KR102457435B1 - Double corrugated steel pipe having an internal smooth pipe having corrosion resistance and seismic resistance structure and method for manufacturing the same - Google Patents

Abstract

The present invention provides a double corrugated steel pipe including an internal smooth pipe having corrosion resistance and a seismic resistance structure. The outer circumference of the double corrugated steel pipe (100) is formed as a spiral curve unit with an external steel plate (10, 11) bent in a wavy form. The inner circumference of the double corrugated steel pipe (100) is formed as an inner flat unit with an internal steel pipe (20, 21) spirally wound and forming the flat inside of a pipe body. So, the double corrugated steel pipe (100) has an even surface on the inner side by including a lock seam connection unit (30) bending, binding, and connecting an end of right and left sides laminated. The internal steel plate is formed as a stainless steel plate so that the corrosion resistance of an inner flat pipe (200) comprising the inner flat unit is improved. The double corrugated steel pipe including the internal smooth pipe having the corrosion resistance and the seismic resistance structure includes: an inner flat pipe lock seam connection unit (210) connected by laser welding so that the pipe is not damaged due to an inner pressure change of the inner flat pipe (200), an earthquake, or ground subsidence; and an extension unit (230) comprising a concave groove so that the inner flat pipe (200) can be extended.

Description

Double corrugated steel pipe having an internal smooth pipe having corrosion resistance and seismic resistance structure and method for manufacturing the same }

The present invention relates to a double corrugated steel pipe having an internal smooth pipe having corrosion resistance and seismic resistance structure and a method for manufacturing the same, and more particularly, to increase corrosion resistance by changing an internal smooth pipe constituting a smooth inside of the pipe body to a stainless material In order to prevent the pipe from being damaged from internal pressure changes, earthquakes, subsidence, etc., the lock seam coupling part of the internal smooth pipe made of stainless steel is welded using laser and the expansion and contraction part is made so that the internal smooth pipe can be stretched and contracted. It relates to a double corrugated steel pipe having an internal smooth pipe having corrosion resistance and seismic resistance structure, and a method for manufacturing the same.

In general, a double-corrugated steel pipe has a structure in which an inner tube is laminated on an outer tube having a corrugated concave-convex portion to increase strength, and is used for domestic sewage pipes, road drainage pipes, and the like. These double-corrugated steel pipes have advantages of being easy to use and low in manufacturing cost compared to concrete products, and thus are being applied to various places in construction sites.

In addition, FIG. 1 shows a manufacturing process of a corrugated steel pipe commonly used widely in the technical field to which this invention belongs, and the conventionally used double corrugated steel pipe manufacturing apparatus includes a sheath steel sheet supply device 116 and an internal steel sheet supply device. 111, the outer steel sheet preforming device 121, the inner steel sheet preforming device 126 and the guide device 130, the pipe making device 140, the cutting device 150, and the transfer device 160 is included. is done by

Such a configuration and manufacturing method are known in Korean Patent No. 10-2036147, and in order to improve the corrosion resistance of the double-corrugated steel pipe, the outer steel sheets 10 and 11 and the inner steel sheets 20 and 21 are made of polyethylene resin on the upper part of the plating plate. After coating and painting, a flat inner steel sheet is laminated on the outer steel sheet in which the corrugated concave-convex part is formed, and the laminated outer steel sheet and inner steel sheet are overlapped in the winding direction and press-bonded to form the joint.

In addition, during the preforming and forming of the coupling part for lock seam of such a double corrugated steel pipe, damage to the coating layer due to roller molding occurs on the coating surface during the forming process, resulting in fatal problems in durability.

In addition, since the double-corrugated steel pipe as described above consists only of a state in which steel plates are bent and joined to each other, when strong external pressure is generated, the joint strength is reduced, such as the lock shim part is deformed or separated, and the lock shim connection part is connected even if external pressure is not generated. There was a problem such as a decrease in durability due to leakage of water through minute voids (gaps) between the steel plate and the steel plate to be joined by bending.

For this reason, there is a problem in that corrosion occurs due to leakage through minute voids (gap) between the steel plate and the steel plate in a salt-damaged area or a place with a lot of contaminated water.

