KR101526461B1 - Functional precast concrete culvert - Google Patents

Abstract

The present invention is to provide a functional precast concrete culvert capable of maximizing force against the load of an airplane or a heavy vehicle by forming load reinforcement parts with a larger haunch to have a vertically asymmetric structure and obtaining both a road function and a culvert function even through the installation of a grating catchment, a general culvert, or a centrifugal pipe is difficult or impossible. To achieve the objective of the present invention, the functional precast concrete culvert formed by longitudinally connecting two or more culverts comprises: a culvert body entirely formed into the shape of a hexahedron and having a penetration hole longitudinally penetrated inside, an opening part formed in the upper part, the arch load reinforcement parts formed on the underside of the upper part, corner support parts formed at the corners of the lower part, and a protrusion part protruding downward from the middle of the outer underside; sheath pipes longitudinally embedded in the corner support parts of the culvert body; tendons embedded in the sheath pipes; and a bottom plate in which the protrusion part of the culvert body is inserted and having a rectangular panel formed of concrete with a predetermined thickness and a width, an insertion groove recessed in the center of the panel while having a cross sectional shape gradually narrowed downward from the upper part, grout injection ports and discharge ports bored in both sides of the upper surface of the panel at a constant interval, and an insertion port formed in a predetermined position of the panel while being narrowed downward from the upper part.

Description

Functional precast concrete culvert.

The present invention relates to a concrete precast concrete channel culvert, in particular, a culvert is excavated to a certain depth, a culvert is installed in a precast water so as to be exposed to the ground without a toe bulb, and the upper part of the water culvert is passed through an airplane or a heavy- And a func- tional precast concrete watercourse culvert that allows incoming water to flow to a certain place by incidentally introducing storm water and surface water.

Generally, in establishing the concrete waterway culvert by connecting the culvert in the longitudinal direction with a plurality of precast concrete channels, the most important point is the solid connection at the joint of the precast concrete channel culvert.

A general method of joining the precast concrete channel culvert in the longitudinal direction is to form concave joining grooves on adjacent joining surfaces of adjacent precast concrete channel culverts and to form joining grooves in a state of joining surfaces facing each other And a filler such as non-shrinkable mortar is injected into the space to form a joint.

In the case where the pre-cast concrete channel culvert is constructed by connecting a plurality of precast concrete water culverts in the longitudinal direction so as to have a joint of such a structure, when the uneven settlement of the ground occurs due to the vibration of the surroundings and the deformation of the ground, Bending moment acts on cast concrete channel culvert.

Also, even when the vertical load acts on the top of the precast concrete channel, bending moment acts on the box precast concrete channel.

This bending moment causes a flexural tensile force to be applied to the joint of the precast concrete water channel culvert. When the flexural tensile force exceeds the tensile strength of the filler of the joint, cracks occur in the filler, There is a problem that a leakage phenomenon occurs.

Therefore, it is very important that the joints of precast concrete channel culverts have sufficient resistance to the flexural tensile force at the joints caused by anisotropic and vertical loads when precast concrete channel culverts are constructed by joining precast concrete channel culverts. It is important.

In order to achieve this, a through hole is formed in a prominent portion of precast concrete water channel culvert so that a plurality of precast concrete channels are installed in the culvert to penetrate the culvert in the longitudinal direction.

In addition, an eye bolt is provided on the vertical wall portion on both side joint surfaces of the precast concrete water channel culvert, the holes of the eye bolt are made to communicate with each other, and then the fastening rod is passed perpendicularly to the hole of the eyebolt Respectively.

As described above, since the joint structure using the eyebolts has a large tensile strength, it is very effective for the precast concrete water channel culvert joint structure. However, since the fastening rod must be penetrated, the application site is the vertical wall section of the precast concrete channel There is a problem that it is limited only.

In addition, when excavating the ground to install the precast concrete water channel culvert, only the minimum ground is excavated in the lateral direction of the precast concrete water channel culvert, so that the neighboring pre-cast concrete channel culvert It is impossible to insert the fastening bar in the horizontal direction and penetrate the hole of the eye bolt.

Therefore, inevitably, conventionally, the eye bolt was installed only in the vertical wall portion, and the fastening bar was inserted only in the vertical direction.

However, when uneven settlement in the vertical direction is applied to the precast concrete channel, or when a vertical load is applied, the bending tensile force generated by the bending moment acts most at the top plate or bottom plate of the precast concrete channel .

On the contrary, since the joint structure using the eyebolts exhibiting a large flexural tensile strength can be applied only to the vertical wall portion, the top plate and the bottom plate of the precast concrete channel in which the greatest flexural tensile force acts are weak in tensile strength .

Therefore, it is desired to increase the flexural tensile strength of the upper plate and the lower plate of the culvert segment with precast concrete water.

Registration Utility Model Bulletin No. 20-0421737 (2006.07.18) Patent Registration No. 10-0789697 (2008.03.03) Patent Document No. 10-2008-0024424 (Mar. 18, 2008) Registration Utility Model Publication No. 20-0464347 (December 28, 2012) Patent Registration No. 10-1333531 (November 31, 2013)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a load reinforcing part, which is greatly increased in weight in order to maximize the responsiveness to a load of an airplane or a heavy equipment vehicle, It is an object of the present invention to provide a functional precast concrete watercourse culvert which is capable of simultaneously securing a road function and a waterway function in the case where it is difficult or impossible to install a collection port, a general waterway culvert and a centrifugal waterway pipe.

In order to achieve the above object, a precast concrete channel canal according to the present invention is a precast concrete channel canal having at least two or more water channel culverts longitudinally connected to each other, A through hole penetrating in the longitudinal direction is formed therein, an opening is formed in the upper part, an arcuate load reinforcing part is formed in the upper bottom surface, a part is formed in the lower corner, and the center is downward A culvert main body having protruding protrusions formed therein; A sheath tube embedded in the longitudinally extending portion of the culvert main body; A tensile member embedded in the sheath tube; A panel made of concrete having a rectangular shape and having a predetermined thickness and width, a protrusion of the culvert main body being inserted into the panel, an insertion groove recessed and formed in the middle of the panel in a sectional shape of upper light- And a bottom plate having an inlet port and an exhaust port formed at both sides with a gap therebetween, the inlet and the inlet being formed in a predetermined position of the panel.

