KR102441889B1 - Corrugated steel sheet with improved load carrying capacity and corrosion resistance at bolt joints - Google Patents

Abstract

The present invention relates to a corrugated steel sheet with improved load carrying capacity and corrosion resistance at bolt joints. Both longitudinal sides of a corrugated steel sheet (10) which has a plurality of ridges (110) and valleys (120) formed thereon at regular intervals in a width direction have a joint (200) having the cross-sectional shapes of the plurality of ridges (110) and valleys (120) so that the other corrugated steel sheet (20) overlaps the corrugated steel sheet. The joint (200) includes a plurality of joint holes (210) formed in the ridges and the valleys. Fastening devices (30) are assembled to the joint holes (210) so that the corrugated steel sheet structure is formed in the form of a circle, an arch, or a box. On one or both sides of a corrugated slope of the joint (200), a single or a plurality of joint shear keys (300) having a protrusion and a recess of a recess groove (310) on one side thereof and a protrusion (320) on the other side are provided at regular intervals. The protrusion (320) on the other side of the other corrugated steel sheet (20) is inserted into the recess groove (310) on one side of the corrugated steel sheet (10) to be assembled to be engaged and assembled with each other.

Description

Corrugated steel sheet with improved load carrying capacity and corrosion resistance at bolt joints}

The present invention relates to a corrugated steel sheet used in a corrugated steel sheet structure, and more particularly, a bolt for fastening the corrugated steel sheets bent in the longitudinal direction while having ridges and valleys in the width direction so that they can be combined and constructed into structures such as tunnels. It relates to a corrugated steel sheet with improved load-bearing capacity and corrosion resistance of bolt joints in a corrugated steel sheet having a negative portion.

In general, corrugated steel plate structures are made of iron and hot-dip galvanized to form a structure on site in a prefabricated manner and fill the soil with soil. It is also widely used in bridges, overpasses, footbridges, water passage culverts, architectural structures, storage tanks, vertical shafts, and NATM (New austrian tunneling method) tunnel structures.

Since such a corrugated steel plate structure is basically a structure that is completed by combining or assembling unit corrugated steel plates, the size and shape of the structure can be used in various ways according to the combination of each corrugated steel plate. In order to achieve this, there are overlapping parts for a plurality of bolt joints in the circumferential direction according to the length of the steel plate of each unit length. Therefore, structurally, the bolt joint is the weakest part, and there is a problem in that it is difficult to secure the strength in the corrugated steel plate joint.

In order to solve this problem, as shown in Figure 1, in Patent Registration No. 10-1812282, the bottom surface of the bolt plate is formed in a concave or convex cross section along the width direction to correspond to the ground plane of the corrugated steel plate, and Although it is known for a technique of using a multi-bolt set in which four bolt bodies are integrally provided on the bottom, this also appears as the most vulnerable part of the bolt joint.

Based on the size, shape and material of the existing unit corrugated steel sheet in consideration of these problems, compatibility, and economic feasibility, a new and sophisticated coupling structure is proposed from the overall point of view of the corrugated steel sheet structure including the joint on both sides of the corrugated steel sheet. A corrugated steel plate with improved corrosion resistance and load-bearing capacity at bolt joints that can maximize the rigidity of the structure is required.

Korean Patent Registration No. 10-2312712 Korean Patent Registration No. 10-1812282 Korean Patent Registration No. 10-1894914

Therefore, the present invention has been devised to solve the problems of the prior art as described above, and it is a bolt capable of exhibiting maximum bending strength and compressive load by presenting a new and sophisticated coupling structure as a whole in a corrugated steel plate structure including joints formed on both sides in the longitudinal direction. An object of the present invention is to provide a corrugated steel sheet with improved negative load-bearing capacity.

In the present invention, ∑1 (the total cross-sectional area of the bolt) + ∑2 (the shear area of the shear key) is applied to the total load acting on the joint by adding the shear area of the shear key to the joint by installing a shear key in the bolt joint. An object of the present invention is to provide a corrugated steel sheet with significantly increased load-bearing capacity.

