KR102291171B1 - Across river - Google Patents

Abstract

The present invention relates to a footbridge comprising: a steel pipe pile (110) vertically installed on a bottom surface; a reinforcement cap installed on the top of the steel pipe pile (110); a deck frame (130) installed on the top of the reinforcement cap (120) in the longitudinal direction; a square pipe (140) installed on the top of the deck frame (130) in the transverse direction; and a deck (150) constructed on the top of the square pipe (140). The present invention distributes the weight thereof and improves an anchoring force between the steel pipe pile and the reinforcement cap to increase the structural stability, and constructs the deck frame on the top surface of the reinforcement cap by applying an inversion preventing clip thereto, thereby increasing the construction stability.

Description

footbridge {Across river}

The present invention relates to a footbridge, and more particularly, to a footbridge which is a public pedestrian bridge on which people or bicycles travel.

Footbridges are bridges that people can cross on foot and are installed across rivers, roads, etc. or along the perimeter of rivers.

In general, footbridges are divided into round steel pipe T-type bridge footbridges, bridges and retaining wall extension footbridges, and slope extension footbridges according to the installation location.

Circular steel pipe T-Type bridge footbridge is a construction method that forms a bicycle path through rivers, coasts, and downtown areas by constructing a pier with rape piles and installing factory-made steel pipe girders and brackets at once.

The bridge and retaining wall extension footbridge is a construction method in which brackets are formed at regular intervals on the outside of the existing bridge and retaining wall, steel joists are installed on the top of the bracket, and then lightweight and high-strength composite material flooring and safety handrails are installed.

The slope extension footbridge is a construction method in which a pile and an earth anchor are drilled in the outer part of the existing road, a concrete beam is formed in the upper part, and an extension footbridge is installed in the bracket to form a sidewalk and bicycle path.

Among them, the round steel pipe T-TYPE bridge footbridge uses a rape pile as a basis, so it has the advantages of smooth running water, easy construction, and excellent aesthetics, but there is a problem that the upper girder may sag.

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a footbridge of a structure in which deflection of the upper girder is prevented and structural stability is excellent by increasing the fixing force along with load distribution, and to prevent overturning will be.

The footbridge according to an embodiment of the present invention for solving the above problems is a steel pipe pile installed vertically on the floor surface, a reinforcement cap installed on the upper end of the steel pipe pile, and a tech frame installed in the longitudinal direction on the upper part of the reinforcement cap And each pipe installed in the transverse direction on the upper part of the tech frame and a bottom plate installed on the top of the each pipe.

The tech frame is an H-shaped steel, and one flange of the H-shaped steel is assembled on the upper surface of the reinforcing cap and the other flange is assembled on the lower surface of the each pipe, and the tech frame has one flange of the upper surface of the reinforcing cap. It is disposed between the fall prevention clips fixed to the, and the fall prevention clip is formed in a shape surrounding one side flange of the H-shaped steel and a part of the web, and the front and rear open shape for the one side flange of the tech frame to be fitted in a slip manner. It includes a slip groove and an open groove for opening the slip groove upward.

The fall prevention clip is fixed to the upper surface of the reinforcing cap by welding, and the reinforcing cap includes a cylindrical portion installed at the top of the steel pipe pile in a fitting manner and a bracket portion extending from the outer periphery of the cylindrical portion to both sides. , The bracket portion has a flat upper surface and a lower surface inclined downward toward the cylindrical portion.

In the footbridge, a second steel wire is pulled in the direction of the anti-sag bolt, one end is connected to the anti-sag bolt and the other end is connected to the distal end of the bracket part, which is fastened through the cylindrical part of the reinforcing cap and the steel pipe pile. further includes

The steel pipe pile has a hollow shape, and a reinforcing plate installed inside the steel pipe pile and a first steel wire disposed inside the steel pipe pile to connect the reinforcing plate and the reinforcing cap and one end of the first steel wire are reinforced It further includes a first steel wire anchorage fixed to the plate and a second steel wire anchorage fixing the other end of the first steel wire to the reinforcing cap.

The first steel wire is plural, and the reinforcing plate is formed to block the inner diameter of the steel pipe pile, and one end of the first steel wire is fixed to the first steel wire anchorage and is perpendicular to the circular plate part and the upper surface of the circular plate part. It includes two or more vertical plate parts which are erected with and whose edges are integrally fixed with the inner surface of the steel pipe pile.

