CORRUGATED STEEL PLATE TUNNEL
The present invention refers to construction method relates to search, wavy steel tunnel provided are disclosed. Process for producing construction structure compared to the concrete, which has a small weight construction which is excellent in air, costs and reduces the necessary, its application etc. than the aluminum. 1 To 3 and the part of the tunnel wavy steel of the existing method is also disclosed. Wavy steel the tunnel is of the existing method, to form a wave shape sectional structure along the front-rear direction, formed wavy steel arch structure (10) and, its wavy steel (10) is supported both ends of a wall (20) consists of by. The ends, of the existing method such wavy steel the tunnel is, wavy steel (10) and water down to other wavy steel (10) the structure (20) over that number be implemented by flowing out into the door inner joint of the document. In order to solve the present invention refers to said door such as number point as aligned, prestressed wave down signal in water with wave shape grater be implemented by being interposed between the upper joint of wall over inwardly to prevent wavy steel material and intended for a tunnel in number. And then the number, so as to form wave shape sectional structure along the present invention refers to the front-rear direction, formed wavy steel arch structure (400); said wavy steel (400) to a part of both ends of, number 1 side (110), number 2 side (120), a bottom (130) having opened upper "portions" of channel-shaped cross section (100); said channel (100) a lower wall (200); and, said wall (200) is, said channel (100) of the bottom plate (130) a three-dimensional surface bonded sample wall body (210); said sample wall body (210) in the upper inside upper projecting longitudinal direction at the upper side, said channel (100) side of number 2 (120) coupled to the outer projecting wall (220); characterized in including a wavy steel number decodes the tunnel. Side said number 1 (110) is said wavy steel (400) preferably for engagement with a coupling holes are formed. Said channel (100) is, sample wall body (210) so as to be embedded, said bottom plate (130) fix formed lower backing member (140); said sample wall body (210) with protruding in the upper inside wall protruding above (220) so as to be embedded, said number 2 side plates (120) projecting inward from the inside of the reinforcing member (150); including a preferably. Said wavy steel (400) is, two protrusions (11) on three of depressions (12) with, across said depression (12) a pair is formed, constant wavelength (a1) and amplitude (b1) formed to have a small wavy steel (410); two protrusions (21) on three of depressions (22) with, across said depressions (22) a pair is formed, constant wavelength (a2) and amplitude (b2) formed on the upper side, said wavelength (a2) and amplitude (b2) the small wavy steel (410) wavelength (a1) and amplitude (b1) formed larger than the large wavy steel (420); and, said channel (100) is, said small wavy steel (410) of said large wavy steel piece (420) are formed by combining (a) of said connection portion is a wavy steel connection channel is embedded and held to the screw (100a); including a preferably. Said wavy steel connection channel (100a) is, said small wavy steel (410) adapted to fit inserted, said number 1 side (110) and number 2 side plates (120) dielectric layer spacing between small wavy steel insert (101); said large wavy steel (420) adapted to fit inserted, said number 1 side (110) and number 2 side plates (120) the spacing between said small wavy steel insert (101) wider than large wavy steel insert (102); including a preferably. Said number 2 side plates (120) are formed as linear support, said number 1 side (110) separated from each other when support is preferably communication device. Side said number 1 (110) is, said small wavy steel insert (101) to form, said number 2 side (120) and a small impact number 1 intervals side (111); said large wavy steel insert (102) to form, said small impact number 1 side (111) of side than said number 2 (120) installed in the outer side a distance greater and it arrived on time impact number 1 (112); said small impact number 1 side plates (111) and it arrived on time impact number 1 side plates (112) coupled between connection side of number 1 (113); including a preferably. Said bottom plate (130) is said number 1 side (110) and number 2 side plates (120) corresponding to the position of the preferred shape. Said small impact number 1 side plates (111) is said small wavy steel (410) for engagement with a coupling hole (103) is formed, said side it arrived on time impact number 1 (112) is said large wavy steel (420) for engagement with a coupling hole (104) preferably is formed. Said channel (100) is, (a) said connection