In addition, in order to increase the tensile strength in the corrugation direction of the corrugated steel sheet, it is to provide a corrugated steel sheet in which the tensile strength in the corrugation direction of the corrugated steel sheet is greatly increased by including a tension reinforcing member added to a bolt joint formed at the upper end of the corrugated steel sheet.

In addition, in order to prevent corrosion of the outer surface of the corrugated steel plate structure made of fastening the corrugated steel plate, it is to provide a corrugated steel plate that greatly increases the corrosion resistance of the corrugated steel plate structure, including an anode member for corrosion prevention added to the bolt joint.

The present invention for achieving the above object is such that the other corrugated steel plate 20 is overlapped on both sides in the longitudinal direction of the corrugated steel plate 10 in which a plurality of peaks 110 and valleys 120 are formed at regular intervals along the width direction. A joint 200 is provided in which the cross-sectional shapes of the plurality of peaks 110 and the valleys 120 continue as they are, and the joint 200 includes a plurality of joint holes 210 formed in the peaks and valleys, and a joint hole ( In the corrugated steel sheet structure formed in a circular, arcuate or box-shaped form by assembling the fastening device 30 to 210),

A single or a plurality of joint shear keys 300 having a concave groove 310 on one side and a protrusion 320 on the other side at regular intervals on one side or both sides of the wavy slope of the joint 200 are fixed at regular intervals. A corrugated steel sheet with improved load-bearing capacity, characterized in that the protrusion 320 of the other side of the other side of the corrugated steel sheet 20 is inserted into the concave groove 310 of one side of the corrugated steel sheet 10 to be assembled and engaged with each other and assembled.

To explain this in more detail, when the concave groove 310 and the protrusion 320 are engaged with each other and assembled, the protrusion 320 of the other corrugated steel sheet 20 is inserted into the concave groove 310 of the corrugated steel sheet 10. The shape of the shear key is formed in an upper and lower light (上狹下廣) to facilitate engagement.

In addition, the shape of the shaping concavo-convex shape of the shear key is a rectangular shape (3-10 cm wide, 3-10 cm long and 0.5-1.5 cm deep at the center of height), or a polygonal shape (3-10 cm wide, 3-10 cm long at the center of height) and concave groove depth of 0.5 to 1.5 cm) and cylindrical shape (diameter 3 to 10 cm from the center of height and depth of concave groove 0.5 to 1.5 cm).

In addition, in the upper surface of the corrugated steel plate 10 of the joint 200, the first steel splices 410 for friction joints having a peak 110 and a corrugated curvature, the other corrugated steel plate 20 has a valley 120 on the lower surface. The second steel splices 420 for friction joints having a corrugated curvature are further provided, wherein the first steel splices 410 and the second steel splices 420 are greater than the width direction of the corrugated steel plates 10 and 20. A plurality of joint holes 210 are provided in a rectangular shape long in the longitudinal direction.

In addition, in order to increase the tensile strength in the corrugation direction of the corrugated steel sheet structure, a steel bracing 500 connecting the peaks and the peaks of the corrugated steel pipe is further provided above the first steel splices 410 to provide a fastening device 30. be signed with

And the steel bracing 500 is installed in odd-numbered holes among the joint holes 210 formed in the first steel splices 410, and may be installed in all the holes according to the field situation.

In addition, between the corrugated steel plates 10 and 20 and the first steel splices 410 or the second steel splices 420, to prevent corrosion of the outer surface of the corrugated steel plate structure made of steel, a corrosion-preventing anode material is used. It further includes a supporting member 600 made of, wherein the supporting member 600 has the same shape as the first steel splices 410 and the second steel splices 420 .

In addition, one of the anti-corrosion cap 700 or the locking washer or the locking nut made of an anode material for corrosion prevention can be selected and used for the bolt 31 head or the nut 32 of the joint 200 .

The support member 600 or the anti-corrosion cap 700 or the locking washer or locking nut is a zinc-based alloy anode (Zn-Al-Si-based alloy, surface potential-1000~1050mV), an aluminum-based alloy anode (Al-Zn- In-based alloy, Al-Zn-In-Si-based alloy, Al-Zn-In-Mg-Ca-based alloy, surface potential -1100~1200mV), magnesium-based alloy anode (Mg-Al-Zn-Mn-based alloy, surface Potential -1400~1600mV), select and use one of the materials.