As described above, the functional precast concrete watercourse culvert according to the present invention is constructed as a vertically asymmetric structure by forming a load reinforcement portion in which a spring is greatly increased in order to maximize the response force against a load of an airplane or a heavy equipment vehicle, There is an advantage that the road function and the water channel function can be secured at the same time when it is difficult or impossible to install the water channel, the general water channel culvert and the centrifugal water channel.

1 is a perspective view showing a first embodiment of a functional precast concrete waterway culvert according to the present invention,
Fig. 2 is a front view showing a first embodiment of a functional precast concrete watercourse culvert according to the present invention. Fig.
3 is a perspective view explaining a first embodiment of a functional precast concrete channel culvert according to the present invention,
4 is a perspective view showing the installed state of the first embodiment of the functional precast concrete watercourse according to the present invention,
5 is a sectional view taken along the line AA in Fig. 4,
Fig. 6 is a sectional view showing the installation state of the first embodiment of the functional precast concrete watercourse according to the present invention, Fig.
FIG. 7 is an exemplary view showing the use state of the first embodiment of the functional precast concrete watercourse according to the present invention, FIG.
FIG. 8 is a process diagram showing the construction procedure of the first embodiment of the functional precast concrete watercourse according to the present invention, FIG.
FIG. 9 is a detailed view showing the state of the lower height adjustment or the horizontal maintenance in the installation process of the functional precast concrete water channel culvert according to the present invention.
FIG. 10 is a detailed view showing the state of the lower height adjustment or the horizontal maintenance in the installation process of the functional precast concrete water channel culvert according to the present invention,
FIG. 11 is a detailed view showing the state of the lower height adjustment or the horizontal maintenance of the functional precast concrete water channel culvert according to the first embodiment of the present invention,
FIG. 12 is a detailed view showing the state of lower height adjustment or horizontal maintenance in the installation process of the functional precast concrete water channel culvert according to the present invention,
13 is a perspective view showing a second embodiment of a precast concrete precast concrete channel culvert according to the present invention,
Fig. 14 is a front view showing a second embodiment of the functional precast concrete watercourse culvert according to the present invention, Fig.
Fig. 15 is a perspective view explaining a second embodiment of a functional precast concrete watercourse culvert according to the present invention,
16 is a sectional view taken along the line AA in Fig. 15,
Fig. 17 is a sectional view taken along line BB of Fig. 15,
18 is a perspective view showing the installed state of the concrete precast concrete channel culvert according to the second embodiment of the present invention,
19 is a sectional view taken along the line AA in Fig. 18,
Fig. 20 is a sectional view 1 showing the installation state of the second embodiment of the functional precast concrete watercourse according to the present invention, Fig.
21 is a sectional view 2 showing the installation state of the second embodiment of the functional precast concrete watercourse according to the present invention,
FIG. 22 is a process chart showing a construction procedure of a concrete precast concrete channel culvert according to the present invention,
FIG. 23 is a detailed view of a lower height adjustment or a horizontal maintenance view in the installation process of the functional precast concrete water channel culvert according to the present invention,
FIG. 24 is a detailed view of the lower height adjustment or the horizontal maintenance view during the installation process of the second embodiment of the functional precast concrete water channel culvert according to the present invention.
FIG. 25 is a detailed view showing the state of lower height adjustment or horizontal maintenance in the installation process of the second embodiment of the functional precast concrete water channel culvert according to the present invention.
Fig. 26 is a detailed view showing the state of lower height adjustment or horizontal maintenance in the installation process of the concrete precast concrete channel culvert according to the present invention,
Fig. 27 is an explanatory view showing an external insertion type of a field pre-cast concrete channel culvert according to the present invention,
28 is a view showing an inner insertion type of a field pre-cast concrete water channel culvert according to the present invention,
FIG. 29 is a perspective view showing an external insertion type of a field pre-cast concrete channel culvert according to the present invention,
Fig. 30 is an illustration showing an inner insertion type of a field pre-cast concrete water channel culvert according to the present invention;

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

[First Embodiment]

1 is a perspective view showing a first embodiment of a functional precast concrete channel culvert according to the present invention, Fig. 2 is a front view showing a first embodiment of a functional precast concrete channel culvert according to the present invention, Fig. 2 3 is a perspective view explaining a first embodiment of the functional precast concrete water channel culvert according to the present invention, FIG. 4 is a perspective view showing the installed state of the first embodiment of the functional precast concrete channel according to the present invention, and FIG. 5 is a cross-sectional view taken along the line AA in Fig. 4, Fig. 6 is a cross-sectional view showing the installed state of the first embodiment of the functional precast concrete channel in accordance with the present invention, Fig. 7 is a cross sectional view of the functional precast concrete channel- Fig. 7 is an exemplary view showing the use state of the embodiment. Fig.

As shown in these drawings, the functional precast concrete water channel culvert (W) according to the present invention is a precast concrete channel culver having at least two or more water channel culverts connected in the longitudinal direction,

The precast concrete water channel culvert is formed in a hexahedron shape and has a through hole 110 penetrating in the longitudinal direction thereof. An opening 120 is formed at an upper portion of the through hole 110. An arcuate load reinforcing portion 130 A protruding portion 150 protruding downward from the center is formed on the outer lower surface of the body 100 and a protruding portion 150 protruding downward from the center of the bottom of the body 110 )Wow; A sheath tube (200) buried in the longitudinal direction of the cave portion (140) of the cave body (100); A tension member 300 embedded in the sheath tube 200; A panel 410 made of concrete having a rectangular shape and having a predetermined thickness and a width and into which a protrusion 150 of the culvert main body 100 is inserted; A grout injection port 430 and an exhaust port 432 formed at both sides of the panel 410 at regular intervals and formed on the upper surface of the panel 410; And a bottom plate 400 composed of an insertion port 440 formed in a narrow shape.