In addition, awareness of the need for seismic design and the awareness of the damage caused by deformation or separation of the lock core of the corrugated steel pipe due to internal pressure changes of the double corrugated steel pipe or a series of earthquakes and subsidence occurring at home and abroad is spreading, In the conventional method, there was a problem in that the lock shim part was deformed or separated because there was no expansion and contraction absorption function of the internal smooth pipe, resulting in damage to human life and property due to earthquake and ground subsidence.

In addition, in order to prevent the lock seam portion of the corrugated steel pipe from being deformed or separated, the inner smooth tube lock seam joint portion 210 may be welded to the lock seam joint portion 210 by welding, but as shown in FIG. 2, the lock seam joint portion There was a problem in that it was formed at an angle, causing welding defects.

Korea Registered Utility Model No. 20-0462605 Korean Patent Publication No. 10-2036147 Korean Patent Publication No. 10-0879033

The present invention has been devised to solve the problems of the prior art as described above, and to prevent the lock shim portion of the corrugated steel pipe from being deformed or separated due to internal pressure changes of the double corrugated steel pipe, earthquake, ground subsidence, etc. (Lock seam) The joint is provided with a welding joint using laser and an expansion and contraction part so that the internal smooth pipe can be expanded and contracted. An object of the present invention is to provide a double corrugated steel pipe having an internal smooth pipe and a method for manufacturing the same.

In addition, so that it can be used in salty areas or places with a lot of contaminated water, the inner smooth pipe through which contaminated water or salt water is drained is made of a stainless steel plate, and the inner lock seam joint is laser welded to seal the inner pipe with salt water or contaminated water. An object of the present invention is to provide a double corrugated steel pipe having an internal smooth pipe having corrosion resistance and seismic resistance that can be used even if discharged through a method for manufacturing the same.

The present invention for achieving the above object is to form a spiral bent portion by bending the outer circumferential surface of the outer shell steel plates 10 and 11 in a corrugation, and the inner circumferential surface of the inner circumferential surface by winding the inner steel plates 20 and 21 spirally to form a smooth inside of the tube body. In the double corrugated steel pipe 100 formed to have a uniform surface inside by having a lock seam coupling part 30 that is formed as an internal smooth part and is combined by folding and binding the stacked left and right ends,

In order to increase the corrosion resistance of the internal smooth pipe 200 formed of the internal smooth part, the internal steel plate is formed of a stainless steel plate, and the pipe is damaged from pressure changes or earthquakes, ground subsidence, etc. inside the internal smooth pipe 200 Corrosion resistance and characterized in that it comprises an inner smooth pipe lock core joint 210 joined by laser welding so as not to be damaged, and an expansion and contraction section 230 made of a concave groove so that the inner smooth pipe 200 can be expanded and contracted. It shall be a double-corrugated steel pipe equipped with an internal smooth pipe having an earthquake-resistant structure.

To explain this in more detail, the inner smooth pipe lock seam joint 210 is the first bent portion 20a of the inner steel pipe 20 on one side of the lock seam joint 30 after the lock seam joint 30 is formed. Laser welding is performed between the lock-shim joint surface (220) between the primary bent part 21a and the secondary bent part 21b of the inner steel pipe 21a on the other side of the lock-shim coupling part 30 and the secondary bent part 20b. An inner forming roller that presses the primary bent portion 20a of the inner steel plate 20 on one side so that an undercut defect does not occur in the inner steel plate 20 on one side or the inner steel plate 21 on the other side during bonding with 300) and the outer forming roller 400 that presses the primary bent portion 10a of the one-side sheathed steel sheet 10 to improve the weld groove (groove) and join it by laser welding.

In addition, the inner forming roller 300 has a guide portion 310 that is in contact with the concave groove of the stretchable portion 230 and the shape of the primary bent portion 20a of the inner steel plate 20 on one side has a round portion and is vertical. It has an inner steel plate forming surface 330 to be formed into one shape,

The outer forming roller 400 is

The first bent portion 10a of the one side outer steel sheet 10 and the first bent portion 20a of the one inner steel sheet 20 are pressed to be in close contact with the primary bent portion 21a of the other inner steel sheet 21. It consists of a shell steel plate forming surface 410 and a lock seam coupling part pressing surface 420 that presses the outer surface of the lock seam coupling part 30 to make it possible.