In addition, the fastening device 30 is composed of a bolt 31 and a nut 32 , and the bolt 31 has a plurality of screws on the bolt body 33 so that it can be press-fitted into the joint hole 210 . The anti-rotation protrusion 33a is provided, and the anti-rotation protrusion 33a has a protruding wing or spline shape and is formed in a taper with a larger diameter of the bolt head than the diameter of the spiral, and the maximum diameter is a joint hole 210. 105-110% of its diameter.

For the load-bearing corrugated steel sheet of the present invention, a shear key is installed at the joint to add the shear area of the shear key to the total load acting on the joint strength ∑1 (shear area of the bolt) + ∑2 (shear area of the shear key) It has the advantage of improving the load-bearing capacity of the bolt joint that can exert the maximum flexural strength and compressive load.

In addition, the present invention has the advantage of greatly increasing the tensile strength in the corrugation direction of the corrugated steel sheet by including the tension reinforcing member 500 added to the bolt joint formed at the upper end of the corrugation of the corrugated steel sheet.

In addition, there is an advantage that the corrosion resistance of the corrugated steel plate structure can be greatly increased by preventing corrosion of the outer surface of the corrugated steel plate structure as an anode member for corrosion prevention added to the bolt joint.

1 is a perspective view of a structure to which a load-bearing capacity improved corrugated steel sheet according to a prior art example is fastened;
Figure 2 is a perspective view and a partial cross-sectional view of a structure to which the load-bearing capacity improved corrugated steel sheet is fastened according to an embodiment of the present invention.
Figure 3 is a perspective view showing the configuration for fastening the load-bearing capacity improved corrugated steel sheet according to an embodiment of the present invention.
4 is a cross-sectional view of the joint shear key 300 A-A' and the joint 200 B-B' according to the embodiment of the present invention in FIG. 2 .
5 is a diagram according to an embodiment of the present invention; Detail of bolts in fasteners.
6 is a diagram according to another embodiment of the present invention; A perspective view and a partial cross-sectional view of a structure to which a load-bearing corrugated steel plate is fastened.

An embodiment of the present inventor's load-bearing corrugated steel sheet will be described in detail with reference to the accompanying drawings. decide to do

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first, second, etc. not.

In addition, in the contact relationship between each component, the term "coupling" does not mean only when there is direct physical contact between each component, but another component is interposed between each component, so that the component is in the other component It should be used as a concept that encompasses even the cases in which each is in contact.

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

2 to 5 are views for explaining a detailed configuration for fastening the load-bearing capacity-improved corrugated steel sheet to the perspective and partial cross-sectional views of the structure to which the load-bearing capacity-improved corrugated steel sheet is fastened according to an embodiment of the present invention.

The load-bearing corrugated steel sheet according to the present invention is a plurality of corrugated steel sheets 20 overlapping each other in the longitudinal direction of the corrugated steel sheet 10 in which a plurality of peaks 110 and valleys 120 are formed at regular intervals along the width direction. A joint 200 is provided in which the cross-sectional shape of the peak 110 and the valley 120 of the ridge 120 continues as it is, and the joint 200 includes a plurality of joint holes 210 and joint holes 210 formed in the peak and valley parts. ) and used for a corrugated steel plate structure formed in a circular, arcuate or box-shaped form by assembling with a fastening device 30 to one side or both sides of the joint 200 of the corrugated steel plate for improving the load-bearing capacity. A concave groove 310 on one side of a corrugated steel plate 10 to be assembled by configuring a single or multiple joint shear keys 300 of forming irregularities consisting of a concave groove 310 on the side and a protrusion 320 on the other side at regular intervals. ) of the other corrugated steel plate 20, the protrusion 320 of the other side is inserted and formed to engage with each other and assemble.

The corrugated steel sheet 10 and the other corrugated steel sheet 20 to be connected can be used by selecting a conventional galvanized steel sheet, a steel sheet coated and coated on one side or both sides, and is not necessarily limited to a surface-treated steel sheet.

