, characterized in that it is configured to integrally fasten the upper slab and the pair of wall parts by fixing and fixing the steel plate to the inside of the coupling hole, then filling the coupling hole with mortar and hardening it to provide.

The quadrilateral precast culvert box according to the present invention inserts a steel plate into a plurality of coupling holes formed on both sides of an upper slab, and then inserts a high-tensile bolt through the bolt fastening hole formed in the steel plate to insert an insert anchor at the top of both wall parts. By fastening with and filling the coupling hole with mortar, the mortar filled in the coupling hole, the steel plate, and the high-tensile bolt are integrally and firmly coupled, thereby supporting the upper slab and the wall part constituting the culvert box to always behave as one. , there is an effect of improving the overall structural integrity of the quadrilateral separation type precast culvert box by effectively distributing the load concentrated on the upper slab in the conventional quadrilateral separation type culvert box throughout the body of the culvert box.

1 is a diagram schematically showing the structure of a quadrilateral separation type precast culvert box according to a first embodiment of the present invention.
Figure 2 is a partial cross-sectional view each showing a cross section of the junction where the upper slab and the wall portion of the quadrilateral separation type precast culvert box are connected according to the first embodiment of the present invention.
3 is a partial cross-sectional view showing a state in which the upper slab and the wall portion of the quadrilateral separation type precast culvert box are connected and joined through mortar filling according to the first embodiment of the present invention.
4 is a partial cross-sectional view showing a state in which the upper slab and the wall portion of the quadrilateral separation type precast culvert box are connected and joined through mortar filling according to the second embodiment of the present invention.
FIG. 5 is a view exemplarily showing a state in which a plurality of steel plates are inserted into a coupling hole formed in an upper slab of a quadrilateral separable precast culvert box according to a third embodiment of the present invention.
6 is a view from the top of a part of the structure in which quadrilateral separation type precast culvert boxes are continuously connected according to the first embodiment of the present invention.
7 is a view for explaining the connection structure of the lower slab applied to the present invention.

Since the present invention can have various changes and can have various forms, specific embodiments are illustrated in the drawings and described in detail in the text.

However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention. Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

The terminology used in the present application is only used to describe specific embodiments, and is not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification is present, and includes one or more other features or It should be understood that the existence or addition of numbers, steps, operations, components, parts, or combinations thereof does not preclude the possibility of addition.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings, but the present invention is not limited to the following embodiments unless departing from the gist thereof.

1 is a view schematically showing the structure of a quadrilateral separation type precast culvert box according to a first embodiment of the present invention.

As shown in FIG. 1 , the quadrilateral precast culvert box according to the present invention has an upper slab 100 pre-fabricated in a precast type, and is connected to both sides of the upper slab 100 and extends vertically downward, respectively. A pair of wall parts 200 and both side ends are composed of a lower slab 300 each coupled to the lower end of the pair of wall parts 200, and the upper slab 100 and both wall parts ( 200) and the lower slab 300 are integrally fastened to form a hollow box-shaped culvert box.

At this time, on both sides of the upper slab 100, a plurality of coupling holes passing through the body of the upper slab 100 in a direction perpendicular to the joint surface between the upper slab 100 and the pair of wall parts 200 ( 110) is formed, and after aligning the upper slab 100 and the pair of wall parts 200, the coupling hole 110 is filled with mortar 400 and hardened to form the upper slab 100 and the pair of The wall part 200 is fastened.

Here, the coupling hole 110 formed in the upper slab 100 has a tapered shape with an upper cross-section wider than the lower cross-section, and one or more engaging protrusions are formed along the inner wall of the coupling hole 110 therein. , this will be described in more detail with reference to FIGS. 2 to 5 to be described later.

On the other hand, in the pair of wall parts 200, as shown in the drawing, at the upper end where the bonding surface with the upper slab 100 is formed, at least one at a position corresponding to the plurality of coupling holes 110, respectively. The above insert anchor 210 is inserted and provided so that in the process of connecting the pair of wall parts 200 and the upper slab 100, the high tension bolt 220 can be fastened to the insert anchor 210. is composed

In this case, the bolt 220 fastened to the insert anchor 210 is preferably a high-tensile bolt having a relatively high tensile strength compared to a general bolt.

On the other hand, in configuring the pair of wall parts 200, in order to effectively reinforce the resistance to the external force relatively concentrated on the right leg part of the culvert box, upper brackets at the top and bottom of both wall parts 200, 240 and the lower bracket 250 may be formed, respectively, and the coupling structure with the lower slab 300 may be more easily implemented through the lower bracket 250 thus formed.

