KR101115371B1 - Edge Units for Fiber Reinforced Plastics Deck, and Fiber Reinforced Plastics Deck having Such Edge Units - Google Patents

Abstract

According to the present invention, a plurality of FRP bottom plate units made of side fiber reinforced plastic (FRP) and extending in the longitudinal direction are assembled in the transverse direction to form an FRP bottom plate, which is located at the outermost side of the FRP bottom plate in the transverse direction. It relates to a novel construction of the edge unit and the FRP bottom plate having the same configuration to compensate for the fragility of the edge unit by reinforcing the edge of the outer vertical plate to the edge unit.

In the present invention, the first edge unit 10a, the plurality of intermediate FRP bottom plate units 2, and the other outermost second edge unit 10b are assembled by going from the outermost side on one side to the outermost side on the other side in the lateral direction. Has a structure of being; The first edge unit 10a includes an outermost abdominal plate 101a and an outer abdominal plate 101b, and includes an outermost abdominal plate 101a and an upper plate 21 and a lower plate positioned opposite to the outer abdominal plate 101b. A bend reinforcement 4 is embedded in each of the corners of the connecting portion where the outermost ends of 22) meet each other; The second edge unit 10b includes the inserted abdominal plate 110a and the outermost abdominal plate 110b, and the outermost end portions of the upper plate 21 and the lower plate 22 have the outermost abdominal plate 110b. And ends, and at the corner of the connection portion, an FRP bottom plate is provided, which has a structure in which the bend reinforcement 4 is embedded and embedded.

Description

Edge Units for Fiber Reinforced Plastics Deck, and Fiber Reinforced Plastics Deck having Such Edge Units

The present invention relates to an edge unit of a fiber reinforced plastic bottom plate having a side reinforcement structure and a fiber reinforced plastic bottom plate having the same. Specifically, the present invention is made of Fiber Reinforced Plastics (hereinafter referred to as "FRP"). In assembling and joining a plurality of longitudinally extending FRP bottom plate units laterally to form an FRP bottom plate, by reinforcing the edges of the outer vertical plate relative to the edge unit located at the outermost side of the FRP bottom plate in the transverse direction. The present invention relates to an edge unit of a novel construction that compensates for the fragility of an edge unit and an FRP base plate having the same.

As a floor plate used for civil engineering structures such as bridges, FRP floor plates have been developed in place of reinforced concrete floor plates. FIG. 1 is a schematic perspective view of a FRP bottom plate unit 2 constituting a conventional FRP bottom plate 1, and FIG. 2 is a state in which the FRP bottom plate unit 2 is assembled to form an FRP bottom plate 1. Fig. 3A is a schematic assembly cross-sectional view of the FRP bottom plate 1 showing the closed state of the edge unit located in the transverse outer side of the FRP bottom plate 1. FIG. 3B is an enlarged view of a portion A of FIG. 3A and is a cross-sectional view showing a fiber cutting state at a corner portion of the second edge unit 10b.

As shown in the drawing, the conventional FRP bottom plate 1 is formed by assembling and joining a plurality of FRP bottom plate units 2 extending in the longitudinal direction in the lateral direction. The FRP bottom plate unit 2 is It consists of the upper board 21, the lower board 22, the inner abdominal board 23, and the outer abdominal board 24a, 24b, and has the structure in which the hollow 25 is formed long in the longitudinal direction inside, and one abdominal board 24b is carried out. In this case, the coupling plate 26 is further extended from the upper plate 21 and the lower plate 22 in the lateral direction. On the other hand, in the upper plate 21 and the lower plate 22 on the opposite side, the coupling plate 26 is the upper plate 21 and the lower plate 22 when the adjacent FRP bottom plate unit 2 is laterally engaged. In consideration of being coupled to the outer surface of the upper plate 21 and the lower plate 22, the thickness of the stepped portion 27 is reduced.