That is, the functional precast concrete channel culvert W according to the present invention is composed of the culvert main body 100, the sheath pipe 200, the tension member 300, and the bottom plate 400.

The culvert main body 100 is formed in a hexahedron shape and has a through hole 110 passing through in a pentagonal shape in the longitudinal direction. The opening 120 is formed in an upper portion of the through hole 110. An arcuate load A reinforcing portion 130 is formed and a triangular-shaped ridge 140 is formed on the lower corner and a protrusion 150 protruding downward from the center of the ridge 140 is formed on the lower surface.

Particularly, the opening 120 allows the flow of water and surface water into the functional precast concrete water channel culvert W so that the inflow water flows to a certain place.

The load reinforcing part 130 is formed in an arch shape by increasing the weight of the upper part of the functional precast concrete water channel culvert W so as to maximize the response force to the load at the upper part when the airplane or the heavy equipment vehicle travels .

The protrusion 150 is protruded to engage with the insertion groove 420 of the bottom plate 400 installed at the bottom.

Further, the sheath tube 200; A tension member 300 embedded in the sheath pipe 200 is installed to facilitate connection of the functional precast concrete water channel culvert W in the longitudinal direction.

The bottom plate 400 includes a panel 410 made of a rectangular concrete having a predetermined thickness and width and an insertion groove 420 formed in the center of the panel 410 so as to be formed into a cross- A grout injection port 430 and an exhaust port 432 formed at both sides of the panel 410 with a predetermined gap therebetween at a predetermined interval and an inlet port 432 formed in a predetermined position of the panel 410, 440).

That is, the bottom plate 400 is a member formed by organically coupling the panel 410, the insertion groove 420, the grout injection port 430, the exhaust port 432, and the insertion port 440.

Here, the panel 410 is a member made of a concrete having a rectangular shape having a predetermined thickness and width.

In addition, the insertion groove 420 is formed in the center of the panel 410 so as to be formed into a sectional shape having a narrow cross-sectional shape, and the protrusion 150 of the cave body 100 is inserted.

The grout injection port 430 serves as an injection port for filling the mortar with the panel 410. The exhaust port 432 is used to confirm whether the mortar injected through the grout injection port 430 is properly filled, And discharges air during charging.

At both ends of the bottom plate 400, coupling grooves 450 recessed and recessed are formed, and coupling holes 460 having a predetermined diameter are formed in the coupling grooves 450, The bottom plate 400 is engaged by inserting the sucker 470 into the coupling groove 450 and the coupling hole 460. [

9, the height adjusting device 500 is installed on the insertion opening 155 of the culvert 100 and the insertion opening 440 of the bottom plate 400, A support plate 520 projecting horizontally on the outer circumferential surface of the first nut 510 and a support plate 520 disposed on the lower surface of the first nut 510. The first nut 510 is inserted into the insertion ports 155 and 440, A second nut 550 screwed to a lower portion of the tongue bolt 540 and a second nut 550 screwed to the lower portion of the tongue bolt 540; And a bolt 570 screwed to the first nut 510. The bolt 570 is inserted into the bolt 570,

That is, the height adjusting device 500 is installed as one set in which the thrust bearings 530 are individually manufactured and installed, or the cover is provided on the outside.

In particular, the thrust bearing 530 includes a bolt 570 and a first and second nuts 510 and 550 (see FIG. 5) including weight attenuation by the sliding function of the weight when the height of the culvert 100 or the bottom plate 400 is adjusted. So that the cantilever 100 or the bottom plate 400 of the second nut 550 can be linked to the function of vertical lifting (lifting).

10, a height adjusting device 700 is installed at the insertion opening 155 of the culvert 100 and the insertion opening 440 of the bottom plate, A first nut 710 inserted into the first nut 710 and a second nut 720 inserted into the first nut 710 and a second nut 710 inserted into the first nut 710, And a bolt 750 screwed to the inner diameter bearing puller 730. The inner diameter of the inner diameter bearing puller 730 is smaller than that of the outer diameter of the inner diameter bearing puller 730, .

That is, the height adjusting device 700 has a structure in which the inner diameter bearing puller 730 is coupled with the bolts 750 and the nuts 760, and the nut 760 coupled with the inner diameter bearing puller 730 is in the longitudinal direction When the bolt 750 engaged with one side of the unparted nut 760 is locked, the bolt 750 protrudes out of the nut 760 as the split nut 760 is opened.

11, a height adjusting device 500 is installed on the insertion opening 155 of the culvert 100 and the insertion opening 440 of the bottom plate 400, A support plate 520 protruding horizontally on the outer circumferential surface of the first nut 510 and a second plate 510 protruding from the lower surface of the first nut 510. The first nut 510 is inserted into the insertion holes 155 and 440, A second nut 550 screwed to the lower portion of the tongue bolt 540; a section steel 560 disposed at a lower portion of the second nut 550; 1 bolts 570 screwed to the nuts 510. As shown in Fig.

12, a height adjusting device 800 is installed at the insertion opening 155 of the culvert 100 and the insertion opening 440 of the bottom plate, and the height adjusting device 800 includes an insertion opening 155 A support plate 820 horizontally protruding from the outer circumferential surface of the first nut 810 and an eye bolt 830 screwed to the first nut 810. The first nut 810 is inserted into the first nut 810, ).

That is, the height adjusting device 800 can adjust the flatness of the culvert 100 or the bottom plate 400 by installing a bearing puller on the eyebolts 830 at the upper part.

Hereinafter, the production of the precast concrete precast concrete channel culvert according to the present invention having the above-described structure will be described.