The inner forming roller 300 has a guide portion 310 that is in contact with the concave groove of the stretchable portion 230, and the shape of the primary bent portion 20a of the inner steel plate 20 on the one side is a round portion and has a vertical shape. has an inner steel plate forming surface 330 to be made of ) to be pressed so as to be in close contact with the primary bent portion 21a of the other inner steel plate 21, the outer surface of the outer surface of the outer steel plate forming surface 410 and the lock seam coupling portion 30 is pressed It consists of a lock seam coupling part pressing surface 420 .

In addition, the outer steel plate forming surface 410 of the outer forming roller 400 protrudes outward based on the lock seam coupling part pressing surface 420, and the protrusion angle α1 is 95 to 110 degrees. The end 411 of the shell steel sheet forming surface 410 has a curved surface R3 as the primary bent portion 10a of the one side shell steel sheet 10 is not cracked and becomes a smooth curved surface.

In addition, based on the center line 510 of the laser welding beam between the inner forming roller 300 and the outer forming roller 400 between the lock seam joint surface 220 of the lock seam coupling part 30 formed by the 400 . The length (L1) of the contact portion in contact with the thickness (t1) of the inner steel plates (20, 21) is formed to be at least three times the thickness (t1) of the inner steel plates (20, 21).

In addition, the outer sheathed steel sheet supply device 116 for supplying the sheathed steel sheets 10 and 11, which are plated steel sheets, and the stainless steel sheet inside the sheathed steel sheet 10 and 11 supplied from the sheathed steel sheet supply device 116 . The inner steel sheet supply device 111 for supplying the steel sheets 20 and 21, and the sheathed steel sheet supply device 116 receive the sheathed steel sheets 10 and 11, and the central portion of the sheathed steel sheets 10, 11 is widened. The outer steel sheet preforming device 121 for preforming the concave-convex portion of the outer steel sheet by bending it in a wave direction along the direction, and the inner steel sheet 20 and 21 are supplied from the inner steel sheet supply device 111, and both ends of the inner steel sheet are cut and an inner steel sheet preforming device 126 for preforming an inner steel sheet coupling portion and a stretchable portion 230 on one side by bending at least a portion of both ends of the outer steel sheet,

The sheathed steel sheet and the inner steel sheet preformed through the sheathing steel sheet preforming device and the inner steel sheet preforming device are provided and laminated, but the sheathed steel sheet (10, 11) , the inner steel plates 20 and 21 are overlapped along the winding direction and press-coupled to form a double corrugated steel pipe with a pipe making unit 140, and the expansion and contraction part 230 formed by the pipe making unit 140 The inner forming roller ( 300) and the lock seam coupling part pressing surface 420 that presses the outer surface of the lock seam coupling part 30, and the primary bent part 10a of the one-side sheathed steel plate 10 and the one-side inner steel plate (20) improving the groove (groove) that is a welded portion with the pressing outer forming roller 400 so that the primary bent portion (20a) of the other side inner steel plate 21 can be in close contact with the first bent portion (21a) of the unit and the groove; (groove) between the primary bent portion 20a and the secondary bent portion 20b of the inner steel pipe 20 on one side of the lock shim coupling portion 30 improved through the improvement unit and the lock shim coupling portion 30, the other inner steel pipe 21a ), corrosion resistance and seismic resistance structure by using a welding unit that fusions 220 between the lock shim junction surfaces by laser welding to the contact between the lock shim junction surfaces between the primary and secondary bends 21a and 21b. A method of manufacturing a double-corrugated steel pipe having an internal smooth pipe with

The double corrugated steel pipe having an internal smooth pipe having corrosion resistance and seismic structure of the present invention is a welding joint using a laser at the lock seam joint, and the lock seam part is deformed and separated by external pressure generated from the outside, resulting in lower joint strength. Alternatively, there is an effect of preventing water leakage through the fine voids (gap) between the steel plate and the steel plate, which is a bent joint of the lock shim connection part.