The FRP bottom plate unit 2 having such a configuration is generally mass-produced in the same shape, and as shown in FIG. 2, the lateral side portions on which the stepped portions 27 are formed are coupled to neighboring FRP bottom plate units 2. It is inserted between the plates 26 and is integrated by applying an adhesive such as epoxy to the surfaces in contact with each other to form the FRP bottom plate 1.

However, since both the inner unit and the edge unit of the FRP bottom plate 1 are manufactured in the same shape, in the two edge units 10a and 10b positioned at the outermost side of the FRP bottom plate 1, the joining plate In the case of the second edge unit 10b which is placed at the position where 26 is protruding, the protruding coupling plate 26 must be cut as shown in FIG. 3A. The cut coupling plate 26 is attached to the step portion 27 of the first edge unit 10a on the opposite outermost side using an adhesive, so that the upper portion of the step portion 27 position having a relatively thin thickness is used. The plate 21 and the lower plate 22 will be reinforced.

In the conventional FRP bottom plate, since the edge unit and the inner unit of the FRP bottom plate have the same configuration, the FRP bottom plate unit located on the outermost side of the FRP bottom plate in accordance with the characteristics of the edge unit " The cumbersome work of "cutting the bonding plate" and "attaching the cutout of the cut bonding plate" had to be additionally performed, thus causing an increase in the time required to assemble and manufacture the FRP bottom plate.

In addition, the structural weakness of the cut portion of the coupling plate 26 is generated due to the cutting of the coupling plate 26 as described above, and the coupling plate 26 is not integrated at the step where the coupling plate 26 is newly attached. The problem is that the parts become vulnerable. Looking at this in detail, in the portion where the outer abdominal plate 24b meets the upper and lower plates 21 and 22 and the coupling plate 26 as shown in FIG. 3b, the fibers 3 are continuously disposed therein. That is, some of the fibers 3 arranged on the outer abdominal plate 24b are bent to the upper and lower plates 21 and 22 to be continuously arranged, and some of the fibers 3 arranged on the outer abdominal plate 24b are joined to the bonding plate ( 26) to be arranged continuously, exerting the rigidity of the FRP bottom plate unit. However, as described above, in the case of the second edge unit 10b, the protruding coupling plate 26 is cut, so that it is continuous with a part of the fibers 3 arranged on the outer abdominal plate 24b (combination plate 26). Used fibers), its continuity is impaired. Therefore, the upper and lower edge portions of the outer abdominal plate 24b are substantially bent from the outer abdominal plate 24b to the upper and lower plates 21 and 22 to exert only the reinforcing effect by the continuous fibers 3 and the continuity is broken. The reinforcing effect by the fiber becomes insignificant, resulting in a phenomenon that the strength of the edge portion is significantly reduced.

On the other hand, even in the stepped portion of the first edge unit 10a to which the bonding plate 26 is newly attached, since the bonding plate 26 is attached to the upper and lower plates 21 and 22 only by an adhesive such as epoxy, In some cases, the integration may not be performed properly. In this case, a problem may occur in that the strength of the upper and lower corner portions of the outer abdominal plate 24a of the first edge unit 10a is significantly lowered.

The present invention has been developed to overcome the problems and disadvantages of the prior art as described above, specifically "cutting of the bonding plate" and "cut bonding plate to achieve the edge unit located in the outermost side of the FRP bottom plate Of the stepped portion of the outer plate, and at the same time, the strength of the upper and lower edges of the outer abdominal plate due to the discontinuity of the fiber at the cutting portion caused by the cutting of the binding plate is prevented. It is intended to prevent the strength of the upper and lower edges of the outer abdominal plate to which the binding plate is attached by preventing the attachment at the source.