The vertical plate portions have a downwardly inclined upper surface, and meet each other at the center of the circular plate portion and are integrally fixed.

The tech frame is an H-shaped steel, and one flange of the H-shaped steel is assembled on the upper surface of the reinforcing cap and the other flange is assembled on the lower surface of the each pipe, and the tech frame has one flange of the upper surface of the reinforcing cap. It is disposed between the fall prevention clips fixed to the, and the fall prevention clip is formed in a shape surrounding one side flange of the H-shaped steel and a part of the web, and the front and rear open shape for the one side flange of the tech frame to be fitted in a slip manner. It includes a slip groove and an open groove for opening the slip groove upward.

The slip groove is provided with a shock absorbing member having an elastic force, and when the tech frame is fitted into the slip groove, the elastic force of the shock absorbing member is transmitted to the tech frame between the bottom surface of the tech frame and the shock absorbing member. A support plate is further provided.

The footbridge further includes a square steel pipe constructed between the square pipe and the bottom plate and a side railing installed on both sides of the bottom plate, wherein the square steel pipe has a smaller cross-sectional area than the square pipe, and the square steel pipe A plurality of joists are inserted to allow longitudinal prestressing to be applied, and the sole plate is a composite sole plate.

The present invention improves the structural stability of the footbridge by increasing the fixing force of the steel pipe pile and the reinforcing cap while distributing the load by adding the vertical tension of the steel pipe pile using the first steel wire and preventing the V-shaped deflection of the reinforcing cap using the second steel wire. heightening effect.

In addition, the present invention installs a fall prevention clip on the upper part of the reinforcing cap, installs the tech frame to slip into the fall prevention clip, and fixes the tech frame to the reinforcing cap with bolts or the like. Therefore, it is possible to prevent the tech frame from falling off and to prevent an overturning accident during the process of constructing the tech frame on the upper surface of the reinforcing cap, and it has the effect of securing structural stability.

Also, the present invention

1 is a cross-sectional view of a footbridge according to an embodiment of the present invention.
2 is a cross-sectional view showing a steel pipe column of a footbridge according to an embodiment of the present invention.
3 is a cross-sectional view showing a state in which a reinforcing cap is installed on a steel pipe column of a footbridge according to an embodiment of the present invention.
4 is a cross-sectional view showing the upper side of the footbridge according to the embodiment of the present invention.
5 is a partial perspective view showing a state in which a fall prevention clip is installed on the upper surface of the reinforcing cap according to an embodiment of the present invention and the tech frame is installed.
6 is a perspective view showing a fall prevention clip according to another embodiment of the present invention.
7 is a cross-sectional view showing the shape of the support plate provided in the fall prevention clip according to another embodiment of the present invention.

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

1 is a cross-sectional view of a footbridge according to an embodiment of the present invention.

As shown in FIG. 1 , the footbridge 100 includes a steel pipe pile 110 , a reinforcement cap 120 , a tech frame 130 , a square pipe 140 , a bottom plate 150 , a square steel pipe 160 and a side surface. and a handrail 170 .

In the footbridge 100, the reinforcement cap 120 in which the bracket part 123 is combined is installed on the upper part of the steel pipe pile 110 after drilling and piercing the steel pipe pile 110 in the river crossing part, the reservoir and the shore, and the The tech frame 130 and the square pipe 140 are mounted and assembled on the upper part, and the square steel pipe 160, the bottom plate 150, and the side rail 170 are installed in this order.

The steel pipe pile 110 is installed vertically on the floor surface to form a pier. The steel pipe pile 110 is easy to construct because it is installed on the floor surface by drilling and piercing. The interval at which the steel pipe pile 110 is installed may be 7m to 12m. The steel pipe pile 110 is made of carbon steel to secure strength, and may be hot-dip galvanized to prevent corrosion.

The reinforcing cap 120 is installed on the upper end of the steel pipe pile 110 . The reinforcing cap 120 serves as a bulletin forming a sidewalk through which a person travels.