In addition, there is an effect that the corrosion resistance can be improved by changing from a normal steel plate made of a material of the inner smooth pipe to a steel plate made of stainless steel.

In addition, the lock seam joint part is welded using laser, and the internal smooth pipe has an earthquake-resistant structure with an expansion and contraction part so that the internal smooth pipe can be expanded and contracted, and corrosion resistance that can withstand chemical wastewater has the effect of having

The inner steel plate forming the inner smooth pipe is made of stainless steel, and the lock seam joint is laser welded, so it can be used in salty areas or places with a lot of contaminated water.

1 is a perspective view showing a conventional manufacturing process of a conventional double corrugated steel pipe.
FIG. 2 is a cross-sectional view showing a process of forming a lock shim coupling portion in the conventional manufacturing process of the corrugated steel pipe of FIG. 1;
Figure 3 is a cross-sectional view for explaining a groove (groove) improvement unit according to an embodiment of the present invention.
Figure 4 is a cross-sectional view showing a cross-section of the coupling portion in the embodiment of the present invention.

In the present application, terms such as “comprises”, “have” or “include” are intended to designate that the features, numbers, steps, components, parts, or combinations thereof described in the specification exist, but one or more other It should be understood that this does not preclude the possibility of addition or presence of features or numbers, steps, operations, components, parts, or combinations thereof.

In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions. Throughout the specification, when it is said that a part is connected to another part, it includes not only a case in which it is directly connected, but also a case in which it is indirectly connected with another element interposed therebetween. In addition, the inclusion of a certain component does not exclude other components unless otherwise stated, but means that other components may be further included.

Hereinafter, a double corrugated steel pipe having an internal smooth pipe having corrosion resistance and earthquake resistance structure according to the present invention will be described with reference to the accompanying drawings.

3 is a cross-sectional view illustrating a groove improving unit according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view showing a cross-section of a coupling part according to an embodiment of the present invention.

Referring to Figs. 3 and 4, the double corrugated steel pipe having the internal smooth pipe having the corrosion resistance and earthquake resistance structure of the present invention will be described. The silver sheathed steel plates 10 and 11 are bent into a corrugated shape to form a spiral bent part, and the inner peripheral surface is formed as an internal smooth part that makes the inside of the tube body smooth by winding the inner steel plates 20 and 21 spirally, and the ends of the stacked left and right sides are formed. It includes a lock seam coupling part 30 for binding by folding.

In order to increase the corrosion resistance of the internal smooth pipe 200 formed of the internal smooth part as described above, the internal steel plate is formed of a stainless steel plate.

In this way, since the material of the internal smooth pipe 200 through which the fluid flows is formed of a stainless steel plate, it is possible to prevent the internal smooth pipe 200 from being corroded by the fluid such as wastewater flowing in.

Usually, 0.5mm plated steel sheet is used for the inner smooth pipe, but even if 0.3mm is used as a stainless steel material (sus 304 series material), it can prevent corrosion and respond to internal pressure. seam), damage to the coating layer due to roller molding occurs on the coating surface of the inner steel plate during the forming process during preforming and forming of the joint part, and it is possible to prevent corrosion due to inflow of fluid into the damaged part of the coating layer.

In addition, when a double corrugated steel pipe buried underground is bent due to an earthquake, ground subsidence, etc., the outer peripheral surface of the corrugated steel pipe is easily bent by the spiral bent part bent in a corrugation, but in an internal smooth pipe formed with an internal smooth part, it is bent. In order to solve the problem that the load is concentrated on the lock seam joint where the left and right ends of the inner smooth part are folded and bound, and the lock seam part is deformed or separated, welding using a laser to prevent separation of the lock seam joint By having an expansion and contraction part so that the joint and the internal smooth pipe can be stretched and contracted, it prevents the lock seam coupling part from being separated by the bending load generated from the outside and prevents damage due to bending by the expansion and contraction part 230. prevent.