A method of manufacturing a precast concrete water channel culvert according to the present invention comprises the steps of: placing a reinforcing bar on a formwork, casting and curing concrete on the formwork to produce a culvert main body 100 and a bottom plate 400, 700 and 800 are installed at predetermined positions on the lower surface of the culvert main body 100. The height adjusting devices 500, 700, 800 are installed at predetermined positions on the lower surface of the culvert main body 100, The bottom plate 400 is formed with a load reinforcing part 130 corresponding to an external load so that the bottom plate 400 is inserted into the insertion groove 150 corresponding to the protrusion 150 of the cave body 100 installed on the upper part. 420 are formed on the bottom plate 400 and coupling grooves 450 are formed on both ends of the bottom plate 400 to connect the bottom plates 400.

In the method of manufacturing the culvert 100, the culvert 100 is installed longitudinally and laterally in a main passage such as a road or an airport through which a vehicle is directly traveling, The inside is asymmetrical structure, and it has the ability to cope with the passing load of airplane and heavy vehicles, and it also ensures the function of pass and waterway including road function.

The protrusions 150 are formed at the center of the lower surface of the culvert 100 so that the protrusions 150 are inserted into the insertion grooves 420 of the bottom plate 400 Therefore, the functional precast concrete water channel culvert (W) is used without being fastened to each other.

The height of the functional precast concrete water channel culvert W is controlled by the height adjusting devices 500, 700, and 800, and the height adjustment is performed by the height adjusting devices 500 and 700 800, and the height adjusting apparatuses 500, 700, 800 are installed at four locations in the interior of the cowl body 100.

Meanwhile, the functional precast concrete water channel culvert W according to the present invention is characterized in that it is connected and used against each other without being tightened in the longitudinal direction, and it is required to be fastened between the functional precast concrete water channel culver W And the fastening position is formed so as to have fastening grooves and fastening holes arranged in the upper and lower halves at eight positions in the culvert main body 100, The fastening grooves and fasteners disposed inside the housing 100 have a maintenance function capable of being assembled and fastened when peripheral settlement and displacement occur.

Also, the functional precast concrete water channel culvert (W) according to the present invention is manufactured by providing grout injection port and exhaust port for injecting mortar into the bottom of the culvert main body 100.

In the functional precast concrete channel culvert (W) according to the present invention, the upper surface of the culvert main body (100) is made horizontal so as to smooth the inflow of surface water and storm, It can be fabricated with a 1 to 4% downward slope from the edge to the center (stormwater inlet).

The protrusions 150 are formed at the center of the lower surface of the culvert 100 so that the protrusions 150 are inserted into the insertion grooves 420 of the bottom plate 400.

Meanwhile, the culvert main body 100 increases the weight of the aircraft in order to maximize the responsiveness to the load of the airplane, heavy vehicles, and the like, thereby constructing the load reinforcing part 130 having an arcuate vertical asymmetric structure.

In addition, in the case of an airfield, an opening 120 is formed to perform a function of draining rainwater (rainwater), thereby smoothly discharging the rainwater and surface water generated on the upper surface of the cave body 100.

The bottom plate 400 of the functional precast concrete water channel culvert W according to the present invention is made slightly larger than the lateral width of the culvert main body 100 so that the culvert main body 100 installed on the upper part is coupled And the connection between the bottom plate 400 and the bottom plate 400 is formed by vertically inserting the hydrofoil 470 into the coupling groove 450 and the coupling hole 460. [

The height adjustment devices 500, 700, and 800 are installed in the bottom plate 400 to adjust the height of the bottom plate 400. The height adjustment devices 500, 700, In place.

The connection between the bottom plate 400 and the bottom plate 400 is a vertically inserted structure of a metal reinforcement rod 470. The bottom plate 400 is provided with a coupling groove 450 and a coupling hole 460 at four positions, .

The insertion groove 420 is formed at the center of the bottom plate 400 so as to be connected to the protrusion 150 of the cage body 100.

This serves to bind the culvert main body 100 and the bottom plate 400 to each other.

An exponent P is attached to the upper surfaces of both longitudinal ends of the bottom plate 400 between the culvert main body 100 and the bottom plate 400 to prevent the mortar from leaking upon grouting after the culvert main body 100 is installed.

The bottom plate 400 is formed of a cement mortar, a self-healing mortar, a resin mortar, and a mortar in a vertical space between the bottom plate 400 and the culvert main body 100 generated by the height adjusting devices 500, 700, A grout injection port 430 and an exhaust port 432 are vertically installed on the inner side of the bottom plate 400 to fill the mortar.

Particularly, the function of the bottom plate 400 is such that the load applied to the lower part when the height of the culvert 100 installed on the upper surface is adjusted and the load applied to the culvert main body 100 exposed to the outside, So as to have a response force.

Hereinafter, construction of precast concrete channel cullet according to the present invention having the above-described structure and manufacturing will be described.

FIG. 8 is a process diagram showing the construction procedure of the first embodiment of the functional precast concrete watercourse according to the present invention.

As shown in this drawing, the method for constructing a precast concrete precast concrete water channel (W) according to the present invention includes a trenching step (T) for excavating a target ground (G) to a certain depth and width; Disposing rubble and sand (S) on the ter- minator (T) portion; Compiling the rubble and sand (S); The bottom plate 400 of the functional precast concrete water channel culvert W is installed on the compaction rubble and sand S and the height adjustment devices 500, 700, 800 of the bottom plate 400 are used Adjusting a height and a horizontal degree; Installing an index agent (P) at a predetermined position on an upper surface of the bottom plate (400); Installing a functional precast concrete channel culvert (W) by inserting a protrusion (150) of a culvert main body (100) into an insertion slot (420) of a bottom plate (400) provided with the indexing agent (P); Grouting a predetermined position of the functional precast concrete water channel culvert (W) into a mortar; (R) between the ter- minator (T) and the functional precast concrete water channel culvert (W); And packaging (A) the top surface of the backfill (R).