forming said small wavy steel (410) that bind to other small steel sheet (10a) to a part of, said wavy steel connection channel (100a) small wavy steel insert (101) side by fixing, said wall (200) for supporting small steel sheet joined to the top of channel (100b); (a) said connection forming said large wavy steel (420) that bind to other large wavy steel (420a) to a part of, said wavy steel connection channel (100a) large wavy steel insert (102) side by fixing, said wall (200) for supporting large wavy steel joined to the top of channel (100c); preferably further including. A plurality of said small wavy steel (410) and a plurality of said large wavy steel (420) in which (a) is formed by combining a plurality of said connection, said connection (a) are each provided with a plurality of said plurality of wavy steel connection channel (100a) which will bind to the is flowed, a plurality of said wavy steel connection channel (100a) one of the wavy steel connection channel (100a) small wavy steel insert (101) on, another one side of one side of the wavy steel connection channel (100a) small wavy steel insert (101) is bonded to, a plurality of said wavy steel connection channel (100a) one of the wavy steel connection channel (100a) large wavy steel insert (102) on, another other side the other wavy steel connection channel (100a) large wavy steel insert (102) combination is preferred. Said channel (100) is, on the central portion of said large wavy steel insert (102) is formed, said large wavy steel insert (102) on opposite sides of said small wavy steel insert (101) characterized number 2 are formed wavy steel connection channel (100d); and, a plurality of said small wavy steel (10) and a plurality of said large wavy steel (20) in which said connection is formed (a) a plurality of coupled, a plurality of said wavy steel connection channel (100c) which will bind to the continuously therewith, said wavy steel connection channel (100c) of said large wavy steel insert (102) to said large wavy steel (20) is installed, said number 2 wavy steel connection channel (100d) of said small wavy steel insert (101) and an adjacent another said number 2 corresponding to the wavy steel connection channel (100d) of said small wavy steel insert (101) by a combination of the small wavy steel said formed in a region (10) preferably recessed. The present invention refers to a joint of the wall with wave shape grater signal in prestressed wave water down to the display to prevent inner be implemented by over 2000. 1 To 3 of the existing method is also part of the tunnel wavy steel. 4 Hereinafter also relates to a method of the present invention in the embodiment is provided, Number 1 in the embodiment of Figure 4 shows a wavy steel tunnel also sensors mounted thereon. Also channel number 1 in the embodiment of Figure 5 shows a sensors mounted thereon. Figure 6 shows a cross-section also channel number 1 in the embodiment. Figure 7 shows a cross-section small size wave shape grater. Figure 8 shows a cross-section also large wave shape grater. Figure 9 shows a cross-section of plate assembly structures also. Figure 10 shows a cross-section of tunnel also wavy steel number 2 in the embodiment. Number 1 in the embodiment of Figure 11 shows a wavy steel connection channel also sensors mounted thereon. Figure 12 shows a wavy steel connection also plane of channel number 1 in the embodiment. Figure 13 shows a wavy steel connection channel number 2 in the embodiment of also sensors mounted thereon. Figure 14 shows a plane of connection also wavy steel channel number 2 in the embodiment. Figure 15 shows a cross section in a wave shape grater also wavy steel connection channel. Figure 16 shows a cross section of connection channel also wavy steel small wavy steel insert. Figure 17 shows a large wavy steel insert also wavy steel connection channel cross-section. Also number 3 in the embodiment of Figure 18 shows a wavy steel tunnel sensors mounted thereon. Also number 4 in the embodiment of Figure 19 shows a wavy steel tunnel sensors mounted thereon. Number 5 in the embodiment of Figure 20 shows a wavy steel tunnel also sensors mounted thereon. Number 6 in the embodiment of Figure 21 shows a wavy steel tunnel also sensors mounted thereon. Also 22, 23 a wavy steel tunnel perspective view of number 7 in the embodiment. Hereinafter, with reference to the accompanying drawing of the present invention in the embodiment detailed with respect to each other. As shown in fig. 4 hereinafter, the present invention basically by wavy steel tunnel, so as to form wave shape sectional structure along the front-rear direction, formed wavy steel arch structure (400); wavy steel (400) to a part of both ends of, number 1 side (110), number 2 side (120), a bottom (130) having opened upper "portions" of