Tech frame 130 is installed in the longitudinal direction on the upper portion of the reinforcement cap (120). Tech frame 130 is installed at regular intervals in the longitudinal direction on the upper surface of the reinforcing cap 120 to connect the reinforcing caps 120 installed in the transverse direction to the upper end of the steel pipe pile 110 installed at regular intervals. . Tech frame 130 serves as an auxiliary beam.

Each pipe 140 is installed in the transverse direction on the upper part of the tech frame (130). Each pipe 140 secures the structural stability of the footbridge 100 by fixing the tech frame 130 .

The bottom plate 150 is constructed on top of each pipe 140 . The bottom plate 150 may be made of wood or a composite material.

The square steel pipe 160 is constructed between the square pipe 140 and the bottom plate 150 . Specifically, the rectangular steel pipe 160 is installed in the longitudinal direction on the upper part of the rectangular pipe 140 installed in the transverse direction, and the bottom plate 150 is installed on the upper surface of the rectangular steel pipe 160 in the transverse direction, and the bottom plate The side railing 170 is constructed on both sides of the 150. The square steel pipe 160 is for stably constructing the bottom plate 150 on the upper part of the square pipe 140 .

2 is a cross-sectional view showing a steel pipe column of a footbridge according to an embodiment of the present invention.

As shown in FIG. 2 , the steel pipe pile 110 constituting the footbridge 100 is a circular steel pipe pile having a hollow cylindrical shape.

A reinforcing plate 125 for fixing the first steel wire 127 is installed inside the steel pipe pile 110 . The first steel wire 127 is disposed inside the steel pipe pile 110 and connects the reinforcing plate 125 and the reinforcing cap 120 to apply a vertical tension force. The vertical tension force using the first steel wire 127 offsets the compressive stress received by the steel pipe pile 110 to increase the structural rigidity of the steel pipe pile 110 .

One end of the first steel wire 127 is fixed to the reinforcing plate 125 by the first steel wire anchoring hole 128 , and the other end of the first steel wire 127 is the reinforcing cap 120 by the second steel wire anchoring hole 129 . is fixed on The first steel wire anchorage 128 and the second steel wire anchorage hole 129 are for applying tension to the first steel wire 127 .

The reinforcing plate 125 is formed in a shape including a circular plate part 125a and a vertical plate part 125b so that the force fixed to the steel pipe pile 110 is strong.

The circular plate part 125a is formed in a shape to block the inner diameter at the lower side of the steel pipe pile 110, and the vertical plate part 125b is vertically erected on the upper surface of the circular plate part 125a and the edge is the steel pipe pile ( 110) is formed in a shape fixed to the inner surface. This vertical plate portion 125b is composed of two or more fixed to form a radial from the center of the circular plate portion (125a). For example, the vertical plate part 125b may have a downwardly inclined upper surface and may be composed of two or more that meet each other at the center of the circular plate part 125a and are integrally fixed. In the embodiment, one end of the first steel wire 127 is fixed to the circular plate part 125a of the reinforcing plate 125 using the first steel wire anchoring hole 128 .

The reinforcing plate 125 having a shape including the circular plate part 125a and the vertical plate part 125b may be integrally fixed to the inside of the steel pipe pile 110 by welding or the like.

3 is a cross-sectional view showing a state in which a reinforcement cap is installed on a steel pipe column of a footbridge according to an embodiment of the present invention.

As shown in FIGS. 2 and 3 , the reinforcing cap 120 is a cylindrical portion 121 installed at the upper end of the steel pipe pile 110 in a fitting manner and a bracket formed extending from the outer periphery of the cylindrical portion 121 to both sides. part 123 .

The cylindrical part 121 is formed in a shape in which one end blocks the upper end of the steel pipe pile 110 , the first steel wire 127 passes through one end that blocks the upper end of the steel pipe pile 110 , and one end of the cylindrical part 121 is formed. The second steel wire anchoring hole 129 may be coupled to the penetrating first steel wire 127 to apply tension to the first steel wire 127 .

A support plate 121a is formed on the bottom surface corresponding to the upper end of the steel pipe pile 110 in the cylindrical part 121 and is fitted to the inner diameter of the steel pipe pile 110 . The support plate 121a is closely attached to the inner diameter of the cylindrical portion 121 to reinforce the strength of the portion where the cylindrical portion 121 and the steel pipe pile 110 are connected, and the first steel wire 127 to the second steel wire anchorage 129. It functions to reinforce the strength of one end of the cylindrical part 121 corresponding to the part to which the other end is fixed.