Welding using a laser can obtain a narrow bead width and a deep penetration depth, so by welding the inner steel plates (20, 21) inside the lock seam joint from the inside of the inner smooth tube, chemical, physical, and mechanical It has the advantage of being able to weld without changing properties.

To summarize, the outer circumferential surface is formed as a spiral bent portion by bending the outer shell steel plates 10 and 11 in a corrugation, and the inner circumferential surface is formed as an inner smooth portion that smoothes the inside of the tube body by winding the inner steel sheets 20 and 21 spirally. In the double corrugated steel pipe 100, which is formed to have a uniform surface therein by having a lock seam coupling part 30 for binding and folding the ends of the left and right sides,

In order to increase the corrosion resistance of the internal smooth pipe 200 formed of the internal smooth part, the internal steel plate is formed of a stainless steel plate, and the pipe is damaged from pressure changes or earthquakes, ground subsidence, etc. inside the internal smooth pipe 200 Corrosion resistance and characterized in that it comprises an inner smooth pipe lock core joint 210 joined by laser welding so as not to be damaged, and an expansion and contraction section 230 made of a concave groove so that the inner smooth pipe 200 can be expanded and contracted. It shall be a double-corrugated steel pipe equipped with an internal smooth pipe having an earthquake-resistant structure.

In addition, looking at the lock seam coupling part 30 shown in FIG. 2 by adding the lock seam coupling part 30 shown in FIG. 2 , the primary bending part 20a of the inner steel pipe 20 on one side ), the secondary bent portion 20b is inclined at an acute angle (about 40 to 60 degrees) with respect to the surface of the inner smooth tube, and the laser is generated vertically based on the surface of the inner smooth tube with a laser welding machine installed inside the inner smooth tube. When the laser beam is not melted equally on both sides of the primary bent part 20a of the inner steel pipe 20 on one side and the primary bent part 21a of the other inner steel pipe 21a, the inner steel pipe 20 on the one side Cut) Defects or holes may occur.

To solve such a problem, the inner smooth pipe lock seam joint 210 is a lock seam joint part 30 after the lock seam joint part 30 is formed in order to improve the welded groove (groove). 20) between the primary bent portion 20a and the secondary bent portion 20b, and between the primary bent portion 21a and the secondary bent portion 21b of the inner steel pipe 21a on the other side of the lock shim coupling portion 30, the lock shim abuts The primary bending portion ( The inner forming roller 300 for pressing 20a) and the outer forming roller 400 for pressing the primary bent portion 10a of the one-side sheathed steel plate 10 improve the weld groove (groove) and join by laser welding.

When the inner forming roller 300 and the outer forming roller 400 for improving the groove, which is a welding part, are described in detail, the inner forming roller 300 is a guide part that is in contact with the concave groove of the expansion and contraction part 230 . 310 and the inner steel plate forming surface 330 so that the shape of the primary bent portion 20a of the inner steel plate 20 has a round portion and is formed in a vertical shape, and the outer forming roller 400 is The first bent portion 10a of the one side outer steel sheet 10 and the first bent portion 20a of the one inner steel sheet 20 are pressed to be in close contact with the primary bent portion 21a of the other inner steel sheet 21. It consists of a shell steel plate forming surface 410 and a lock seam coupling part pressing surface 420 that presses the outer surface of the lock seam coupling part 30 to make it possible.

In addition, the inner forming roller 300 has a guide portion 310 that is in contact with the concave groove of the stretchable portion 230 and the shape of the primary bent portion 20a of the inner steel plate 20 on one side has a round portion and is vertical. It has an inner steel plate forming surface 330 so as to be formed into a single shape, and the outer forming roller 400 has a primary bent portion 10a of the one-side outer shell steel plate 10 and a primary bent portion of the inner steel plate 20 on one side. The outer surface of the outer surface of the outer steel plate forming surface 410 and the lock seam coupling part 30 so that (20a) can be pressed so as to be in close contact with the primary bent part 21a of the other inner steel plate 21 It consists of a pressing surface 420 of a lock seam coupling part to press.

R1 of the guide portion 310 has 3.0 to 4.3, and through this, the expansion and contraction portion 230 of the inner smooth pipe 200 is formed or the forming surface formed in the inner steel sheet preforming device 126 is supplemented.