In the present invention, in order to achieve the above object, the first edge unit and the plurality of intermediate FRP bottom plate unit and the other outermost second edge unit is assembled by going from the outermost side of one side to the outermost side of the other side in the transverse direction. Has a structure; The intermediate FRP bottom plate unit is composed of an upper plate, a lower plate, an inner abdominal plate and an outer abdominal plate, and has a configuration in which a hollow is formed in the longitudinal direction in the interior, and in one outer abdomen, the middle plate is further transversely from the upper plate and the lower plate. An extended joining plate is formed, and the upper and lower plates opposite to the middle FRP bottom plate unit have a neighboring middle FRP bottom plate unit or a side when coupled laterally with a neighboring middle FRP bottom plate unit or a first edge unit. A stepped portion having a reduced thickness of the upper plate and the lower plate is formed such that the engaging plate of the first edge unit is coupled to the outer surfaces of the upper plate and the lower plate; The first edge unit includes a top plate, a bottom plate, an inner abdominal plate, an outermost abdomen plate, and an outer abdominal plate, and a hollow is formed in the longitudinal direction in the interior thereof, and a side at which the intermediate FRP bottom plate unit is fitted in the first edge unit. The upper and lower plates of the outer abdominal plate located at are formed with a joining plate extending laterally toward the middle FRP bottom plate unit, and the outermost abdominal plate located on the opposite side of the outer abdominal plate and the outermost end and lower plates of the upper plate. The bent reinforcement is embedded in the interior of the upper and lower plates and the interior of the outermost abdominal plate, respectively, at the corners of the connecting portions where the outermost ends of the ends meet; The second edge unit is composed of an upper plate, a lower plate, an inner abdominal plate, an inserted abdominal plate, and an outermost abdomen, and a hollow is longitudinally formed in the inner side thereof, and outermost ends of the upper plate and the lower plate are formed with the outermost abdominal plate. At the end of the meeting, where the outermost end of the upper plate and the outermost abdominal plate meet, and the outer edge of the outer plate and the outermost end plate where the outermost abdominal plate meets, a bending reinforcement is formed between the inner and outermost abdominal plate of the upper plate and the lower plate. FRP bottom plate is provided, characterized in that it has a structure that is each embedded in a form embedded in the interior.

Also provided in the present invention are first and second edge units, which are made of FRP, which form the edge of such an FRP bottom plate.

In the present invention, since the second edge unit finishing one outermost side of the FRP bottom plate has a built-in bend reinforcement at the corner of the junction where the outermost abdominal plate and the outermost end portions of the upper plate and the lower plate meet each other, the strength of the high connection edge is increased. To have. In particular, in the second edge unit according to the present invention, since the bonding plate does not exist in the outermost abdominal plate and no cutting of the bonding plate is made at the edge of the connecting portion, the fibers disposed on the outermost abdomen are all made of the top plate. The lower plates are continuously arranged, respectively, and thus, the effect of preventing the strength decrease of the upper and lower edge portions of the outer abdominal plate due to the fiber discontinuity in the cut portion caused by the cutting of the bonding plate is exerted. In addition, no separate work is required, such as cutting of the bonding plate, thereby reducing the time required to assemble and manufacture the FRP bottom plate.

 In addition, in the FRP bottom plate according to the present invention, since the bend reinforcement is built in the corners of the connecting portion where the outermost abdominal plate of the first edge unit finishing the other outermost side and the outermost end portions of the upper plate and the lower plate meet, the connection edge Its strength is further reinforced, and it is not necessary to attach the cut joint plate at all because it does not need to form a step on the outer surface of the upper plate and the lower plate which meet the outermost abdominal plate, and thus it is necessary to assemble and manufacture the FRP bottom plate. It is possible to reduce the period, it is possible to prevent the case of inadvertently attaching the bonding plate to prevent the strength of the upper, lower edge portion of the outer abdominal plate to which the bonding plate is attached.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The present invention has been described with reference to the embodiments shown in the drawings, which are described as one embodiment by which the technical spirit of the present invention and its core configuration and operation are not limited.

First, the structure of the FRP bottom plate 1 according to an embodiment of the present invention will be described with reference to FIGS. 4 to 7.