That is, as shown in the drawing, in the quadrilateral separation type precast culvert box according to the present invention, both ends of the lower slab 300 are respectively connected to and coupled to the lower brackets 250 formed in the pair of wall parts 200 . In this case, the lower slab 300 connected in this way may be pre-fabricated in a precast type, or may be formed by pouring concrete directly at the construction site. do it with

That is, the quadrilateral split type precast culvert box according to the present invention includes an upper slab pre-fabricated in a precast type, a pair of wall parts connected to both sides of the upper slab and extending vertically downward, and both side ends are as described above. It consists of a lower slab coupled to the lower end of a pair of wall parts, aligns the upper slab and both wall parts at the construction site, and is formed by fastening the upper slab and a pair of wall parts through mortar bonding. The fastening structure between the upper slab and the pair of wall parts of the quadrilateral separation type precast culvert box according to the embodiment will be described in more detail with reference to FIGS. 2 to 5 .

2 is a partial cross-sectional view each showing a cross section of a junction where an upper slab and a wall part of a quadrilateral separation type precast culvert box are connected according to a first embodiment of the present invention, and FIG. 3 is a first embodiment of the present invention It is a partial cross-sectional view showing the state of connecting the upper slab and the wall of the quadrilateral precast culvert box and bonding it through mortar filling.

First, referring to FIG. 2 , on one side of the upper slab 100, a coupling hole 110 having a tapered shape with an upper cross-section wider than a lower cross-section is formed. It can be seen that the locking jaw 120 is configured to be formed by the step formed along the inner wall.

At this time, at least one engaging projection 120 formed on the inner wall of the engaging hole 110 is formed to fix the steel plate 130 to the engaging projection 120 , and the engaging hole 110 into which the steel plate 130 is inserted. After aligning the upper slab 100 and the wall part 200 so that the insert anchor 210 and the insert anchor 210 correspond to each other, the fastening between the upper slab 100 and the wall part 200 is made.

In the first embodiment of the present invention, as shown in FIG. 3 , the upper slab 100 and the insert anchor 210 correspond to the coupling hole 110 into which the steel plate 130 is inserted through the above-described configuration. After aligning the wall part 200, the high tension bolt 220 is fastened to the insert anchor 210, and the upper slab 100 and both wall parts ( 200) are mutually fastened, and at this time, the steel plate 130 inserted into the coupling hole 110 of the upper slab 100 is provided with a bolt fastening hole (not shown), so that the high tension bolt 220 is connected to the steel plate 130 . ) is configured to be fastened to the insert anchor 210 through the bolt fastening hole.

Through this configuration, in the present invention, by fixing the steel plate to the engaging jaw of the coupling hole, fastening the high-tensile bolt penetrating the bolt fastening hole formed in the steel plate to the insert anchor, and then filling and hardening the mortar, the high-tensile bolt and the engaging The mortar is densely filled and solidified before and after the steel plate fixed inside the coupling groove by the jaw, and the mortar, the steel plate, and the high-tensile bolt are integrated and firmly combined inside the coupling hole, which results in a quadrilateral separation type precast culvert box. Even when an external force acts on the By supporting the upper slab and both wall portions to always behave integrally through the coupling structure, the load applied to the quadrilateral precast culvert box can be evenly distributed throughout the culvert box body.

in other words, As described above, in the case of the quadrilateral separation type precast culvert box according to the prior art, when an external force such as an overhead load is applied because the integral behavior between the upper slab and the pair of wall parts is not sufficiently supported, it is applied to the culvert box. However, in the present invention, the upper slab and a pair of walls constituting the culvert box through the coupling hole fixing structure through the steel plate and high-tensile bolt of the above-described method are caused by problems such as the external force being mainly concentrated in the central part of the upper slab. By supporting the part to always be firmly coupled and behave integrally, the external force applied to the culvert box can be effectively dispersed throughout the culvert box body, thereby effectively improving the overall structural integrity of the culvert box.

Here, in the embodiment described in FIGS. 2 and 3 above, an embodiment in which an insert anchor is inserted and installed at the upper end of a pair of wall units has been described, but the present invention is not limited thereto. It may be configured such that a high tension bolt is inserted and provided at a position where the anchor is inserted.