When the R1 is 3.0 or less, the amount of expansion and contraction is small, so that it does not have stability of contraction and expansion, and when it is 4.3 or more, foreign substances may be laminated.

In addition, R2 is set to R 8.0 ~ 8.3 in order to secure the safety of the inner steel plate of the lock seam connection.

In addition, the outer steel plate forming surface 410 of the outer forming roller 400 protrudes outward based on the lock seam coupling portion pressing surface 420, and the protrusion angle α3 is 95 to 110 degrees. The end 411 of the shell steel sheet forming surface 410 has a curved surface R3 as the primary bent portion 10a of the one side shell steel sheet 10 is not cracked and becomes a smooth curved surface.

The protrusion angle (α3) is by pressing the primary bent portion 10a of the one side sheathed steel sheet 10, the one side sheathed steel sheet 10 and the first side inner steel pipe 20 of the inner side the primary bending portion 20a of the other side inner steel sheet ( 21) is pressed toward the primary bent part 21a side, and when it is 110 degrees or more, the gap between the primary bent part 20a of the inner steel pipe 20 on one side and the primary bent part 21a of the inner steel plate 21 on the other side is widened. When it is 95 degrees or less, the gap between the primary bent portion 20a of the inner steel pipe 20 on one side and the primary bent portion 10a of the outer shell steel plate 10 on one side is widened, and the optimal angle is the protrusion angle (α3) of 95 to 110 to have a diagram

In addition, the inner steel plate forming surface 330 of the inner forming roller 300 protrudes outward at 85 to 95 degrees based on the inner steel plate contact surface 320 in contact with the inner steel plate 20 on one side, and the inner steel plate forming surface ( 330), the outer shell steel sheet forming surface 410 presses the primary bent portion 10a of the one side sheathed steel sheet 10, and the first curved portion 20a of the one side sheathed steel sheet 10 and the inner side inner steel pipe 20 The inner steel plate forming surface 330 of the inner forming roller 300 by forming while supporting the first bent portion 20a of the one inner steel pipe 20 from the inside when pressing toward the primary bent portion 21a of the other inner steel plate 21 ) is 85 degrees or less, the gap between the primary bent portion 20a of the inner steel pipe 20 on one side and the primary bent portion 21a of the inner steel plate 21 on the other side is widened, so that the optimal angle is 85 to 95 degrees.

In addition, R3 of the outer forming roller 400 is R 1.5 to 1.7, and R4 is R 7.0 to 8.5, for the safety type of the lock seam coupling part of the outer shell steel plate 10 on one side.

In addition, based on the center line 510 of the laser welding beam between the inner forming roller 300 and the outer forming roller 400 between the lock seam joint surface 220 of the lock seam coupling part 30 formed by the 400 . The length (L1) of the contact portion in contact with the thickness (t1) of the inner steel plates (20, 21) is formed to be at least three times the thickness (t1) of the inner steel plates (20, 21).

As described above, when the length L1 of the contact portion, which is the laser welding portion, is formed to be three times or more of the thickness t1 of the inner steel sheets 20 and 21, the inner steel sheet is not penetrated by laser welding and a sufficient weld portion can be formed.

In principle, the laser welding machine is installed so that the laser is generated vertically based on the surface of the inner smooth tube, but the lock seam coupling part 30 formed by the inner forming roller 300 and the outer forming roller 400 is If the length (L1) of the contact part is not secured between the lock-seam joint surfaces (220), the angle of the center line (510) of the laser welding beam can be adjusted. do.