The bracket portion 123 forms the main beam of the footbridge 100 and has a flat upper surface and a lower surface inclined downward toward the cylindrical portion 121 . The bracket part 123 is integrally formed with the cylindrical part 121 , and lattice-shaped ribs 123a are formed on one or both surfaces of the bracket part 123 to reinforce strength.

The footbridge 100 further includes a deflection preventing bolt 181 and a second steel wire 183 to prevent the V-shaped deflection of the reinforcing cap 120 . The anti-sag bolt 181 is fastened through the cylindrical portion 121 of the reinforcing cap 120 and the steel pipe pile 110 . One or more anti-sag bolts 181 may be fastened to both sides of the cylindrical portion 121 . The anti-sag bolt 181 basically functions to stably fix the reinforcing cap 120 on the upper end of the steel pipe pile 110 . And, the anti-sag bolt 181 is connected to the second steel wire 183 to prevent the V-shaped deflection of the reinforcing cap 120 .

The second steel wire 183 has one end connected to the anti-sag bolt 181 and the other end connected to the end of the bracket 123, and is pulled in the direction of the anti-sag bolt 181 . The second steel wire 183 is coupled to the upper end of the steel pipe pile 110 by applying a vertical (gravity direction) tension force to both ends of the reinforcing cap 120 to offset the compressive stress that the central portion of the reinforcing cap 120 receives. The structural stability of the reinforcing cap 120 is increased.

The addition of vertical tension of the steel pipe pile 110 using the first steel wire 127 and the prevention of the V-shape deflection of the reinforcing cap 120 using the second steel wire 183 are reinforced with the steel pipe pile 110 along with load distribution. By increasing the fixing force of the cap 120, structural stability is increased.

The first steel wire 127 may be composed of a plurality of pieces, and the second steel wire may be configured to be connected to one end of each of the bottom surfaces of the brackets 123 on both sides of the reinforcing cap 120 . The first steel wire 127 and the second steel wire 183 are in the form of applying a Y-shaped tension force to the reinforcing cap 120 coupled to the upper end of the steel pipe pile 110 .

4 is a cross-sectional view showing the upper side of the footbridge according to the embodiment of the present invention.

As shown in FIG. 4 , the tech frame 130 is installed on the upper portion of the reinforcing cap 120 . Tech frame 130 is installed at regular intervals in the longitudinal direction on the upper surface of the reinforcing cap 120 to connect the reinforcing caps 120 installed in the transverse direction to the upper end of the steel pipe pile 110 installed at regular intervals. .

Tech frame 130 uses an H-shaped steel (or I-shaped), one side flange 131 of the H-shaped steel is assembled on the upper surface of the reinforcing cap 120, and the other flange 132 is the lower portion of each pipe 140. assembled on the side.

Before and after construction of the tech frame 130 , a fall prevention clip 190 for preventing a fall accident of the tech frame 130 is installed.

The fall prevention clip 190 is fixed to the upper surface of the reinforcing cap 120 , and is formed in a shape surrounding a part of the flange 131 and the web 133 of the H-beam tech frame 130 . The fall prevention clip 190 is fixed to the upper surface of the reinforcing cap 120 prior to installing the tech frame 130 on the upper surface of the reinforcing cap 120 . And the tech frame 130 is installed on the upper surface of the reinforcing cap 120 while one side flange 131 is fitted in a slip-on front and rear slip method to the fall prevention clip 190 .

The tech frame 130 is installed in the longitudinal direction on the upper surface of the reinforcing cap 120 while being fitted into the fall prevention clip 190 in a slip manner, and prevents the tech frame 130 from falling off to prevent a fall accident.

The fall prevention clip 190 may be fixed to the upper surface of the reinforcing cap 120 by welding.

5 is a partial perspective view showing a state in which a fall prevention clip is installed on the upper surface of the reinforcing cap according to an embodiment of the present invention and the tech frame is installed.