4 is a partial cross-sectional view showing a state in which the upper slab and the wall portion of the quadrilateral separation type precast culvert box are connected and joined through mortar filling according to the second embodiment of the present invention.

That is, as shown in Figure 4, in the second embodiment of the present invention, the high tension bolt 220 is inserted at the position where the insert anchor is inserted on the upper end of the pair of wall parts in the first embodiment, At this time, the end of the high tension bolt 220 is configured to protrude upward from the top of the wall portion 200 to be exposed to the outside.

In the process of connecting the wall part 200 configured as described above with the upper slab 100 , the high tension bolt 220 inserted at the top of the wall part 200 and the coupling hole 110 formed in the upper slab 100 are positioned After arranging to correspond to each other so that the protrusion of the high-tensile bolt 220 penetrates the bolt fastening hole of the steel plate 130 inserted into the coupling hole 110 , the nut 260 is fastened to the high-tensile bolt 220 . By fixing the bolt 220 and the steel plate 130, the high-tensile bolt 220 and the steel plate 130 are configured to be integrally fastened.

Subsequently, the coupling hole 110 is filled with mortar 400 to connect the upper slab 100 and the wall part 200 . In this case, as in the first embodiment, the coupling hole 110 is also filled. ) before and after the inserted steel plate 130, the mortar 400 is densely filled and hardened, and accordingly, the steel plate 130 and the mortar 400 and the high tension bolt 220 in the coupling hole 110. is firmly coupled integrally, and supports to firmly maintain the coupling site between the upper slab 100 and the pair of wall parts 200 constituting the culvert box.

In addition, in the embodiments of FIGS. 2 to 4 above, an example of inserting only one steel plate into one coupling hole has been described, but in the present invention, the number of steel plates inserted into one coupling hole is not limited, and one By forming a plurality of engaging projections in the coupling hole of the plurality of steel plates can be configured to overlap and insert, which will be described in more detail with reference to FIG. 5 below.

FIG. 5 is a view exemplarily showing a state in which a plurality of steel plates are inserted into a coupling hole formed in an upper slab of a quadrilateral separation type precast culvert box according to a third embodiment of the present invention.

That is, in the present invention, a plurality of locking jaws are installed inside each coupling hole formed in the upper slab so that a plurality of steel plates are sequentially inserted into one coupling hole. A case in which a steel plate is inserted is as follows.

Referring to FIG. 5 , two locking projections 120a and 120b are formed in the coupling hole 110 formed in the upper slab 100 , and accordingly, the steel plates 130a and 130b are formed on each of the locking projections 120a and 120b, respectively. You can see that they are inserted one by one.

In this way, when a plurality of locking projections 120 are formed in the coupling hole 110 at the coupling portion between the upper slab 100 and the wall portion 200, a steel plate is inserted into each of the locking projections 120a and 120b, respectively. The steel plates 130a and 130b are respectively inserted into each of the locking projections 120a and 120b, and in each of the steel plates 130a and 130b inserted in this way, as described above, bolt fastening holes are formed, respectively, and the wall In the process of fastening the high-tensile bolt 220 to the insert anchor 210 inserted at the top of the part 200, the high-tensile bolt 220 penetrates the bolt fastening hole formed in each of the steel plates 130a and 130b, and the insert anchor 210 ) and is fixed, and at this time, the steel plate 130a disposed below is integrally fixed with the high tension bolt 220 through the fastening of the nut 270 .

Through this configuration, at the bonding site between the upper slab 100 and the wall part 200, a plurality of steel plates 130a and 130b are fixed with one high-tensile bolt 220, and then filled with mortar 400 and hardened. , by supporting the mortar 400, the plurality of steel plates 130a, 130b, and the high-tensile bolt 220 to behave integrally in one coupling hole 110, a more robust coupling structure can be formed.

On the other hand, as in the previous description, high tension bolts may be inserted into the upper ends of the pair of wall parts at the positions where the insert anchors are inserted. In this case, in fastening the upper slab and both wall parts, both wall parts The high-tensile bolts inserted into the coupling holes pass through the bolt fastening holes respectively formed in the two steel plates inserted into the coupling holes, and then the nuts are fastened to be integrally coupled with the steel plates.

This structure also more firmly combines the coupling structure between the mortar 400 filled in the coupling hole 110 and the plurality of steel plates 130 and the high-tensile bolt 220 in one coupling hole 110, so that the upper slab (100) and the wall portion 200 are always supported to behave integrally.