channel-shaped cross section (100); channel (100) a lower wall (200); consists of including. Wall (200) is, channel (100) of the bottom plate (130) a three-dimensional surface bonded sample wall body (210); sample wall body (210) between an upper surface projecting longitudinal direction as well as in the upper inside, channel (100) side of number 2 (120) coupled to the outer projecting wall (220); consists of including. I.e., wavy steel (400) the lower end of the channel (100) in the self-bonded inside projecting wall (220) is positioned to supply, projecting wall (220) a top wavy steel (400) located at a higher elevation above the lower end so that are disclosed. The wavy steel (400) and the upper part of column down to other projecting wall (220) without flowing out into the inner tunnel due to, channel (100) flow out the drain at the front or rear to other stable to it the exhaust flow tides. Channel (100) and wavy steel (400) being assembled by the installation which, projecting wall (220) side facing the number 2 (120) coupling the outputs, vice versa it is a side number 1 side (110) to wavy steel (400) preferably for engagement with the coupling hole. Channel (100) is, sample wall body (210) so as to be embedded, the bottom plate (130) such as fix formed stud lower backing member (140); sample wall body (210) with protruding in the upper inside wall protruding above (220) so as to be embedded, number 2 side plates (120) for noise protruded inward from any of the inner reinforcing member (150); including a preferably rigid engagement with the lock wall. Hereinafter, different sizes of wavy steel 2 (400) in the embodiment applying in the event of a function of each other. In this case wavy steel (400) is, two protrusions (11) on three of depressions (12) having, across the depressions (12) a pair is formed, constant wavelength (a1) and amplitude (b1) formed to have a small wavy steel (410); two protrusions (21) on three of depressions (22) with, across said depressions (22) a pair is formed, constant wavelength (a2) and amplitude (b2) formed on the upper side, said wavelength (a2) and amplitude (b2) is small wavy steel (410) wavelength (a1) and amplitude (b1) formed larger than the large wavy steel (420); consists of including (7 to 10 also). I.e., two protrusions (11) on three of depressions (12) having, across the depressions (12) a pair is formed, constant wavelength (a1) and amplitude (b1) formed to have a small wavy steel (410) in addition to, on large wavy steel (420) (both engaging each other interconnected) combination forming a wavy steel reinforced structure are disclosed. At that wavelength and amplitude wave shape grater strength proportional to three, small wavy steel (410) wavelength (a1) and amplitude (b1) is large relative to the wavelength (a2) and amplitude (b2) having large wavy steel (420) should be made small wavy steel (410) is large relative to the strength of a strength. The small wavy steel (410) or large wavy steel (420) in addition small wavy steel combination of structure (410) is composed only a strength to be coated is large relative to the structure. The ends of channel-shaped cross section general "certain" small wavy steel (410) or large wavy steel (420) connection (a) compresses, long plates interval amount large wavy steel (420) (large wavy steel if (420) is inserted therein) must be adapted to, in this case small wavy steel (410) as compared to the amplitude of large amount long plates interval, small wavy steel (410) the safety combination non-rotatably with each other. The in this case channel (100) is, small wavy steel (410) the connection of large wavy steel (420) is coupled to a joint of a connection element (a) is embedded and held to the screw wavy steel connection channel (100a); preferably comprising the (also 11 to 15). This interval amount side bearer different small wavy steel insert (101) and large wavy steel insert (102) is both formed wavy steel connection channel (100a) structure in a third number, by eliminating a number of the doors as above, small wavy steel (410) or large wavy steel (420) of assembly and wall (200) by a stable and is combined to the excellent facilities of the RP disclosed. Number 1 side (110) and number 2 side plates (120) communication device formed both support may also be used but, number 2 side plates (120) are formed as linear support, side number 1 (110) is formed to support a structural side communication device is preferred (also 11, 12). Along side when number 1 (110) which may be formed into the curved structure disapproval (also 13, 14). Specifically number 1 side (110) is, small wavy steel insert (101) to form, number 2 side (120) and a small impact number 1 intervals side (111); large wavy steel insert (102) to form, small impact number 1 side plates (111) than