4 is an exploded perspective view showing the assembly structure of the FRP bottom plate 1 according to the present invention, Figure 5 is an intermediate FRP bottom plate unit in the FRP bottom plate 1 of the present invention shown in FIG. A schematic perspective view of the second edge unit 10b fitted into the engaging portion 26 of 2) and closing one outermost side of the FRP bottom plate 1 is shown, and the circle B portion of FIG. As an enlarged view, a cross-sectional view showing a continuous arrangement of fibers is shown.

FIG. 7 shows a schematic perspective view of the first edge unit 10a closing the outermost side of the FRP bottom plate 1 as opposed to the second edge unit 10b of FIG. 5.

As shown in the figure, the FRP bottom plate 1 according to the present invention is the first edge unit 10a and the plurality of intermediate FRP bottom plate unit 2 while going from the outermost side on one side to the outermost side on the other side in the transverse direction. It has a structure which the other outermost 2nd edge unit 10b is assembled.

The intermediate FRP bottom plate unit 2 is composed of an upper plate 21, a lower plate 22, an inner abdominal plate 23, and an outer abdominal plate 24a and 24b, as described above in the Background. 25 has a configuration in which it is formed long in the longitudinal direction, and one abdominal plate 24b is provided with a joining plate 26 extending further in the lateral direction from the upper plate 21 and the lower plate 22. In the upper plate 21 and the lower plate 22 opposite to the middle FRP bottom plate unit 2, when the adjacent FRP bottom plate unit 2 is laterally bonded to the neighboring FRP bottom plate unit 2, the coupling plate 26 is connected to the top plate ( In consideration of being coupled to the outer surface of the 21 and the lower plate 22, a stepped portion 27 is formed in which the thickness of the upper plate 21 and the lower plate 22 is reduced.

The second edge unit 10b, which is fitted into the engaging portion 26 of the intermediate FRP bottom plate unit 2 and closes one outermost side of the FRP bottom plate 1, includes the top plate 21, the bottom plate 22, Although it consists of the inner abdominal plate 23, the inserted abdominal plate 110a, and the outermost abdominal plate 110b has a configuration in which the hollow 25 is formed long in the longitudinal direction, as shown in Figs. In the outermost abdominal plate 110b positioned at the far edge, a joining plate further extending laterally from the upper plate 21 and the lower plate 22 is not formed. In other words, the outermost end portions of the upper plate 21 and the lower plate 22 meet with the outermost abdominal plate 110b and terminate. At the corners of the connecting portion where the outermost direction end portion of the upper plate 21 of the second edge unit 10b and the outermost abdominal plate 110b meet, a bending reinforcement 4 is formed inside the upper plate 21 and the outermost abdominal plate ( 110b) is embedded in the form that is embedded in. In addition, the bend reinforcement 4 is formed at the corners of the connecting portion where the outermost end portion of the lower plate 22 of the second edge unit 10b and the outermost abdominal plate 110b meet with each other to form the inside of the lower plate 22 and the outermost abdominal plate 110b. It is embedded in a form that is buried inside. In FIG. 5, the bend reinforcement 4 is illustrated in each of the corners of both ends of the outermost abdominal plate 110b, but the vertical portions of the bend reinforcement 4 are connected to each other to form the outermost abdomen 110b. It may be provided in the form that the plate is embedded therein. It is preferable that the outermost abdominal plate 110b has a sufficient thickness so that the bend reinforcement 4 may be built in this way.

As described above, in the outermost abdominal plate 110b of the second edge unit 10b closing one outermost side of the FRP bottom plate 1 in the present invention, the outermost end portions of the upper plate 21 and the lower plate 22 are Since the bend reinforcement 4 is built in the corner of the connecting portion, the strength of the corner of the connecting portion is further reinforced. In particular, since the binding plate does not exist in the outermost abdominal plate 110b of the second edge unit 10b and the cutting plate is not cut at the edge of the connecting portion, the outermost abdominal plate 110b as shown in FIG. 6. The fibers arranged in the s) are all continuously arranged on the upper plate 21 and the lower plate 22, respectively, and thus the strength of the upper and lower edge portions of the outer abdominal plate due to the fiber discontinuity in the cut portion caused by the cutting of the bonding plate. The effect that a fall is prevented is exhibited. Of course, there is no need for a separate operation of cutting the joining plate, and the time required to assemble and manufacture the FRP bottom plate can be reduced.