In addition, in the above-described embodiments, the steel plate 130 inserted and fixed inside the coupling hole is an arcuate steel plate curved upwards in the coupling hole or a bent steel plate bent upward in the coupling hole, such a steel plate Through the structural shape of At the same time, it generates a compressive stress on the wall and supports to maintain the integral behavior of the upper slab and the wall part constituting the culvert box by increasing the crack resistance.

As described above, the quadrilateral precast culvert box according to the present invention includes an upper slab pre-fabricated in a precast type, a pair of wall parts connected to both sides of the upper slab and extending vertically downward, respectively, and both It is formed by aligning the upper slab and both wall parts at the construction site, and fastening the upper slab and the pair of wall parts through mortar coupling. On both sides of the slab, in a direction perpendicular to the bonding surface between the upper slab and the pair of wall parts, a plurality of coupling holes passing through the upper slab body are formed, and inside each coupling hole, one formed along the inner wall of the coupling hole After inserting the steel plate provided with the bolt fastening hole by the above-mentioned locking jaw, insert anchors are respectively inserted at the positions corresponding to the plurality of coupling holes at the top of the pair of wall parts, and in the construction process, the high-tensile bolts are After each fastening to the insert anchor through the bolt fastening hole formed in the steel plate, the mortar filled in the coupling hole is solidly combined with the steel plate and the high-tensile bolt by filling the inside of the coupling hole with mortar and hardening, The upper slab and the pair of wall parts constituting the culvert box are firmly coupled to each other and are configured to act as one.

6 is a view from the top of a structure in which quadrilateral separation-type precast culvert boxes formed according to the first embodiment of the present invention are continuously connected, and shows a shape in which a total of three culvert boxes are connected in a line.

In the embodiment shown in the drawings, two coupling holes 110 are formed on both sides of the individual upper slab 100 constituting each culvert box, respectively, and the steel plate 130 inserted into each coupling hole 110 . ) shows an example in which two high-tensile bolts 220 are fastened.

That is, in the quadrilateral separation type precast culvert box according to the present invention, a plurality of coupling holes are formed on both sides of the upper slab constituting the culvert box according to the specifications of the precast structure manufactured in advance, and a steel plate inserted into each coupling hole. It is configured to be integrally fixed with the wall portion through at least one high-tensile bolt, in this case, as shown in FIG. 6, two bolt fastening holes are provided in one steel plate 130, 130) may be configured so that two high-tensile bolts 220 are fastened, or two steel plates (not shown) each having one bolt fastening hole in one coupling hole 110, a coupling hole ( 110) may be provided to be spaced apart from each other by a certain distance within, of course.

In addition, as described in FIG. 5 above, inside each coupling hole 110, a plurality of locking protrusions are formed along the inner wall of the coupling hole 110, and a plurality of steel plates 130 are sequentially inserted and fastened. Of course you can.

That is, in the present invention through the above-described configuration, as shown in FIG. 6 , through the free space between both sidewalls of the coupling hole 110 and the steel plate 130 , each steel plate inserted into the coupling hole 110 ( 130), the mortar can be densely filled, and as described above, when two steel plates each provided with one bolt fastening hole are spaced apart from each other by a certain distance in the coupling hole, the mortar filling is performed. Of course, it is possible to secure the free space more effectively.

Through such a configuration, in the present invention, at the joint portion between the upper slab and a pair of wall parts supporting the upper slab, the mortar, the steel plate, and the high-tensile bolt, which are filled and hardened in the joint holes formed on both sides of the upper slab, are integrated into one. By guiding the upper slab and the pair of wall parts to behave integrally by combining them firmly, the load applied to the culvert box can be effectively distributed throughout the culvert box body, thereby improving the structural integrity of the quadrilateral precast culvert box.

7 is a view for explaining the connection structure of the lower slab applied to the present invention.

Figure 7 (a) is a view showing a case where the lower slab is cast on site in a quadrilateral separation type precast culvert box, (b) is a view showing a case where the lower slab prefabricated in the precast type is combined at the construction site am.

Looking at the case of pouring the lower slab on-site through (a) of FIG. 7 , in manufacturing a pair of wall parts 200 applied to the construction of a quadrilateral separation type precast culvert box for on-site casting in a precast type, the wall part (200) It is pre-fabricated so as to integrally include the reinforcing bar 280 exposed in the horizontal direction on the lower bracket 250 formed at the lower end.