in side of number 2 (120) installed in the outer side a distance greater and it arrived on time impact number 1 (112); small impact number 1 side plates (111) and it arrived on time impact number 1 side plates (112) coupled between connection side of number 1 (113); preferably a including the above problems, The bottom plate (130) is number 1 side (110) and number 2 side plates (120) corresponding to the position of shape (small impact number 1 the depressed side portion shape) formed along the mirror number preferred. On the other hand, small wavy steel as above (410) or large wavy steel (420) in the case of combination of structure, small wavy steel (410) and amplitude of large wavy steel (b1) (420) based on the amplitude of the (b2) hereinafter, small wavy steel (410) of projections (11) on large wavy steel (420) of projections (21) are disposed side is constant and formed on the projecting conductivity, small wavy steel (410) of depressions (12) on large wavy steel (420) of depressions (22) are disposed side is formed [...]ㅅ[...] constant (9 also). The, tunnel in wavy steel beam, small wavy steel (410) of projections (11) on large wavy steel (420) of projections (21) is output (tunnel opposite side of the user, or to prevent a composed by embedded by) arranged in toward, small wavy steel (410) of depressions (12) on large wavy steel (420) of depressions (22) be arranged in such a way that the inner (the user tunnel) (perfectly at the fixed side be arranged in such a way that the inner projecting conductivity) the usability of take (e.g. other member such as further combining) for more preferably. To this end, bending of side support number 1 (110) and the outward, straight side of number 2 support (120) toward the inside, wavy steel connection channel (100a) preferably provided with a (also 18 to 21). In addition wall (200) is, wavy steel connection channel (100a) of the bottom plate (130) a three-dimensional surface bonded sample wall body (210); sample wall body (210) as well as in the upper inner protruding above, wavy steel connection channel (100a) side of number 2 (120) coupled to the outer projecting wall (220); including a lock which, as straight side of number 2 above-mentioned support (120) is directed toward the inside of the, projecting wall (220) can be formed into structure groups tranfectants disclosed. In this case, as above-mentioned wavy steel connection channel (100a) inside surface of projecting wall (220) to be moved between bolted work contacted with wave shape grater, connection channel (100) bolted through the exterior surface of the auxiliary substrate. The small impact number 1 side plates (111) small wavy steel (410) for engagement with a coupling hole (103) is formed, side it arrived on time impact number 1 (112) is large wavy steel (420) for engagement with a coupling hole (104) preferably is formed (11 also). A plurality of small wavy steel (410) is flowed bonded to, a plurality of large wavy steel (420) is flowed prior to combining structure number, small wavy steel (410) or large wavy steel (420) is performed on the connection (a), (a) small wavy steel connection form (410) that bind to other small steel sheet (10a) to a part of, wavy steel connection channel (100a) small wavy steel insert (101) by fixing the side, wall (200) for supporting small steel sheet joined to the top of channel (100b); connection forming (a) large wavy steel (420) that bind to other large wavy steel (20a) to a part of, wavy steel connection channel (100a) large wavy steel insert (102) by fixing the side, wall (200) for supporting large wavy steel joined to the top of channel (100c); the processings are preferably further including structure (18 also). In this case, small steel sheet for supporting channel (100b) small wavy steel amount of long plates interval (410) amplitude is equal to, for supporting large wavy steel channel (100c) large amount of long plates interval is wavy steel (420) amplitude and a are the same. A plurality of small wavy steel (410) and a plurality of large wavy steel (420) in which (a) is in the embodiment 2 is formed by combining a plurality of connecting if permits. First, moving one wavy steel insert (101) is formed, the other side of the large wavy steel insert (102) is formed wavy steel connection channel (100a) and it are disclosed. In this case, a plurality of connecting each of (a) a plurality of wavy steel connection channel (100a) which will bind to the is flowed, a plurality of wavy steel connection channel (100a) one of the wavy steel connection channel (100a) small wavy steel insert (101) on, another one side of one side of the wavy steel connection channel (100a) small wavy steel insert (101) is binding, a plurality of wavy steel connection channel (100a) one of the wavy steel connection channel (100a) large