KR100851330B1 - Compound construction material production of box culvert and that construction fabrication method - Google Patents

Abstract

A method of manufacturing and assembling a box culvert made of compound structural material is provided to facilitate transportation and assembly at a site by manufacturing upper, lower, and wall structures separately. A method of manufacturing and assembling a box culvert(28) made of compound structural material includes the steps of: manufacturing an A panel having a T-like tongue and a T-like groove at two side ends, and cross-shaped hollows(3) between the tongue and groove; manufacturing a B panel having T-like grooves at two side ends and cross-shaped hollows between the T-like grooves; and making the box culvert by assembling the A panels, the B panels, and connection posts(7) having T-like tongues and cross-shaped hollows. Two adjacent box culverts are assembled to each other by inserting connection bars in the cross-shaped hollows.

Description

Compound construction material production of box culvert and that construction fabrication method

      1 is a composite structural A.B-type panel and a square corner connecting column production and assembly diagram for the installation of a composite structural box culvert according to the present invention

      Figure 2 is a rectangular box culvert assembly using a composite structural member A.B-type panel and a connecting column for installing the composite structural box culvert according to the present invention

      Figure 3 is a box culvert three-dimensional view of the laminated structure of the composite structure box culvert according to the present invention after connecting the connection site to the composite structure

      Figure 4 is a box culvert three-dimensional view of the composite structural material box culvert according to the present invention laminated the composite structural material haunche on the inner rectangular corners

      5 is a detailed view of the composite structure well sperm-shaped connecting rod for connecting the composite structural box culvert according to the present invention

       Figure 6 is a three-dimensional view of the composite structural box culvert connection according to the present invention

      Figure 7 is a three-dimensional view of the composite structural material box culvert connection according to the present invention after laminating the internal connection portion to the composite structural material and injecting resin into the connection rod site resin injection hole from the outside

      Figure 8 is a detailed flow of the resin flow into the composite structure well sperm-shaped connecting rod hole after connecting the composite structural box culvert according to the present invention

      Figure 9 is a three-dimensional view of the composite structure box culvert connection portion outside the composite structure laminated according to the present invention

      Figure 10 is a three-dimensional view of the composite structure box culvert joint front laminated in the composite structure according to the present invention

      Figure 11 is a three-dimensional view after completing the installation of the composite structural box culvert assembly according to the present invention

     12 is a schematic diagram illustrating a process of manufacturing a composite structural panel having a plurality of cross-shaped hollow passages for the composite structural box culvert according to the present invention.

※ Explanation of code about main part of drawing ※

1. Tee-shaped protrusion 2. Tee-shaped groove

3. Cross hollow passage 4. A type panel

5. B type panel 6. Connecting column

7. Well sperm (#) connecting rod 9. Unsaturated polyester resin

10. Lamination with composite structure 11. Superstructure

12. Wall Structure 13. Substructure

14. Triangle Panel 15. Roving Fiber

16. Mat Fiber 17. Impregnation Tank

18.A type panel heating mold

19.B type panel heating mold

20. Connecting column heating mold

21. Well sperm type connecting rod heating mold

22. Drawing Machine 23. Cutting Machine

24. Molded products 25. Reticle plate

26. Resin injection hole

27. Resin Injector

28. Box Culvert

The present invention relates to a composite box box culvert construction method, and in particular to a composite construction box culvert divided into an upper structure, a wall structure, a lower structure, a construction method for the construction, and more specifically to improve the construction and completeness of the box culvert It is structurally safe against the construction method of box culvert and various external pressures. In case of large size, it is divided into upper structure, wall structure, and lower structure to be easily assembled and installed on site, and can be applied to various urban environments. It is to provide a construction method.

Various types of box culverts used in the field have been installed in concrete structure, composite structure (FRP + steel frame). As the concrete structure is corrosive, it does not become a semi-permanent structure and the heavy weight takes a long time to install, which causes trouble in traffic communication and exposure to groundwater, which makes it difficult to maintain. On the contrary, the composite structure (FRP + steel) is a factory product, which is a breakthrough method of eliminating various problems in the case of small and medium sized concrete boxes compared to concrete box culverts, but it has a difficult problem of carrying in large sized cases.

      The present invention has been made in order to solve the above problems of the prior art, by making a box culvert with a composite structural material (glass fiber + resin) panels, a composite structural connecting column, and a composite structural connecting rod and the like. The present invention is to provide a construction method of a composite box culvert that prevents external corrosion and prevents leakage, thereby increasing durability.

      Another object of the present invention is to manufacture a box culvert because the upper structure, the wall structure, the lower structure to manufacture separately because the box culvert is a large transport is possible and can be easily assembled, construction in the field.