In this way, the pre-fabricated pair of the wall part 200 and the upper slab 100 are transported to the construction site and fastened at the construction site. At the construction site, the upper slab 100 and the pair of wall parts 200 are Before fastening the quadrilateral precast culvert box, basic pre-work is performed on the place where it will be installed.

That is, after digging at the place where the quadrilateral separation type precast culvert box is to be installed, and then compacting the ground, a pair of pre-fabricated wall parts 200 are installed and the formwork for forming the lower slab is arranged.

At this time, the reinforcing bar 280 provided in the lower bracket 250 of the pair of wall parts 200 is disposed so as to be exposed to the area in which the lower slab is poured.

Then, the lower slab is formed by pouring concrete into the formwork and curing, and then the formwork is removed.

When the removal of the formwork is completed, a quadrilateral-separated precast culvert box is formed by fastening both the wall parts 200 and the upper slab 100. At this time, the pair of wall parts 200 and the upper slab 100 are fastened As described above, in the upper slab 100 and the pair of wall parts 200 constituting the culvert box, on both sides of the upper slab 100, the upper slab 100 and the pair of walls A plurality of coupling holes 110 penetrating the body of the upper slab 100 are formed in a direction perpendicular to the joint surface between the parts 200, and a steel plate having a bolt fastening hole is inserted in each coupling hole 110. and at least one insert anchor 210 is inserted at the upper end of the pair of wall parts 200 at positions corresponding to the plurality of coupling holes 110, and high tensile strength passing through the bolt fastening hole formed in the steel plate. After each bolt 220 is fastened to the insert anchor 210 , the mortar 400 filled in the coupling hole 110 is filled and hardened, so that the mortar 400 filled in the coupling hole 110 is the steel plate. And to form a quadrilateral separation type precast culvert box that is firmly coupled to the high tension bolt 220 integrally.

In other words, hollow structures such as waterways, cavities and passageways are constructed by successively fastening quadrilateral-separated precast culvert boxes formed through the above-described process. A detailed description thereof will be omitted.

On the other hand, (b) of Figure 7 is a view showing a case in which a pre-fabricated lower slab of a precast type is combined at a construction site.

As shown in (b) of Figure 7, when the upper slab constituting the quadrilateral precast culvert box and the pair of wall parts and the lower slab are all prefabricated and combined on site, the prefabricated lower slab ( 300) and the pair of wall parts 200, along the width direction of the culvert box, at least one strand passing hole (not shown) for penetrating and installing the strand 290, respectively, is formed at the construction site. , by inserting the stranded wire 290 through the stranded wire through hole formed in the lower part of the lower slab 300 and the pair of wall parts 200, and applying tension to fasten it, the integral behavior between the lower slab and the pair of wall parts is supported. will do

That is, in the case of the precast structure shown in Fig. 7 (b), first, at the place where the quadrilateral separation type precast culvert box is to be installed, after performing basic preliminary work such as compacting the ground after digging, At the place where the culvert box is to be installed, the lower slab 300 and the pair of wall parts 200 are arranged, and the stranded wire ( 290) by inserting and fixing the tension force, the lower slab 300 and the pair of wall parts 200 are mutually fastened.

Then, both wall parts 200 and the upper slab 100 are fastened, and this process goes through the same process as in the case of (a) of FIG. They are continuously fastened to construct hollow structures such as waterways, common pits and passageways.

As such, in constructing the quadrilateral separation type precast culvert box according to the present invention, using a lower slab pre-fabricated as a precast type (FIG. All of (a) of FIG. 7 may be applied.

As described above, the quadrilateral separation type precast culvert box according to the present invention is a quadrilateral separation type precast culvert box formed by combining an upper slab, a lower slab, and a pair of wall parts pre-fabricated in a precast type. On both sides of the upper slab, in a direction perpendicular to the junction surface between the upper slab and the pair of wall parts, a plurality of coupling holes penetrating the upper slab body are formed to form a steel plate with bolt fastening holes inside each coupling hole. Insert, at the top of the pair of wall parts, by inserting at least one or more insert anchors, respectively, at positions corresponding to the plurality of coupling holes, and in the construction process, high-tensile bolts passing through the bolt fastening holes formed in the steel plate are inserted After each fastening to the anchors, by filling and hardening the mortar inside the coupling hole, the mortar filled in the coupling hole is integrally and firmly coupled with the steel plate and high-tensile bolt, and a pair of upper slabs constituting the culvert box By configuring the wall parts to be firmly coupled to each other and behaving as one, the load applied to the culvert box is effectively distributed, thereby improving the structural integrity of the culvert box.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