In embedding the bend reinforcement 4, the bend reinforcement 4 is integrated inside the second edge unit 10b by the plastic forming the second edge unit 10b and the like flowing between the bend reinforcement 4. In order to make it possible, it is preferable to form the through hole 41 in the bending reinforcement 4.

On the other hand, the insertion abdominal plate 110a located opposite the outermost abdominal plate 110b of the second edge unit 10b has a configuration similar to that of the conventional one, and the upper plate 21 and the lower plate which meet the insertion abdominal plate 110a are provided. On the 22, the joining plate 26 of the intermediate FRP bottom plate unit 2 has an outer surface of the upper plate 21 and the lower plate 22 when coupled laterally with the neighboring intermediate FRP bottom plate unit 2. Stepped portion 27 is formed so that it can be coupled to.

Next, with reference to FIG. 7, the structure of the 1st edge unit 10a which finishes the outermost side of the FRP bottom plate 1 from the side opposite to the said 2nd edge unit 10b is demonstrated.

The first edge unit 10a which finishes one outermost side of the FRP bottom plate 1 includes an upper plate 21, a lower plate 22, an inner abdominal plate 23, an outermost abdomen 101a, and an outer abdominal plate 101b. It has a configuration in which the hollow 25 is formed long in the longitudinal direction therein. The middle FRP bottom plate unit 2 is attached to the upper plate 21 and the lower plate 22 of the outer abdominal plate 101b located at the side where the middle FRP bottom plate unit 2 is fitted in the first edge unit 10a. A joining plate is formed which extends further in the transverse direction. On the contrary, in the case of the outermost abdominal plate 101a of the first edge unit 10a, which is the outermost side of the FRP bottom plate 1, the outermost end portion of the upper plate 21 and the outermost abdominal plate 101a meet. The bending reinforcement 4 is embedded in the connection part edge in the form which is embedded in the inside of the upper board 21 and the inside of the outermost abdominal board 101a. In addition, the bending reinforcement material 4 is formed at the corners of the connecting portion where the outermost end portion of the lower plate 22 of the first edge unit 10a and the outermost abdominal plate 101a meet with each other to form the inside of the lower plate 22 and the outermost abdominal plate 101a. It is embedded in a form that is buried inside. Similar to the second edge unit 10b, the bend reinforcement 4 embedded in the corners of both ends of the outermost abdominal plate 101a may be separately embedded in each corner, but also in the first edge unit 10a. The vertical portions of (4) may be connected to each other to be provided in a form in which a plate is embedded in the outermost abdominal plate 101a. It is preferable that the outermost abdominal plate 101a has a sufficient thickness so that the bend reinforcement 4 can be incorporated.

On the upper surfaces of the upper plate 21 and the lower plate 22 where the outermost abdominal plate 101a meets in the first edge unit 10a, unlike the intermediate FRP bottom plate unit 2, there is no need for a stepped portion. Previously, the coupling portion transferred to the upper surface of the upper plate 21 and the lower plate 22, but in the present invention as described above the outermost direction of the upper plate 21 and the lower plate 22 of the first edge unit 10a. Since the bending reinforcement 4 is built-in and reinforced at the edge of the connection part where an end part and the outermost abdominal plate 101a meet, and the joining part cut | disconnected from the 2nd edge unit 10b does not generate | occur | produce, a step part is unnecessary.