That is, in the method of constructing the functional precast concrete water channel culvert (W) according to the present invention, the target ground G is excavated with a predetermined depth and width, and a lumber and sand (S) The height and the horizontality of the bottom plate 400 are adjusted by using the height adjusting apparatuses 500, 700 and 800 and then the index plate 400 is placed at a predetermined position on the upper surface of the bottom plate 400 The protrusions 150 of the main body 100 are inserted into the insertion grooves 420 of the bottom plate 400 and then joined together and then grouted with mortar and back-packed (R) (A), and open the traffic.

Therefore, the functional precast concrete channel culvert construction method according to the present invention comprises installing a functional precast concrete water channel culvert (W) so as to excavate the ground to a certain depth and to be exposed to the ground without topple, The upper part of the concrete waterway culvert (W) is used as a road for passage of an airplane or a heavy-duty vehicle, and incidentally, there is an operation effect that the inflow water flows into a certain place by inflow of rainwater and surface water incidentally.

[Second Embodiment]

Fig. 13 is a perspective view showing a second embodiment of the functional precast concrete channel culvert according to the present invention, Fig. 14 is a front view showing a second embodiment of the functional precast concrete channel culvert according to the present invention, Fig. 15 is a perspective view explaining a second embodiment of the functional precast concrete channel culvert according to the present invention, Fig. 16 is a sectional view taken along the line AA in Fig. 15, Fig. 17 is a sectional view taken along the line BB in Fig. Fig. 19 is a sectional view taken along the line AA in Fig. 18, Fig. 20 is a sectional view taken along line AA in Fig. 20, and Fig. 20 is a view showing the installation state of the functional precast concrete channel culvert according to the present invention Sectional views 1 and 21 are sectional views 2 showing the installed state of the second embodiment of the functional precast concrete watercourse according to the present invention.

As shown in these drawings, the functional precast concrete water channel culvert (W) according to the present invention is a precast concrete water channel culver having at least two or more water channel culverts connected in the longitudinal direction, wherein the precast concrete channel culver A through hole 110 penetrating in the longitudinal direction is formed in the inside, an opening 120 is formed in an upper portion, an arcuate load reinforcing portion 130 is formed in an upper bottom surface, A projecting portion 135 is formed on the outer side of the lower surface and a protrusion 150 protruding downward in the middle is formed on the outer surface of the protrusion 135, A culvert main body 100 formed with a curved surface; A sheath tube (200) buried in the longitudinal direction of the cave portion (140) of the cave body (100); A tension member 300 embedded in the sheath tube 200; A panel 410 made of concrete having a rectangular shape and having a predetermined thickness and a width and into which a protrusion 150 of the culvert main body 100 is inserted; A grout injection port 430 and an exhaust port 432 formed at both sides of the panel 410 at regular intervals and formed on the upper surface of the panel 410; And a bottom plate 400 composed of an insertion port 440 formed in a narrow shape.

That is, the functional precast concrete channel culvert W according to the present invention is composed of the culvert main body 100, the sheath pipe 200, the tension member 300, and the bottom plate 400.

The culvert main body 100 is formed in a hexahedron shape and has a through hole 110 passing through in a pentagonal shape in the longitudinal direction. The opening 120 is formed in an upper portion of the through hole 110. An arcuate load A protruding portion 135 is formed on the outer side of the upper side of each of the upper and lower sides and a protrusion 140 is formed in a triangular shape on the lower corner of the protrusion 150, .

Particularly, the opening 120 allows the flow of water and surface water into the functional precast concrete water channel culvert W so that the inflow water flows to a certain place.

The load reinforcing part 130 is formed in an arch shape by increasing the weight of the upper part of the functional precast concrete water channel culvert W so as to maximize the response force to the load at the upper part when the airplane or the heavy equipment vehicle travels .

The protruding jaw 135 is formed, and the connecting slab is connected to the protruding jaw 135.

The protrusion 150 is protruded to be coupled to the insertion groove 420 of the bottom plate 400 installed at the bottom.

The sheath tube 200; A tension member 300 embedded in the sheath pipe 200 is installed to facilitate connection of the functional precast concrete water channel culvert W in the longitudinal direction.

The bottom plate 400 includes a panel 410 made of a rectangular concrete having a predetermined thickness and width and an insertion groove 420 formed in the center of the panel 410 so as to be formed into a cross- A grout injection port 430 and an exhaust port 432 formed at both sides of the panel 410 with a predetermined gap therebetween at a predetermined interval and an inlet port 432 formed in a predetermined position of the panel 410, 440).

That is, the bottom plate 400 is a member formed by organically coupling the panel 410, the insertion groove 420, the grout injection port 430, the exhaust port 432, and the insertion port 440.

Here, the panel 410 is a member made of a concrete having a rectangular shape having a predetermined thickness and width.

In addition, the insertion groove 420 is formed in the center of the panel 410 so as to be formed into a sectional shape having a narrow cross-sectional shape, and the protrusion 150 of the cave body 100 is inserted.

The grout injection port 430 serves as an injection port for filling the mortar with the panel 410. The exhaust port 432 is used to confirm whether the mortar injected through the grout injection port 430 is properly filled, And discharges air during charging.

At both ends of the bottom plate 400, coupling grooves 450 recessed and recessed are formed, and coupling holes 460 having a predetermined diameter are formed in the coupling grooves 450, The bottom plate 400 is engaged by inserting the sucker 470 into the coupling groove 450 and the coupling hole 460. [

23, the height adjusting device 500 is installed on the insertion port 155 of the culvert 100 and the insertion port 440 of the bottom plate 400, A support plate 520 projecting horizontally on the outer circumferential surface of the first nut 510 and a support plate 520 disposed on the lower surface of the first nut 510. The first nut 510 is inserted into the insertion ports 155 and 440, A second nut 550 screwed to a lower portion of the tongue bolt 540 and a second nut 550 screwed to the lower portion of the tongue bolt 540; And a bolt 570 screwed to the first nut 510. The bolt 570 is inserted into the bolt 570,

That is, the height adjusting device 500 is installed as one set in which the thrust bearings 530 are individually manufactured and installed, or the cover is provided on the outside.