100: upper slab 110: coupling hole
120: jamming jaw 130: steel plate
200: wall portion 210: insert anchor
220: high tension bolt 240: upper bracket
250: lower bracket 260, 270: nut
280: reinforcing bar 290: stranded wire
300: lower slab

Claims (8)

In the quadrilateral separation type precast culvert box, which is separated and manufactured into an upper slab, a lower slab and a pair of wall parts, and is formed in a hollow box shape through a fastening process at a construction site,
The upper slab and the pair of wall parts are pre-fabricated in a precast type and configured to be mutually fastened at the construction site,
On both sides of the upper slab, passing through the upper slab body in a direction perpendicular to the junction surface between the upper slab and the pair of wall parts, the upper section is formed in a tapered shape wider than the lower section, at least along the inner wall Forming a plurality of coupling holes in which one or more locking jaws are formed,
At the upper end of the pair of wall parts, by inserting at least one or more insert anchors, respectively, at positions corresponding to the coupling holes,
Inserting a steel plate having a bolt fastening hole formed at a position corresponding to the insert anchor into the locking jaw formed in the coupling hole,
After inserting and fixing a high-tensile bolt through the bolt fastening hole into the insert anchor, the steel plate is fixed to the engaging jaw inside the coupling hole,
Doedoe configured to integrally fasten the upper slab and the pair of wall parts by filling the coupling hole with mortar and hardening it,
The steel plate is
An arcuate shape curved toward the upper portion of the coupling hole Or a quadrilateral separation type precast culvert box, characterized in that it is made of a bent steel plate bent upward of the coupling hole, resists a downward concentrated load transmitted by an external force applied to the culvert box, and generates a compressive stress in the mortar below the steel plate. .
In the quadrilateral separation type precast culvert box, which is separated and manufactured into an upper slab, a lower slab and a pair of wall parts, and is formed in a hollow box shape through a fastening process at a construction site,
The upper slab and the pair of wall parts are pre-fabricated in a precast type and configured to be mutually fastened at the construction site,
On both sides of the upper slab, passing through the upper slab body in a direction perpendicular to the junction surface between the upper slab and the pair of wall parts, the upper section is formed in a tapered shape wider than the lower section, at least along the inner wall Forming a plurality of coupling holes in which one or more locking jaws are formed,
At the upper end of the pair of wall parts, at least one high-tensile bolt is inserted at a position corresponding to the coupling hole so that the bolt end protrudes upward from the upper end of the pair of wall parts,
After fixing the steel plate in which the bolt fastening hole is formed at a position corresponding to the high-tensile bolt to the engaging jaw inside the coupling hole through nut fastening with the high-tensile bolt,
Doedoe configured to integrally fasten the upper slab and the pair of wall parts by filling the coupling hole with mortar and hardening it,
The steel plate is
An arcuate shape curved toward the upper portion of the coupling hole Or a quadrilateral separation type precast culvert box, characterized in that it is made of a bent steel plate bent upward of the coupling hole, resists a downward concentrated load transmitted by an external force applied to the culvert box, and generates a compressive stress in the mortar below the steel plate. .
delete 3. The method of claim 1 or 2,
On the inner wall of the coupling hole,
In the depth direction of the coupling hole, two locking jaws are formed to be spaced apart from each other at regular intervals,
Quadrilateral separation type precast culvert box, characterized in that two steel plates are respectively fixed to the two locking jaws through bolting.
delete 3. The method of claim 1 or 2,
In the pair of wall parts,
Quadrilateral precast culvert box, characterized in that an upper bracket and a lower bracket are respectively formed for reinforcing resistance.
7. The method of claim 6,
In the lower bracket formed on the pair of wall parts,
A plurality of reinforcing bar structures that are exposed and inserted in opposite directions are provided,
The lower slab constituting the culvert box,
Quadrilateral separation type precast culvert box, characterized in that it is configured to connect between the lower brackets formed on the pair of wall parts through concrete pouring in the field construction process.
7. The method of claim 6,
The lower slab constituting the culvert box,
It is pre-fabricated as a precast type and is configured to be fastened between the lower brackets of the pair of wall parts at the construction site,
In the lower part of the pair of wall parts and the lower slab,
Each of at least one strand passing hole is formed,
Quadrilateral separation type precast culvert box, characterized in that it is mutually fastened by tensioning and fixing the strand through the strand through hole in the field construction process.

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