In addition, when the concave groove 310 and the protrusion 320 are engaged with each other and assembled, the shear key is inserted into the concave groove 310 of the corrugated steel sheet 10 and the protrusion 320 of the other corrugated steel sheet 20 is inserted to facilitate engagement. The shape of is formed as upper and lower light (上狹下廣).

The joint shear key 300 of the forming irregularities is formed by molding an irregular shear key on the inclined flat surface except for the mountains and valleys of both ends when forming a corrugated steel sheet product, so that one irregularity protrudes on one side, and a concave groove is formed on the other side As a result, the concave groove 310 or protrusion 320 of the corrugated steel sheet 10 assembled into a corrugated steel sheet structure and the protrusion 320 or the concave groove 310 of the corrugated steel sheet 20 engage and assemble, so that the joint can be reliably combined When assembled in this way, the shape of the shear key is formed in an upward and downward light (上狹下廣), so that the area of the upper side of the protrusion 320 is formed with a small area on the inlet side of the concave groove 310, so that the protrusion 320 is formed. to be inserted into the concave groove 310 so that it can be easily engaged and assembled.

In this way, the shape of the shaping concavo-convex shape of the shear height is rectangular (3-10 cm wide, 3-10 cm long and 0.5-1.5 cm deep at the center of height), or polygonal (3-10 cm wide and 3-10 cm long from the center of height) Concave groove depth 0.5~1.5cm) or cylindrical shape (diameter 3~10cm from the center of height and depth of concave groove 0.5~1.5cm) and use it.

As described above, in a rectangular shape, 3 to 10 cm in width, 3 to 10 cm in height, or 3 to 10 cm in width and 3 to 10 cm in height from the center of height in a polygonal shape, and 3 to 10 cm in diameter from the center of height in a cylindrical shape. The joint shear key 300 is formed by molding a concave-convex shear key on an inclined flat surface excluding the mountains and valleys of both ends when forming a corrugated steel plate product, so that one concave and convex protrudes on one side and a concave groove is formed on the other side. When forming on an inclined flat surface except for the valley, if it is larger than 10 cm, it may be formed on the mountain and valley surface, so it may not be formed in a perfect shape. Since it is not sufficiently formed to allow insertion of the

In addition, when the depth of the concave groove is less than 0.5 cm, the protrusion is not sufficiently formed so that the protrusion can be inserted into the concave groove, and when the depth of the concave groove is 1.5 cm or more, the length of the portion to be protruded is long and there is a risk of damage during molding.

As such, in the joint, a single or multiple joint shear keys 300 of forming irregularities are configured at regular intervals, and the corrugated steel plate 10 is assembled into the concave groove 310 on one side of the other corrugated steel plate 20. The protrusion of the other side. As the 320 is inserted and assembled to be engaged with each other, and the bolt, which is the fastening device 30, is fastened to the plurality of joint holes 210 formed in the ridge and trough, ∑1 (total bolt) for the total load acting on the joint. of shear area) + ∑2 (shear cross-sectional area of the shear key), so the load-bearing capacity of the joint is greatly increased.

This is because the joint strength of the existing corrugated steel plate resists the load only with ∑1 (the shear cross-sectional area of the bolt) of the bolt joint against the total load, and this is the ∑1 ( ∑2 (the shear area of the shear key) of the shear key is applied to the entire bolt’s shear area), and by sharing a part of the total load, the shear load on the bolt to be fastened acting on ∑1 (the entire bolt’s cross-sectional area) is reduced. As the applied stress decreases, the joint strength increases.

In addition, as the corrugated steel sheet is formed vulnerable to the horizontal displacement that the corrugation is about to unfold due to its corrugated shape, the steel bracing 500 that connects the ridge and the ridge of the corrugated steel pipe of the corrugated steel sheet structure can reinforce the tensile strength in the corrugation direction. It is further provided on the upper portion of the first steel splices 410 and fastened with a fastening device 30 .

The steel bracing 500 is installed in odd-numbered holes among the joint holes 210 formed in the first steel splices 410, and may be installed in all holes depending on the field situation.