Thus, in the outermost abdominal plate 101a of the first edge unit 10a closing the other outermost side of the FRP bottom plate 1 in the present invention, the outermost directions of the upper plate 21 and the lower plate 22 are shown. Since the bend reinforcement 4 is built in the edge of the connection where the ends meet, the strength of the connection edge is further reinforced. In particular, since the stepped portion does not have to be formed on the outer surfaces of the upper plate 21 and the lower plate 22 that meet the outermost abdominal plate 101a, there is no need for additional work of attaching the cut coupling plate, thus assembling the FRP bottom plate. It is possible to reduce the time required for the production, it is possible to prevent the attachment of the binding plate inadequate to prevent the strength of the upper, lower edge portion of the outer abdominal plate to which the binding plate is attached.

1 is a schematic perspective view of a FRP bottom plate unit constituting a conventional FRP bottom plate.

2 is a schematic assembly cross-sectional view showing a state in which the FRP bottom plate unit is assembled to form an FRP bottom plate.

FIG. 3A is a schematic assembly cross-sectional view of an FRP bottom plate showing the closed state of an edge unit located laterally outward of the FRP bottom plate. FIG.

3B is an enlarged view of a portion A of FIG. 3A and is a cross-sectional view showing a fiber cutting state at a corner portion of the second edge unit.

Figure 4 is an exploded perspective view showing the assembly coupling structure of the FRP bottom plate according to the present invention.

FIG. 5 is a schematic perspective view of a second edge unit fitted into the engaging portion of the intermediate FRP bottom plate unit in the FRP bottom plate of the present invention shown in FIG. 4 and closing one outermost side of the FRP bottom plate. FIG.

FIG. 6 is an enlarged view of a circle B portion of FIG. 5 and is a cross-sectional view showing a continuous arrangement of fibers. FIG.

FIG. 7 is a schematic perspective view of the first edge unit closing the outermost side of the FRP bottom plate as opposed to the second edge unit of FIG. 5.

<Explanation of symbols for the main parts of the drawings>

1: FRP bottom plate

10a: first edge unit

10b: second edge unit

Claims (4)