In addition, the outer sheathed steel sheet supply device 116 for supplying the sheathed steel sheets 10 and 11, which are plated steel sheets, and the stainless steel sheet inside the sheathed steel sheet 10 and 11 supplied from the sheathed steel sheet supply device 116 . The inner steel sheet supply device 111 for supplying the steel sheets 20 and 21, and the sheathed steel sheet supply device 116 receive the sheathed steel sheets 10 and 11, and the central portion of the sheathed steel sheets 10, 11 is widened. The outer steel sheet preforming device 121 for preforming the concave-convex portion of the outer steel sheet by bending it in a wave direction along the direction, and the inner steel sheet 20 and 21 are supplied from the inner steel sheet supply device 111, and both ends of the inner steel sheet are cut and an inner steel sheet preforming device 126 for preforming an inner steel sheet coupling portion and a stretchable portion 230 on one side by bending at least a portion of both ends of the outer steel sheet,

The sheathed steel sheet and the inner steel sheet preformed through the sheathing steel sheet preforming device and the inner steel sheet preforming device are provided and laminated, but the sheathed steel sheet (10, 11) , the inner steel plates 20 and 21 are overlapped along the winding direction and press-coupled to form a double corrugated steel pipe with a pipe making unit 140, and a stretchable part 230 formed by the pipe making unit 140 An inner forming roller that contacts the guide portion 310 with the concave groove of the inner steel plate forming surface 330 and presses the shape of the primary bent portion 20a of the inner steel plate 20 on one side of the lock core coupling portion into a shape close to the vertical. (300) and a lock seam coupling part pressing surface 420 for pressing the outer surface of the lock seam coupling part 30, the primary bending part 10a of the one side sheathed steel plate 10 and the inside of one side The first bent portion 20a of the steel plate 20 is in close contact with the first bent portion 21a of the other inner steel plate 21, so that the welded portion of the groove is improved with the pressing outer forming roller 400; A groove is formed between the primary bent part 20a and the secondary bent part 20b of the inner steel pipe 20 on one side of the lock-shim coupling part 30, improved through the improvement unit, and the lock-shim coupling part 30, the other internal steel pipe ( Corrosion resistance and earthquake-resistance structure using a welding unit that welds 220 between the lock-seam joint surfaces by laser welding to the contact between the first and second bends 21a and 21b of 21a). A method of manufacturing a double-corrugated steel pipe having an internal smooth pipe having a

By forming the inner steel plate coupling portion for forming the lock core coupling portion through the inner steel sheet preforming device 126 and forming the expansion and contraction portion 230 on one side at the same time, the expansion and contraction portion 230 is spaced apart from the coupling portion 30 at a certain distance. It is formed in a spiral to have

In addition, in the formation of the stretchable part 230, the process of forming the stretchable part 230 through the inner steel sheet preforming device 126 may be omitted, and the expansion and contraction part 230 may be formed through a groove improvement unit. .

In addition, the double-corrugated steel pipe is manufactured by the method for manufacturing a double-corrugated steel pipe having an internal smooth pipe having the above-mentioned corrosion resistance and seismic resistance structure.

Although the present invention has been described in detail through specific examples, this is for the purpose of describing the present invention in detail, and the present invention is not limited thereto. It is clear that the modification or improvement is possible.

All simple modifications and variations of the present invention fall within the scope of the present invention, and the specific protection scope of the present invention will be clarified by the appended claims.

100: double corrugated steel pipe 200: internal smooth pipe
210: inner smooth pipe lock core junction 230: stretchable part
300: inner forming roller 310: guide part
320: smooth pipe contact surface 330: inner steel plate forming surface
400: outer forming roller 410: inner steel plate forming surface
420: coupling part pressing surface

Claims (4)