As shown in FIG. 5 , the fall prevention clip 190 may be fixed to the upper surface of the reinforcing cap 120 at a predetermined interval by welding. The fall prevention clip 190 has a rectangular cross-sectional shape, and a slip groove 190b and a slip groove 190b for one side flange 131 of the tech frame 130 to be fitted to the fall prevention clip 190 in a front and rear slip manner in the center. ) has a structure including an open groove 190a that opens upward. In this structure, one side flange 131 and a portion of the web 133 of the left and right tech frame 130 may be formed by disposing the anti-conduction clips 191 and 192 having a shape corresponding to the portion of the frame 130 are spaced apart. The conduction prevention clip 190 may be made of a metal material.

The fall prevention clip 190 supports both sides of the tech frame 130 so that it can be installed on the upper surface of the reinforcing cap 120 while moving only in the front and rear directions without moving in the left and right directions.

When the tech frame 130 is installed on the upper surface of the reinforcing cap 120 using the fall prevention clip 190, one side flange 131 of the tech frame 130 is connected with the reinforcing cap 120 and the bolt 95. By fixing, the state in which the tech frame 130 is installed on the upper surface of the reinforcing cap 120 via the fall prevention clip 190 is firmly fixed.

On the other hand, referring back to FIG. 4 , the other side flange 132 of the tech frame 130 is fixed to each pipe 140 installed in the transverse direction on the upper part of the tech frame 130 . A plurality of each pipe 140 is installed spaced apart from each other and the spaced position is adjusted by the flange 132 on the other side of the tech frame 130 . Each pipe 140 may be fixed to the other side flange 132 and bolts of the tech frame 130 .

A rectangular steel pipe 160 is installed on the upper surface of each pipe 140 in the longitudinal direction. The prismatic steel pipe 160 has a smaller cross-sectional area than the angular pipe 140, and the joists 165 penetrate through the inside to apply longitudinal prestress.

The bottom plate 150 is constructed on the upper surface of the rectangular steel pipe 160 . The double structure of the rectangular steel pipe 160 installed in the longitudinal direction on the upper surface of the transverse rectangular pipe 140 increases the fixing force of the bottom plate 150 with load distribution, and the bottom plate 150 of a free shape and material. make it selectable.

In the case of a general footbridge, synthetic wood or wood was used as the floor plate due to the load action, but the double structure of the square pipe 140 and the square steel pipe 160 minimizes the gap, so the floor plate 150 can be stably supported, so any The bottom plate 150 of the form is also possible to be installed. The connecting portion of the square pipe 140 and the square steel pipe 160 may be fixed by welding, and may be jointly fixed using bolts.

The side railing 170 is constructed on both sides of the bottom plate 150 . The side railing 170 is for securing the safety of pedestrians.

6 is a perspective view showing a fall prevention clip according to another embodiment of the present invention.

As shown in FIG. 6, the anti-conduction clip 190 of another embodiment is formed in a shape surrounding a part of the flange 131 and the web 133 of one side of the tech frame 130 made of H-shaped steel, and the tech frame ( The one side flange 131 of 130 includes a slip groove 190b of a front and rear open shape for fitting in a slip manner, and an open groove 190a for opening the slip groove 190b to the upper side, but the slip groove 190b includes A shock absorbing member 221 and a support plate 222 are further provided.

The shock absorbing member 221 is disposed in the slip groove 190b and has an elastic force. The support plate 222 applies the elastic force of the shock absorbing member 221 between the bottom surface of the tech frame 130 and the shock absorbing member 221 when the tech frame 130 is fitted into the slip groove 190b. ) to transmit the function.

The configuration for elastically supporting the tech frame 130 by providing the shock absorbing member 221 and the support plate 222 in the slip groove 190b of the fall prevention clip 190 is the impact from the load applied to the bottom plate 150 . It serves to stably fix the absorption function and the tech frame 130 to the fall prevention clip 190 without play.

In this case, the fall prevention clip 190 may be fixed to the upper surface of the reinforcing cap 120 by bolting the fixing bracket portions further formed on both sides.

7 is a cross-sectional view showing the shape of the support plate provided in the fall prevention clip according to another embodiment of the present invention.