In addition, in the upper surface of the corrugated steel plate 10 of the joint 200, the first steel splices 410 for friction joints having a peak 110 and a corrugated curvature, the other corrugated steel plate 20 has a valley 120 on the lower surface. The second steel splices 420 for friction joints having a corrugated curvature are further provided, wherein the first steel splices 410 and the second steel splices 420 are greater than the width direction of the corrugated steel plates 10 and 20. A plurality of joint holes 210 are provided in a rectangular shape long in the longitudinal direction.

In this way, the first steel splices 410 for friction joints having the peak 110 corrugated curvature are provided on the upper surface of the corrugated steel plate 10 of the joint 200, and the other corrugated steel plate 20 has a valley portion ( 120) As the second steel splices 420 for friction joints having a wavy curvature are further provided, when fastening using the bolt 31 and the nut 32 as the fastening device 30 of the joint 200, As the fastening load concentrated on the bolt 31 and the nut 32 is distributed to the first steel splice 410 or the second steel splice 420, the load concentrated on the existing bolt hole is applied to the joint 200. Since the corrugated steel sheet 10 is formed widely on the upper surface and the other corrugated steel sheet 20 lower surface, the bolt screw wire and the galvanized layer at the bolt hole area are damaged by the rotational force of the bolt head and the nut in the bolt hole area when assembling the corrugated steel sheet. can be prevented in advance.

In addition, between the corrugated steel plates 10 and 20 and the first steel splices 410 or the second steel splices 420, to prevent corrosion of the outer surface of the corrugated steel plate structure made of steel, a corrosion-preventing anode material is used. It further includes a supporting member 600 made of, wherein the supporting member 600 has the same shape as the first steel splices 410 and the second steel splices 420 .

The support member 600 is a zinc-based alloy anode (Zn-Al-Si-based alloy, surface potential -1000 to 1050mV), an aluminum-based alloy anode (Al-Zn-In-based alloy, Al-Zn-In-Si-based alloy) , Al-Zn-In-Mg-Ca alloy, surface potential -1100 to 1200 mV), magnesium alloy anode (Mg-Al-Zn-Mn alloy, surface potential -1400 to 1600 mV) use.

As described above, the supporting member 600 is a zinc-based alloy anode (Zn-Al-Si-based alloy, surface potential-1000 to 1050 mV), an aluminum-based alloy anode (Al-Zn-In-based alloy, Al-Zn-In-Si). One of the alloys, Al-Zn-In-Mg-Ca alloy, surface potential -1100 to 1200 mV), and magnesium alloy anode (Mg-Al-Zn-Mn alloy, surface potential -1400 to 1600 mV). What is selected is a method of preventing corrosion of metal structures by using a metal that is more corrosive than the corrugated steel sheet metal to be protected as a sacrificial anode. That is, the sacrificial anode method can be selected from a magnesium anode (Mg-Anode) method, an aluminum anode (Al-Anode) method, and a zinc anode (Zn-Anode) method. In the sacrificial anode electric method of the freshwater and freshwater systems, aluminum or zinc cannot be used because freshwater and general soil have high soil resistivity and seawater resistance. method to use.

In addition, the support member 600 may be used in the form of a washer on the upper surface of the first steel splices 410 or the lower surface of the second steel splices 420 , and the shape is not necessarily limited.

In addition, in order to completely electrically connect the supporting member 600 and the metal part of the joint 200 , the bolt 31 is provided in a plurality of bolt body parts 33 so that it can be press-fitted into the joint hole 210 . of the anti-rotation protrusion 33a is provided, and the anti-rotation protrusion 33a has a protruding wing or spline shape and is formed in a taper with a larger diameter of the bolt head than the diameter of the spiral, and the maximum diameter is a joint hole ( 210) of 105-110% of the diameter.

In addition, the anti-rotation protrusion (33a) may be applied to the nut portion.

As such, the anti-rotation protrusion 33a is press-fitted into the joint hole 210, so that the bolt 31 or the nut and the corrugated steel plate 10 and other corrugated steel plates 20 can be electrically connected regardless of whether they are covered. .