In particular, the thrust bearing 530 includes a bolt 570 and a first and second nuts 510 and 550 (see FIG. 5) including weight attenuation by the sliding function of the weight when the height of the culvert 100 or the bottom plate 400 is adjusted. So that the cantilever 100 or the bottom plate 400 of the second nut 550 can be linked to the function of vertical lifting (lifting).

24, a height adjusting device 700 is installed at the insertion opening 155 of the culvert 100 and the insertion opening 440 of the bottom plate. The height adjusting device 700 includes a height adjusting device 700, A first nut 710 inserted into the first nut 710 and a second nut 720 inserted into the first nut 710 and a second nut 710 inserted into the first nut 710, And a bolt 750 screwed to the inner diameter bearing puller 730. The inner diameter of the inner diameter bearing puller 730 is smaller than that of the outer diameter of the inner diameter bearing puller 730, .

That is, the height adjusting device 700 has a structure in which the inner diameter bearing puller 730 is coupled with the bolts 750 and the nuts 760, and the nut 760 coupled with the inner diameter bearing puller 730 is in the longitudinal direction When the bolt 750 engaged with one side of the unparted nut 760 is locked, the bolt 750 protrudes out of the nut 760 as the split nut 760 is opened.

25, the height adjusting device 500 is installed on the insertion port 155 of the culvert 100 and the insertion port 440 of the bottom plate 400, A support plate 520 protruding horizontally on the outer circumferential surface of the first nut 510 and a second plate 510 protruding from the lower surface of the first nut 510. The first nut 510 is inserted into the insertion holes 155 and 440, A second nut 550 screwed to the lower portion of the tongue bolt 540; a section steel 560 disposed at a lower portion of the second nut 550; 1 bolts 570 screwed to the nuts 510. As shown in Fig.

26, the height adjusting device 800 is installed on the insertion port 155 of the culvert 100 and the insertion port 440 of the bottom plate, and the height adjusting device 800 is provided with the insertion port 155 A support plate 820 horizontally protruding from the outer circumferential surface of the first nut 810 and an eye bolt 830 screwed to the first nut 810. The first nut 810 is inserted into the first nut 810, ).

That is, the height adjusting device 800 can adjust the flatness of the culvert 100 or the bottom plate 400 by installing a bearing puller on the eyebolts 830 at the upper part.

Hereinafter, the production of the precast concrete precast concrete channel culvert according to the present invention having the above-described structure will be described.

A method of manufacturing a precast concrete water channel culvert according to the present invention comprises the steps of: placing a reinforcing bar on a formwork, casting and curing concrete on the formwork to produce a culvert main body 100 and a bottom plate 400, 700 and 800 are installed at predetermined positions on the lower surface of the culvert main body 100. The height adjusting devices 500, 700, 800 are installed at predetermined positions on the lower surface of the culvert main body 100, The bottom plate 400 is formed with a load reinforcing part 130 corresponding to an external load and a protruding step 135 formed on the outer side of both upper sides of the bottom plate 400, The insertion grooves 420 are formed so as to correspond to the protrusions 150 of the bottom plate 400 and the coupling grooves 450 are formed at both ends of the bottom plate 400 to connect the bottom plates 400.

In the method of manufacturing the culvert 100, the culvert 100 is installed longitudinally and laterally in a main passage such as a road or an airport through which a vehicle is directly traveling, The inside is asymmetrical structure, and it has the ability to cope with the passing load of airplane and heavy vehicles, and it also ensures the function of pass and waterway including road function.

The protrusions 150 are formed at the center of the lower surface of the culvert 100 so that the protrusions 150 are inserted into the insertion grooves 420 of the bottom plate 400 Therefore, the functional precast concrete water channel culvert (W) is used without being fastened to each other.

The height of the functional precast concrete water channel culvert W is controlled by the height adjusting devices 500, 700, and 800, and the height adjustment is performed by the height adjusting devices 500 and 700 800, and the height adjusting apparatuses 500, 700, 800 are installed at four locations in the interior of the cowl body 100.

Meanwhile, the functional precast concrete water channel culvert W according to the present invention is characterized in that it is connected and used against each other without being tightened in the longitudinal direction, and it is required to be fastened between the functional precast concrete water channel culver W And the fastening position is formed so as to have fastening grooves and fastening holes arranged in the upper and lower halves at eight positions in the culvert main body 100, The fastening grooves and fasteners disposed inside the housing 100 have a maintenance function capable of being assembled and fastened when peripheral settlement and displacement occur.

Also, the functional precast concrete water channel culvert (W) according to the present invention is manufactured by providing grout injection port and exhaust port for injecting mortar into the bottom of the culvert main body 100.

In the functional precast concrete channel culvert (W) according to the present invention, the upper surface of the culvert main body (100) is made horizontal so as to smooth the inflow of surface water and storm, It can be fabricated with a 1 to 4% downward slope from the edge to the center (stormwater inlet).

The protrusions 150 are formed at the center of the lower surface of the culvert 100 so that the protrusions 150 are inserted into the insertion grooves 420 of the bottom plate 400.

In order to maximize the response force against the loads of the airplane and heavy vehicles, the culvert main body 100 has a structure in which a load reinforcing portion 130 is formed as a vertically asymmetric structure of an arcuate shape, 135 are formed.

In addition, in the case of an airfield, an opening 120 is formed to perform a function of draining rainwater (rainwater), thereby smoothly discharging the rainwater and surface water generated on the upper surface of the cave body 100.

The bottom plate 400 of the functional precast concrete water channel culvert W according to the present invention is made slightly larger than the lateral width of the culvert main body 100 so that the culvert main body 100 installed on the upper part is coupled And the connection between the bottom plate 400 and the bottom plate 400 is formed by vertically inserting the hydrofoil 470 into the coupling groove 450 and the coupling hole 460. [

The height adjustment devices 500, 700, and 800 are installed in the bottom plate 400 to adjust the height of the bottom plate 400. The height adjustment devices 500, 700, In place.