As shown in Figure 7, the support plate 222' of another embodiment is formed in an inclined shape at the front and rear ends, so that it is easy to engage the tech frame 130 in the slip groove 190b in a slip manner. . This is a structure in which the front end is pushed to press the shock absorbing member 221 in the process of fitting the tech frame 130 into the slip groove 190b, so it is easy to insert the tech frame 130 into the slip groove 190b and penetrate it. . The support plate 222' has a front end as a free end, so that the operation of pressing the shock absorbing member 221 is possible. The shock absorbing member 221 may employ a spring.

In the above-mentioned footbridge, the vertical tension of the steel pipe pile using the first steel wire is added and the V-shaped deflection of the reinforcing cap using the second steel wire is prevented. can increase

In addition, in the above-described footbridge, a fall prevention clip is installed on the upper part of the reinforcing cap, the tech frame is installed to be fitted into the fall prevention clip in a slip manner, and the tech frame is fixed to the reinforcement cap with bolts or the like. Therefore, it is possible to prevent the tech frame from falling off and to prevent an overturning accident during the process of constructing the tech frame on the upper surface of the reinforcing cap, and it has the effect of securing structural stability.

In addition, the above-described footbridge may have a shock absorbing function while stably fixing the tech frame to the fall prevention clip by further including a shock absorbing member and a support plate in the fall prevention clip.

The above-described footbridge can be applied to various places where a person can walk or a bicycle can ride.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications are possible by those having the knowledge of, of course, these modifications should not be individually understood from the technical spirit or perspective of the present invention.

100: footbridge 110: steel pipe pile
120: reinforcing cap 121: cylindrical part
121a: support plate 123: bracket portion
123a: rib 125: reinforcement plate
125a: circular plate part 125b: vertical plate part
127: first steel wire 128: first steel wire anchorage
129: second steel wire anchorage 130: tech frame
131: one side flange 132: the other side flange
133: web 140: each pipe
150: bottom plate 160: square steel pipe
165: joists 170: side rails
181: anti-sag bolt 183: second steel wire
190: fall prevention clip 221: shock absorbing member
222,222': support plate

Claims (2)

Steel pipe pile installed vertically on the floor;
a reinforcing cap installed on the upper end of the steel pipe pile;
Tech frame installed in the longitudinal direction on the upper part of the reinforcing cap;
each pipe installed in the transverse direction on the upper part of the tech frame; and
a bottom plate constructed on top of each pipe;
including,
The tech frame
H-beam,
One flange of the H-beam is assembled to the upper surface of the reinforcing cap and the other flange is assembled to the lower surface of each pipe,
The tech frame
One flange is disposed between the fall prevention clip fixed to the upper surface of the reinforcing cap,
The fall prevention clip is formed in a shape that surrounds a part of the flange and the web on one side of the H-beam, and opens the slip groove and the slip groove of the front and rear opening shape for the one side flange of the tech frame to be fitted in a slip manner to the top. including an open groove,
The fall prevention clip is fixed to the upper surface of the reinforcing cap by welding,
The reinforcing cap is
Cylindrical part installed in a fitting manner on the upper end of the steel pipe pile; and
Bracket portions extending from the outer periphery of the cylindrical portion to both sides;
includes,
The bracket portion has a flat upper surface and a lower surface inclined downward toward the cylindrical portion.
an anti-sag bolt fastened through the cylindrical portion of the reinforcing cap and the steel pipe pile; and
a second steel wire having one end connected to the anti-sag bolt and the other end connected to the distal end of the bracket unit and pulled in the direction of the anti-sag bolt;
further comprising,
In the slip groove
A shock absorbing member having an elastic force is provided,
When the tech frame is fitted into the slip groove, a support plate for transmitting the elastic force of the shock absorbing member to the tech frame is further provided between the bottom surface of the tech frame and the shock absorbing member,
the support plate
The front end and the rear end are formed in an inclined shape to facilitate the operation of fitting and coupling the tech frame into the slip groove in a slip manner, and the support plate has a free end at the front end, so that the operation of pressing the shock absorbing member is possible,
The shock absorbing member is a spring,
a square steel pipe constructed between the square pipe and the bottom plate; and
side railings constructed on both sides of the bottom plate;
further comprising,
The square steel pipe has a smaller cross-sectional area than the square pipe,
A plurality of joists are inserted into the rectangular steel pipe to apply longitudinal prestress,
The bottom plate is a composite bottom plate,
footbridge. delete

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