6 is a perspective view and a partial cross-sectional view of a structure to which a load-bearing strength improved corrugated steel sheet is fastened according to another embodiment of the present invention, in which the support member 600 made of the anti-corrosion anode material of the embodiment shown in FIG. 2 is replaced. As such, the bolt 31 head or the nut 32 of the joint 200 may be provided with a corrosion protection cap 700 made of an anode material for corrosion protection, or may be used in the form of a locking washer or a locking nut.

The anti-corrosion cap 700 or locking washer and locking nut are formed of the same material as the support member 600 .

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.

10, 20: corrugated steel sheet 31: bolt
32: nut 33: bolt body
33a: anti-rotation projection 110: obstetric
120: bone 200: joint
210: joint hole 300: shear key
310: concave groove 320: protrusion
410: first steel splices 420: second steel splices
500: steel bracing 600: support member
700: anti-corrosion cap

Claims (5)

A plurality of peaks 110 and valleys 120 so that other corrugated steel plates 20 are overlapped on both sides in the longitudinal direction of the corrugated steel sheet 10 in which a plurality of peaks 110 and valleys 120 are formed at regular intervals along the width direction. ) is provided with a joint 200 in which the cross-sectional shape continues as it is,
The joint 200 is assembled with a plurality of joint holes 210 formed in the peaks and valleys, and a fastening device 30 composed of a bolt 31 and a nut 32 in the joint hole 210 to form a circular, arcuate or In the corrugated steel sheet structure formed in the form of a box,
A single or a plurality of joint shear keys 300 having a concave groove 310 on one side and a protrusion 320 on the other side at regular intervals on one side or both sides of the wavy slope of the joint 200 are fixed at regular intervals. The concave groove 310 of one side of the corrugated steel plate 10 to be assembled is inserted into the other corrugated steel plate 20, and the protrusion 320 of the other side is engaged with each other and assembled,
In addition, when the concave groove 310 and the protrusion 320 are engaged with each other and assembled, the shear key is inserted into the concave groove 310 of the corrugated steel sheet 10 and the protrusion 320 of the other corrugated steel sheet 20 is inserted to facilitate engagement. is formed in the shape of the upper and lower light (上狹下廣),
In order to increase the tensile strength in the corrugation direction of the corrugated steel sheet structure, a steel bracing 500 connecting the peaks and the peaks of the corrugated steel sheet is further provided on the joint hole 210, characterized in that it is fastened with a fastening device 30 Corrugated steel sheet with improved load carrying capacity and corrosion resistance at bolt joints. The method of claim 1,
The shape of the molding irregularities of the shear key is a rectangular shape (3-10 cm wide, 3-10 cm long and 0.5-1.5 cm deep in the concave groove at the center of height), or a polygonal shape (3-10 cm in width at the center of the height, 3-10 cm in length and concave) A corrugated steel sheet with improved load carrying capacity and corrosion resistance at bolt joints, characterized in that it has a groove depth of 0.5 to 1.5 cm) and a cylindrical shape (a diameter of 3 to 10 cm from the center of the height and a depth of 0.5 to 1.5 cm of the concave groove). The method of claim 1,
On the upper surface of the corrugated steel plate 10 of the joint 200, the first steel splices 410 for friction joints having a peak 110 corrugation curvature, and the other corrugated steel plate 20 lower surface of the corrugated steel plate 20 have valleys 120 corrugation curvature A second steel splice 420 for friction joints with
The first steel splices 410 and the second steel splices 420 have a rectangular shape longer in the longitudinal direction than in the width direction of the corrugated steel plates 10 and 20, characterized in that a plurality of joint holes 210 are provided. Corrugated steel sheet with improved load-bearing capacity and corrosion resistance at bolted joints. The method of claim 1,
Bolt joint, characterized in that the bolt 31 head of the joint 200 or the nut 32 is used by selecting one of the anti-corrosion cap 700 made of an anode material for corrosion prevention, a locking washer, or a locking nut Corrugated steel sheet with improved load-bearing capacity and corrosion resistance.
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