The connection between the bottom plate 400 and the bottom plate 400 is a vertically inserted structure of a metal reinforcement rod 470. The bottom plate 400 is provided with a coupling groove 450 and a coupling hole 460 at four positions, .

The insertion groove 420 is formed at the center of the bottom plate 400 so as to be connected to the protrusion 150 of the cage body 100.

This serves to bind the culvert main body 100 and the bottom plate 400 to each other.

An exponent P is attached to the upper surfaces of both longitudinal ends of the bottom plate 400 between the culvert main body 100 and the bottom plate 400 to prevent the mortar from leaking upon grouting after the culvert main body 100 is installed.

The bottom plate 400 is formed of a cement mortar, a self-healing mortar, a resin mortar, and a mortar in a vertical space between the bottom plate 400 and the culvert main body 100 generated by the height adjusting devices 500, 700, A grout injection port 430 and an exhaust port 432 are vertically installed on the inner side of the bottom plate 400 to fill the mortar.

Particularly, the function of the bottom plate 400 is such that the load applied to the lower part when the height of the culvert 100 installed on the upper surface is adjusted and the load applied to the culvert main body 100 exposed to the outside, So as to have a response force.

Hereinafter, construction of precast concrete channel cullet according to the present invention having the above-described structure and manufacturing will be described.

FIG. 8 is a process diagram showing the construction procedure of the first embodiment of the functional precast concrete watercourse according to the present invention.

As shown in this drawing, the method for constructing a precast concrete precast concrete water channel (W) according to the present invention includes a trenching step (T) for excavating a target ground (G) to a certain depth and width; Disposing rubble and sand (S) on the ter- minator (T) portion; Compiling the rubble and sand (S); The bottom plate 400 of the functional precast concrete water channel culvert W is installed on the compaction rubble and sand S and the height adjustment devices 500, 700, 800 of the bottom plate 400 are used Adjusting a height and a horizontal degree; Installing an index agent (P) at a predetermined position on an upper surface of the bottom plate (400); Installing a functional precast concrete channel culvert (W) by inserting a protrusion (150) of a culvert main body (100) into an insertion slot (420) of a bottom plate (400) provided with the indexing agent (P); Grouting a predetermined position of the functional precast concrete water channel culvert (W) into a mortar; (R) between the ter- minator (T) and the functional precast concrete water channel culvert (W); And packaging (A) the top surface of the backfill (R).

That is, in the method of constructing the functional precast concrete water channel culvert (W) according to the present invention, the target ground G is excavated with a predetermined depth and width, and a lumber and sand (S) The height and the horizontality of the bottom plate 400 are adjusted by using the height adjusting apparatuses 500, 700 and 800 and then the index plate 400 is placed at a predetermined position on the upper surface of the bottom plate 400 The protrusions 150 of the main body 100 are inserted into the insertion grooves 420 of the bottom plate 400 and then joined together and then grouted with mortar and back-packed (R) (A), and open the traffic.

Therefore, the functional precast concrete channel culvert construction method according to the present invention comprises installing a functional precast concrete water channel culvert (W) so as to excavate the ground to a certain depth and to be exposed to the ground without topple, The upper part of the concrete waterway culvert (W) is used as a road for passage of an airplane or a heavy-duty vehicle, and incidentally, there is an operation effect that the inflow water flows into a certain place by inflow of rainwater and surface water incidentally.

[Functional Precast Concrete Waterway Culvert, Pick-up, Drop-off, Drop-off]

Fig. 27 is an illustrative view 1 showing an external insertion type of a field pre-cast concrete channel culvert according to the present invention.

As shown in this figure, the functional precast concrete water channel culvert according to the present invention is externally inserted into the culvert 910 for the field, car, And mounting.

FIG. 28 is an exemplary view 1 showing an inner insertion type of a field pre-cast concrete water channel culvert according to the present invention.

As shown in this drawing, a functional precast concrete water channel culvert is manufactured by casting and curing concrete in a state in which a lifting ring 920 is placed in a mold in advance in the production of functional precast concrete water channel culvert.

The lifting hooks 920 are arranged in a manner that the supporting plate 930 is vertically installed at the lower part and the eye bar 940 is welded vertically so as to be embedded in the upper surface of the functional precast concrete water channel culvert, Etc., can be easily utilized by using the lifting ring 920, such as a nightfall of the cage, a car, a getting off, a mounting, and the like.

FIG. 29 is an exemplary view 2 showing an external insertion type of a field pre-cast concrete channel culvert according to the present invention.

As shown in this figure, the functional precast concrete water channel culvert according to the present invention is externally inserted into the culvert 910 for the field, car, And mounting.

FIG. 30 is an exemplary view 2 showing an inner insertion type of a field pre-cast concrete water channel culvert according to the present invention.

As shown in this drawing, a functional precast concrete water channel culvert is manufactured by casting and curing concrete in a state in which a lifting ring 920 is placed in a mold in advance in the production of functional precast concrete water channel culvert.

The lifting hooks 920 are arranged in a manner that the supporting plate 930 is vertically installed at the lower part and the eye bar 940 is welded vertically so as to be embedded in the upper surface of the functional precast concrete water channel culvert, Etc., can be easily utilized by using the lifting ring 920, such as a nightfall of the cage, a car, a getting off, a mounting, and the like.

The preferred embodiments described in the specification of the present invention are intended to be illustrative, not limiting, and the scope of the present invention is indicated by the appended claims, and all modifications that come within the meaning of the claims are included in the present invention. .