The characteristics of the present invention for achieving this object, the heating mold by impregnating the roving and the mat into the impregnating tank by the glass fiber mounting machine to the production of the composite structural panel, the composite structural connecting column and the composite structural connecting rod impregnated with unsaturated polyester resin Pass through and draw in a drawer to produce a molded article.
Panels are made of A-type panels and B-type panels made of composite structural materials, and the connection between the panels is made by inserting the T-shaped protrusions of the A-type panels into the T-shaped grooves of the B-type panels to form the upper structure, the wall structure and the lower structure. After forming a panel with a square, the square box culvert is completed by fitting the T-shaped protrusion of the composite structural connecting column to the T-shaped groove of the A-type panel and the B-shaped panel at the square corner.

The method of connecting the composite structural box culvert joint is to insert the composite structural box culvert in the ground and connect it in the longitudinal direction. First, the thin composite structural panel is laid at the bottom of the connection area, and the box culvert is placed in the middle of the panel. Insert several well sperm-shaped connecting rods to the central position at regular intervals in the hollow passage and insert the other box culverts as a whole.
Sealing of voids around the surface of the cross-shaped hollow passageway in the thickness plane with the well sperm-shaped connecting rod is formed. First, a resin injection hole is formed around the well sperm-shaped connecting rod where the bottom of the box culvert is the connection part, and resin is injected into the resin injection hole. Resin is introduced into the space around the inside of the box culvert and the surface of the well sperm-shaped connecting rod to be sealed.
The inner part of the box culvert and the superstructure, wall structure, and substructure are laminated to the composite structure to form the same structure, and the resin injection hole is formed around the well sperm-shaped connecting rod at the outside of the wall structure of the box culvert , By injecting the resin into the resin injection hole to seal the space around the well sperm-shaped connecting rod and integrating the contact surfaces of the box culverts facing each other, thereby providing a strong, safe and constructable composite structural box culvert construction method. .

The present invention is a box culvert construction method for installing a composite structure box culvert, by using a composite structural material to manufacture and assemble a box culvert consisting of a superstructure, wall structure, substructure structure of the box culvert in any case Improved completeness and is structurally safe and large in size. The upper structure 11, wall structure 12, and lower structure 13 are separated from the factory and transported to the site for easy assembly and installation. Characterized in that the invention can be applied to a variety of environments.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

Embodiments of the present invention shown in Figures 1 to 3 is a B-shaped composite material, similar to the A-shaped panel 4 of the composite structure having a plurality of cross-shaped hollow passages (3) for the installation of a composite box box culvert It is a three-dimensional view of manufacturing the panel 5 and connecting the A-type panel 4 and the B-type panel 5 and connecting columns 6 made of a composite structural material.

The embodiment of the present invention shown in Figures 4 to 6 is a box culvert 28 is configured by combining the A-shaped panel () and the B-shaped panel () made of a composite structure and combined with the connecting column (6), The upper structure 11, the wall structure 12, and the lower structure 13 of the box culvert 28 are shown, and the state of inserting the well sperm-shaped connecting rod 7 after assembling the box culvert 28 is shown in three-dimensional view. .
An embodiment of the present invention shown in Figures 7 to 8 is a three-dimensional view of injecting the resin into the resin injection hole after connecting the composite structural box culvert joint.

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      9 to 11 is a composite structural box culvert three-dimensional view of the composite structural material box culvert connection part laminated 10 outside the composite structural material box culvert connection portion.

There are two types of panels for constituting the composite structural box culvert 28.
The A-shaped panel 4 made of a composite structure has a tee-shaped groove 2 at one side edge, a tee-shaped protrusion 1 at one side edge and several cross-shaped hollow passages 3 in the middle.
The B-shaped panel 5 made of a composite structure has a tee-shaped groove 2 at both edges and several cross-shaped hollow passages 3 in the middle.
The connecting column 6 of the composite structure has a tee-shaped protrusion 1 on two outer faces and a cross-shaped hollow passage 3 inside.
In addition, the composite structure well sperm (#) connecting rod 7 has a cross-shaped hollow passage membrane 25 is formed on both sides.
Such structures are impregnated with an unsaturated polyester resin (9) in an impregnating tank (17) with a roving fiber (15) and a mat fiber (16) to heat a composite structural A-type panel heating mold (18) and a composite structural B-type panel. Draw out with drawing machine 22 to pass through mold 19, composite structural connecting column heating mold 20, well sperm connecting rod heating mold 21 having a cross-shaped hollow passage, and then to cutter 23 to the required length. A molded article 24 such as a cut, a composite structural member A panel 4, a composite structural member B panel 5, a composite structural connecting column 6, and a composite structural member is manufactured.

When assembling the box culvert consisting of the upper structure 11, the wall structure 12, and the lower structure 13, the thickness faces of the A-type panel 4 and the B-type panel 5 correspond to each other to assemble and assemble. When the two AB-shaped panels (4) and (5) are erected, they are assembled from above so that the T-shaped grooves (2) of the B-type panel (5) fit into the tee-shaped protrusion (1) of the A-type panel (4). .