wavy steel insert (102) on, the other side on the other side another wavy steel connection channel (100a) large wavy steel insert (102) is coupled (also 20) can take a structure. Second, large wavy steel insert central portion (102) is formed, its large wavy steel insert (102) on both sides of the small wavy steel insert (101) is formed wavy steel connection channel number 2 (100d) and it are disclosed. In this case, a plurality of small wavy steel (410) and a plurality of large wavy steel (420) in which (a) is formed by combining a plurality of said connection, a plurality of number 2 wavy steel connection channel (100d) which will bind to the continuously therewith, number 2 wavy steel connection channel (100d) large wavy steel insert (102) large wavy steel (420) is installed, number 2 wavy steel connection channel (100d) small wavy steel insert (101) and an adjacent another said number 2 corresponding to the wavy steel connection channel (100d) small wavy steel insert (101) is formed by a combination of moving the wavy steel (410) can take (21 also) provided with such a structure. Or more of the present invention can be implemented by a part of a and the output of the preferred embodiment described, in the embodiment of the present invention don't interpreted as above defined in a known range be at the predetermined level, technical idea of the present invention described above technical idea of the present invention both root and together will that range. 11: Depressions 12: Projection 21: Depressions 22: Projection 100: Channel 100A: wavy steel connection channel 100B: small steel sheet for supporting channel 100C: large wavy steel for supporting channel 100D: number 2 wavy steel connection channel 101: Small wavy steel insert 102: Large wavy steel insert 103,104: Coupling hole 110: Side number 1 111: Small impact number 1 out 112: Side it arrived on time impact number 1 113: Side connected number 1 120: Side number 2 130: Bottom 140: Lower backing member 150: Inner reinforcing member 200: Wall 210: Sample wall body 220: Projecting wall 400: Wavy steel 410: Small wavy steel 420: Large wavy steel The present invention provides a corrugated steel plate tunnel comprising: a corrugated steel plate (400) formed in an arch structure to form a corrugated cross sectional structure in a front/rear direction; a staple shape cross section structured channel (100) including first and second side plates (110, 120), and a lower plate (130) to allow both ends of the corrugated plate (400) to be inserted and supported having an opened upper side; and a wall (200) coupled to a lower part of the channel (100). The wall (200) comprises: a main wall (210) wherein the lower plate (130) of the channel (100) is coupled to an upper surface; and a protruding wall (200) upwardly protruding from an inner upper surface of the main wall (210) in a longitudinal direction wherein the second side plate (120) of the channel (100) is coupled to an outer surface. Accordingly, water flowing along the corrugated steel plate is prevented from flowing inside the tunnel through a joint portion between the corrugated steel plate and the wall. COPYRIGHT KIPO 2017 Along the front-rear direction so as to form wave shape sectional structure, formed wavy steel arch structure (400); said wavy steel (400) to a part of both ends of, number 1 side (110), number 2 side (120), a bottom (130) having opened upper "portions" of channel-shaped cross section (100); said channel (100) a lower wall (200); and, said wall (200) is, said channel (100) of the bottom plate (130) a three-dimensional surface bonded sample wall body (210); said sample wall body (210) in the upper inside upper projecting longitudinal direction at the upper side, said channel (100) side of number 2 (120) coupled to the outer projecting wall (220); including a wavy steel characterized in the tunnel. According to Claim 1, side said number 1 (110) is said wavy steel (400) coupling holes are formed for engagement with a wavy steel characterized in that tunnel. According to Claim 1, said channel (100) is, sample wall body (210) so as to be embedded, said bottom plate (130) fix formed lower backing member (140); said sample wall body (210) with protruding in the upper inside wall protruding above (220) so as to be embedded, said number 2 side plates (120) projecting inward from the inside of the reinforcing member (150); including a wavy steel characterized in the tunnel. According to Claim 1, said wavy steel (400) is, two protrusions (11) on three of depressions (12) with, across said depression (12) a pair is formed, constant wavelength (a1) and amplitude (b1) formed to have a small wavy steel (410); two protrusions (21) on three of depressions (22) with, across said depressions (22) a pair is formed, constant wavelength (a2) and