100: culvert main body 110: through hole
120: opening part 130: load reinforcing part
135: protruding jaw 140:
150: protrusion 155:
160: Flyer key groove 170:
180: auxiliary shear key groove 185: water expandable index agent
190: Caulking material 200: Sheath tube
300: tensile material 400: bottom plate
410: panel 420: insertion groove
430: grout inlet 432: exhaust port
440: insertion port 450: coupling groove
460: Combination ball 470: Bathing
500: height adjustment device 510: first nut
520: Support plate 530: Thrust bearing
540: tongue bolt 550: second nut
560: section steel 570: bolt
700: height adjuster 710: first nut
720: Support plate 730: Inner diameter bearing puller
740: section steel 750: bolts
800: height adjustment device 810: first nut
820: Support plate 830: Eyebolt
910: Lifting ring 920: Lifting ring
A: Packing G: Ground
P: exponent R: backfire
S: Sand T: Tractor
W: Functional precast concrete waterway culvert

Claims (11)

In a precast concrete channel culvert, in which at least two water channel culverts are connected in the longitudinal direction,
The precast concrete water channel culvert W is formed in a hexahedron shape and has a through hole 110 passing through in the longitudinal direction thereof. An opening 120 is formed in an upper portion of the through hole 110. An arcuate load- And a protrusion 150 protruding downward from the center of the outer surface of the protrusion 150. The protrusion 150 protrudes downward from the outer surface of the protrusion 150, A main body 100; A shear key groove (160) formed on an outer side of the culvert main body (100) so as to be formed in a predetermined shape at an upper portion thereof; A shear key 170 protruding in a predetermined shape on the other side of the outer side of the culvert main body 100 corresponding to one end of the shear key groove 160; A sheath tube (200) buried in the longitudinal direction of the cave portion (140) of the cave body (100); A tension member 300 embedded in the sheath tube 200; A panel 410 made of concrete having a rectangular shape and having a predetermined thickness and a width and into which a protrusion 150 of the culvert main body 100 is inserted; A grout injection port 430 and an exhaust port 432 formed at both sides of the panel 410 at regular intervals and formed on the upper surface of the panel 410; A bottom plate 400 having an insertion port 440 formed in a narrow shape; A height adjusting device 500 is installed on the insertion port 155 of the culvert 100 and the insertion port 440 of the bottom plate and the height adjusting device 500 includes a first nut A thrust bearing 530 disposed on the lower surface of the first nut 510 and a thrust bearing 530 disposed on the lower surface of the thrust bearing 530, A second nut 550 screwed to the lower portion of the tongue bolt 540 and a section 560 disposed at a lower portion of the second nut 550; And a bolt (570) screwed to the first nut (510). In a precast concrete channel culvert, in which at least two water channel culverts are connected in the longitudinal direction,
The precast concrete water channel culvert W is formed in a hexahedron shape and has a through hole 110 passing through in the longitudinal direction thereof. An opening 120 is formed in an upper portion of the through hole 110. An arcuate load- A protrusion 150 is formed on the lower corner and a protrusion 150 protruded downward from the outer surface of the protrusion 150. The protrusion 150 protrudes downward, A culvert main body 100 having an insertion opening 155 at a predetermined inside position; A shear key groove (160) formed on an outer side of the culvert main body (100) so as to be formed in a predetermined shape at an upper portion thereof; A shear key 170 protruding in a predetermined shape on the other side of the outer side of the culvert main body 100 corresponding to one end of the shear key groove 160; A sheath tube (200) buried in the longitudinal direction of the cave portion (140) of the cave body (100); A tension member 300 embedded in the sheath tube 200; A panel 410 made of concrete having a rectangular shape and having a predetermined thickness and a width and into which a protrusion 150 of the culvert main body 100 is inserted; A grout injection port 430 and an exhaust port 432 formed at both sides of the panel 410 at regular intervals and formed on the upper surface of the panel 410; A bottom plate 400 having an insertion port 440 formed in a narrow shape; A height adjusting device 500 is installed on the insertion port 155 of the culvert 100 and the insertion port 440 of the bottom plate and the height adjusting device 500 includes a first nut A thrust bearing 530 disposed on the lower surface of the first nut 510 and a thrust bearing 530 disposed on the lower surface of the thrust bearing 530, A second nut 550 screwed to the lower portion of the tongue bolt 540 and a section 560 disposed at a lower portion of the second nut 550; And a bolt (570) screwed to the first nut (510). delete 3. The method according to claim 1 or 2,
The auxiliary pusher key groove 180 is formed on both sides of the front end key groove 160 in a predetermined shape. The auxiliary pusher key groove 180 is provided with a water expanding index agent 185, and the water expanding index agent 185 And a caulking material (190) is installed on the upper surface of the concrete pre-cast concrete channel culvert. 3. The method according to claim 1 or 2,
Wherein the bottom plate (400) is formed with an engaging groove recessed at both ends thereof, and a coupling hole having a predetermined diameter is formed in the engaging groove. delete 3. The method according to claim 1 or 2,
A height adjusting device 500 is installed in the insertion opening 155 of the culvert main body 100 and the insertion opening 440 of the bottom plate and the height adjusting device 500 includes a first nut A support plate 520 projecting horizontally on the outer circumferential surface of the first nut 510 and a tongue bolt 540 closely attached to the lower surface of the first nut 510. The tongue bolt 540 And a bolt 570 screwed to the first nut 510. The bolt 570 is screwed to the first nut 510. The second nut 550 is screwed to the lower portion of the first nut 550, A precast concrete precast concrete channel culvert. 3. The method according to claim 1 or 2,
A height adjusting device 700 is installed on the insertion port 155 of the culvert main body 100 and the insertion port 440 of the bottom plate. The height adjusting device 700 includes a first nut And an inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter of the inner diameter, And a bolt (750) screwed to the inner diameter bearing puller (730). The bolt (750) according to claim 1, wherein the bolt (750) culvert. 3. The method according to claim 1 or 2,
A height adjusting device 800 is installed on the insertion port 155 of the culvert 100 and the insertion port 440 of the bottom plate and the height adjusting device 800 includes a first nut A support plate 820 horizontally protruding from the outer circumferential surface of the first nut 810 and an eye bolt 830 screwed to the first nut 810. [ Concrete canal culvert. delete delete

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