And inside the connection between the A-type panel 4 and the B-type panel 5. The outer surface is laminated (10) with a composite structural material, the AB-shaped panels (4) (5) to form a square so that the upper structure (11) and the wall structure (12) and the lower structure (13) and the connecting column (6) T-shaped protrusions 1) are fitted from above to engage the T-shaped grooves 2 of the AB-type panels 4 and 5 to form a rectangular box culvert 28.
The square box culvert structure inside the square corners with a composite structural triangular panel 14 is laminated (10) into a composite structure to form a haunch.
Composite structural box culvert 28 joint connection method can be installed by laying a thin composite structural panel on the bottom around the connection portion of the box culvert 28, this is not necessarily necessary, it is not necessary to lay the panel.
A box culvert (#) connecting rod with a composite structural double-sided cross hollow passage passage membrane 25 attached to the cross hollow passage 3 formed on the thickness of the rectangular box culvert 28 at a predetermined interval. Insert (7) to the connecting rod (7) center line and insert another box culvert as a whole (where the thickness of the box culvert is formed in the cross-shaped hollow passage (3) formed in the AB-type panel (4) (5) Means.)
The thickness of the box culvert (28) with the well sperm connecting rod (7) is sealed in the space around the surface inside the cross-shaped hollow passageway (3) method of the connection position where the well sperm connecting rod (7) is first connected to the bottom of the box culvert The resin injection hole 26 is formed around the resin injection hole 26, and the unsaturated polyester resin 9 is injected into the resin injection hole 26 to completely seal the space around the surface of the well sperm-shaped connecting rod 7.

Next, the connection portion of the inner superstructure 11 and the wall structure 12 and the lower structure 13 of the box culvert is laminated (10) in a composite structure to be an identical structure. Similarly, a resin injection hole 26 is formed in the connection portion between the wall structure 12 and the superstructure 11 from the outside, and the unsaturated polyester resin 9 is injected into the resin injection hole 26, thereby substantially A A space between the inside of the box culvert 28 and the well sperm connecting rod 7 formed by combining the mold panel 4 and the B panel 5 is completely sealed.

Finally, the box culvert outer wall structure 12 and the upper structure 11, the connecting portion is laminated (10) to the composite structure to complete the construction of the composite structure box culvert 28.

As described above, in the present invention, the panel for installing the composite structural box culvert is a semi-permanent structure because it is not corroded as a composite structural material, and is structurally safe and has a double-sided cross-walled composite structural material for connecting the superstructure, wall structure, and substructure. By applying the attached well sperm-shaped connecting rods, the composite box culvert joint connection can be easily assembled and connected as well as completely joined and constructed as a perfect structure.In the case of a large box culvert, the structure can be separated and transported. It is a construction method that can be assembled and installed in a short time on site.

Claims (1)

       The A-shaped panel 4 is made of a single composite structure having a plurality of cross-shaped hollow passages (3) in the thickness plane and formed at the ends of the cross-shaped projection (1) and the t-shaped groove (2),        A cross-shaped hollow passage 3 having the same shape as the A-shaped panel 4, but having a t-shaped groove 2 that can be fitted in correspondence with the T-shaped protrusion 1 of the A-shaped panel 4 in terms of thickness on both ends It is provided in the A-shaped panel (4) of the T-shaped projections (1) is inserted into a single B-shaped panel (5) to be combined to produce a combination,       A-shaped panel (4) as a composite structural connecting column (6) having a T-shaped protrusion (1) coupled along the T-shaped groove (2) of the A-type panel (4) and the B-type panel (5) And a rectangular box culvert 28 composed of an upper structure 11, a wall structure 12, and a lower structure 13 by assembling a cylindrical body by connecting the rectangular corner portions of the B-shaped panel 5, The mutual joint connection of the box culvert, A well-shaped sperm-shaped connecting rod 7 formed with a double-sided cross-shaped hollow portion passageway membrane 25 of a composite structure along the cross-shaped hollow portion passage 3 of the A-type panel 4 and the B-shaped panel 5 forming the thickness side of the box culvert. ) Is inserted into its central position, and the other box culverts corresponding to each other are inserted into the well sperm-shaped connecting rods 7 at the front part thereof, and then the box culverts are interconnected. A resin injection hole 26 is formed at the inner bottom of the box culvert 28 around the well sperm connecting rod 7, and the unsaturated injection of the molten state is injected into the resin injection hole 26 to face each other. It is constructed so that the thickness surface (panel surface) of the box culvert and the space around the surface of the well sperm connecting rod 7 are sealed by fusion by unsaturated polyester resin, In the outer wall structure 12 and the outer superstructure 11 constituting the box culvert 28, a resin injection hole 26 is formed around the well sperm connecting rod 7, and the resin injection hole 26 is formed. It is characterized in that the box culvert is constructed so that the space around the surface of the thickness surface (panel surface) and the well sperm connecting rod 7 facing each other by injecting the unsaturated polyester resin in the molten state is sealed by fusion by the unsaturated polyester resin. Composite structural box culvert construction method.

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