The outer peripheral surface is formed as a spiral bent part by bending the outer shell steel plates 10 and 11 in a corrugated shape, and the inner peripheral surface is formed as an internal smooth part that forms the inside of the tube body by winding the inner steel plates 20 and 21 spirally, and the left and right ends of the stacked parts In the double corrugated steel pipe 100 formed to have a uniform surface therein by having a lock seam coupling part 30 for folding and binding,
In order to increase the corrosion resistance of the internal smooth pipe 200 formed of the internal smooth part, the internal steel plate is formed of a stainless steel plate,
An inner smooth pipe lock-seam joint 210 joined by laser welding so as not to damage the pipe from internal pressure changes of the inner smooth pipe 200, earthquake, ground subsidence, etc.;
and an expansion and contraction part 230 made of a concave groove so that the inner smooth pipe 200 can be expanded and contracted;
The inner smooth tube lock core junction 210 is
After the lock seam coupling part 30 is formed, between the primary bent part 20a and the secondary bent part 20b of the inner steel pipe 20 on one side of the lock seam coupling part 30 and the other side of the lock seam coupling part 30 When the inner steel pipe 21a is joined by laser welding between the lock shim joint surfaces contacting between the primary bent portion 21a and the secondary bent portion 21b (220), one inner steel plate 20 or the other inner steel plate 21 The inner forming roller 300 that presses the first bent portion 20a of the inner steel plate 20 on the one side so as not to cause undercut defects, and the first bend portion 10a of the outer shell steel plate 10 on the one side A double-corrugated steel pipe having an internal smooth pipe having a corrosion-resistant and earthquake-resistant structure, characterized in that it is joined by laser welding by improving the welded groove (groove) with the pressing outer forming roller (400). The method of claim 1,
The inner forming roller 300 is
a guide part 310 in contact with the concave groove of the stretchable part 230;
The inner steel plate forming surface 330 has an inner steel plate forming surface 330 so that the shape of the primary bent portion 20a of the inner steel plate 20 has a round portion and is formed in a vertical shape,
The outer forming roller 400 is
The first bent portion 10a of the one side outer steel sheet 10 and the first bent portion 20a of the one inner steel sheet 20 are pressed to be in close contact with the primary bent portion 21a of the other inner steel sheet 21. Corrosion resistance and seismic resistance structure, characterized in that it consists of a shell steel plate forming surface 410 and a lock seam coupling part pressing surface 420 for pressing the outer surface of the lock seam coupling part 30 A double corrugated steel pipe having an internal smooth pipe with a sheathed steel sheet supply device 116 for supplying sheathed steel sheets 10 and 11, which are plated steel sheets;
an inner steel plate supply device 111 for supplying the inner steel plate 20, 21, which is a stainless steel plate, to the upper side of the outer shell steel plate 10, 11 supplied from the shell steel plate supply device 116;
Shell steel sheet preforming in which the shell steel plate 10, 11 is supplied from the shell steel plate supply device 116, and the central part of the shell steel plate 10, 11 is bent in a corrugation along the width direction to preform the shell steel plate concavo-convex part device 121;
The inner steel plate 20 and 21 are supplied from the inner steel plate supply device 111, and both ends of the inner steel plate are bent in a form to wrap at least a part of both ends of the outer steel plate, so that the inner steel plate coupling part and the elastic part 230 on one side. an inner steel sheet preforming device 126 for preforming;
The outer steel sheet preforming device and the inner steel sheet preforming device are provided to receive the preformed outer skin steel sheet and the inner steel sheet, and to enter and laminate,
A pipe manufacturing unit 140 that forms a double corrugated steel pipe by superimposing the edge portions of the outer steel sheets 10 and 11 and the inner steel sheets 20 and 21 in the winding direction while winding the laminated outer and inner steel sheets in a spiral direction and press-bonded them to form a double corrugated steel pipe ),
The guide part 310 is brought into contact with the concave groove of the expansion and contraction part 230 formed by the pipe making unit 140, and the inner steel plate forming surface 330 is the first bent part 20a of the inner steel plate 20 on one side of the lock core coupling part. an inner forming roller 300 that presses the shape of
A lock seam coupling part pressing surface 420 that presses the outer surface of the lock seam coupling part 30, the primary bending part 10a of the one side shell steel plate 10 and the one side inner steel plate 20 A unit for improving a groove, which is a welded portion, with a pressurized outer forming roller 400 so that the primary bent portion 20a can be in close contact with the primary bent portion 21a of the other inner steel plate 21;
The groove is improved through the improvement unit between the primary bent portion 20a and the secondary bent portion 20b of the inner steel pipe 20 on one side of the lock-shim coupling part 30 and the lock-shim coupling part 30, the other inner steel pipe Corrosion resistance and seismic resistance structure through a welding unit that fusions 220 between the lock shim junction surfaces by laser welding to the contact between the lock shim junction surfaces between the primary bent part 21a and the secondary bent part 21b of (21a). A method for manufacturing a double-corrugated steel pipe having an internal smooth pipe having a
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