amplitude (b2) formed on the upper side, said wavelength (a2) and amplitude (b2) the small wavy steel (410) wavelength (a1) and amplitude (b1) formed larger than the large wavy steel (420); and, said channel (100) is, said small wavy steel (410) of said large wavy steel piece (420) are formed by combining (a) of said connection portion is a wavy steel connection channel is embedded and held to the screw (100a); characterized in that the wavy steel including a tunnel. According to Claim 4, said wavy steel connection channel (100a) is, said small wavy steel (410) adapted to fit inserted, said number 1 side (110) and number 2 side plates (120) dielectric layer spacing between small wavy steel insert (101); said large wavy steel (420) adapted to fit inserted, said number 1 side (110) and number 2 side plates (120) the spacing between said small wavy steel insert (101) wider than large wavy steel insert (102); characterized in that the wavy steel including a tunnel. According to Claim 5, said number 2 side plates (120) are formed as linear support, said number 1 side (110) communication device is separated from each other when support characterized by wavy steel tunnel. According to Claim 6, side said number 1 (110) is, said small wavy steel insert (101) to form, said number 2 side (120) and a small impact number 1 intervals side (111); said large wavy steel insert (102) to form, said small impact number 1 side (111) of side than said number 2 (120) installed in the outer side a distance greater and it arrived on time impact number 1 (112); said small impact number 1 side plates (111) and it arrived on time impact number 1 side plates (112) coupled between connection side of number 1 (113); characterized in that the wavy steel including a tunnel. According to Claim 7, said bottom plate (130) is said number 1 side (110) and number 2 side plates (120) is provided with a shape corresponding to the characterized position of wavy steel tunnel. According to Claim 7, said small impact number 1 side plates (111) is said small wavy steel (410) for engagement with a coupling hole (103) is formed, said side it arrived on time impact number 1 (112) is said large wavy steel (420) for engagement with a coupling hole (104) is provided with a wavy steel tunnel is characterized. According to Claim 7, said channel (100) is, (a) said connection forming said small wavy steel (410) that bind to other small steel sheet (10a) to a part of, said wavy steel connection channel (100a) small wavy steel insert (101) side by fixing, said wall (200) for supporting small steel sheet joined to the top of channel (100b); (a) said connection forming said large wavy steel (420) that bind to other large wavy steel (420a) to a part of, said wavy steel connection channel (100a) large wavy steel insert (102) side by fixing, said wall (200) for supporting large wavy steel joined to the top of channel (100c); characterized compared to including a wavy steel tunnel. According to Claim 7, a plurality of said small wavy steel (410) and a plurality of said large wavy steel (420) in which (a) is formed by combining a plurality of said connection, said connection (a) are each provided with a plurality of said plurality of wavy steel connection channel (100a) which will bind to the is flowed, a plurality of said wavy steel connection channel (100a) one of the wavy steel connection channel (100a) small wavy steel insert (101) on, another one side of one side of the wavy steel connection channel (100a) small wavy steel insert (101) is bonded to, a plurality of said wavy steel connection channel (100a) one of the wavy steel connection channel (100a) large wavy steel insert (102) on, another other side the other wavy steel connection channel (100a) large wavy steel insert (102) binding is characterized by wavy steel tunnel. According to Claim 7, said channel (100) is, on the central portion of said large wavy steel insert (102) is formed, said large wavy steel insert (102) on opposite sides of said small wavy steel insert (101) characterized number 2 are formed wavy steel connection channel (100d); and, a plurality of said small wavy steel (10) and a plurality of said large wavy steel (20) in which a plurality of said coupled connection (a) is formed, a plurality of said wavy steel connection channel (100c) which will bind to the continuously therewith, said wavy steel connection channel (100c) of said large wavy steel insert (102) to said large wavy steel (20) is installed, said number 2 wavy steel connection channel (100d) of said small wavy steel insert (101) and an adjacent another said number 2 corresponding to the wavy steel connection channel (100d) of said small wavy steel insert (101) by a combination of the small wavy steel said formed in a region (10) characterized by wavy steel recessed tunnel.