The first edge unit 10a, the plurality of intermediate FRP bottom plate units 2, and the other outermost second edge unit 10b are assembled by going from the outermost side on one side to the outermost side on the other side in the lateral direction. Have; The intermediate FRP bottom plate unit 2 is composed of an upper plate 21, a lower plate 22, an inner abdominal plate 23, and an outer abdominal plate 24a and 24b so that a hollow 25 is formed in the longitudinal direction in the longitudinal direction. In one outer abdominal plate 24b, a coupling plate 26 further extending laterally from the upper plate 21 and the lower plate 22 is formed, and the intermediate FRP bottom plate unit 2 is formed. In the upper plate 21 and the lower plate 22 opposite to each other, the neighboring intermediate FRP bottom plate unit 2 when it is laterally engaged with the neighboring intermediate FRP bottom plate unit 2 or the first edge unit 10a. Alternatively, the stepped portion 27 in which the thickness of the upper plate 21 and the lower plate 22 is reduced so that the coupling plate 26 of the first edge unit 10a is coupled to the outer surfaces of the upper plate 21 and the lower plate 22. Is formed; The first edge unit 10a includes an upper plate 21, a lower plate 22, an inner abdominal plate 23, an outermost abdominal plate 101a, and an outer abdominal plate 101b, so that the hollow 25 is longitudinally formed therein. And a middle FRP bottom in the upper plate 21 and the lower plate 22 of the outer abdominal plate 101b positioned at the side where the middle FRP bottom plate unit 2 is fitted in the first edge unit 10a. A joining plate extending laterally toward the plate unit 2 is formed; In the first edge unit 10a, the outermost abdominal plate 101a located on the opposite side of the outer abdominal plate 101b and the outer edge portion of the upper plate 21 where the outermost end portion meets each other are formed of a bent plate and penetrated. The plate portion of the bending reinforcement 4 in which the ball 41 is formed is embedded in the plastic forming the outermost abdominal plate 101a and the upper plate 21, so that the plastic flows through the through hole 41 and is integrated with the plastic. It is built in the state, and the edge of the connection part which the outermost end part of the said outermost abdominal board 101a and the upper board 21 meets is reinforced; In the first edge unit 10a, a bending reinforcement member formed of a bent plate and having a through hole 41 formed at a corner of a connection part where the outermost end portion of the outermost abdominal plate 101a and the lower plate 22 meet. The plate portion of (4) is embedded in the plastic forming the outermost abdominal plate 101a and the lower plate 22, respectively, and the plastic flows through the through hole 41 to be integrated with the plastic, thereby forming the outermost abdominal plate ( The connection edge where the outermost end of 101a) and the lower plate 22 meet is reinforced; The second edge unit 10b is composed of an upper plate 21, a lower plate 22, an inner abdominal plate 23, an inserted abdominal plate 110a and an outermost abdominal plate 110b, and the hollow 25 is longitudinally formed therein. It is formed long, and the end of the outermost direction of the upper plate 21 and the lower plate 22 ends with the outermost abdominal plate (110b) ends; In the second edge unit 10b, at the corner of the connecting portion where the outermost end portion of the upper plate 21 and the outermost abdominal plate 110b meet, a bent plate member is formed and a through hole 41 is formed. The plate portion of the reinforcing material 4 is embedded in the plastic forming the outermost abdominal plate 110b and the upper plate 21, respectively, and the plastic flows in the through-hole 41 to be integrated with the plastic so that the outermost abdominal plate is embedded. A connection edge where the outermost end of the upper plate 21b 110b meets is reinforced; In the second edge unit 10b, at the corner of the connecting portion where the outermost end portion of the lower plate 22 and the outermost abdominal plate 110b meet, an additional bending is made of a bent plate and a through hole 41 is formed. The plate portion of the reinforcing material (4) is embedded in the plastic forming the outermost abdominal plate (110b) and the lower plate (22), respectively, and the plastic flows through the through hole (41) and is integrated with the plastic so that the outermost abdominal plate ( 110b) and the bottom plate 22, characterized in that the FRP bottom plate having a structure that is reinforced with the edge of the connecting portion where the outermost end meets. The method of claim 1, The vertical portion of the bent plate portion of the bent reinforcement 4 provided at the corner of the connecting portion where the outermost abdominal plate 101a of the first edge unit 10a and the outermost end of the upper plate 21 meet each other, 1 of the bent plate portion of the bent reinforcement 4 provided at the corner of the connecting portion where the outermost abdominal plate 101a of the edge unit 10a and the outermost end of the lower plate 22 meet each other, One plate is embedded in the outermost abdominal plate 101a of the first edge unit 10a; The vertical portion of the bent plate portion of the bent reinforcing member 4 provided at the corner of the connecting portion where the outermost abdominal plate 110b of the second edge unit 10b and the outermost end of the upper plate 21 meets, 2 of the bent plate portion of the bent reinforcement 4 provided at the corner of the connecting portion where the outermost abdominal plate 110b of the edge unit 10b and the outermost end of the lower plate 22 meet each other, FRP bottom plate, characterized in that one plate is embedded in the outermost abdominal plate (110b) of the second edge unit (10b). It consists of the upper plate 21, the lower plate 22, the inner abdominal plate 23 and the outer abdominal plate 24a, 24b has a configuration in which the hollow 25 is formed long in the longitudinal direction, and one outer abdominal plate ( In the 24b), the coupling plate 26 is further extended from the upper plate 21 and the lower plate 22 in the transverse direction, and the outer surfaces of the upper plate 21 and the lower plate 22 of the other outer abdominal plate 24a are formed. As an edge unit 10a which is joined to the other side of the outer abdominal plate 24a of the intermediate FRP bottom plate unit 2 having a stepped portion 27 having a reduced thickness, forming an edge, A hollow 25 is formed in the longitudinal direction in the longitudinal direction, the upper plate 21, the lower plate 22, the inner abdominal plate 23, the outermost abdomen 101a and the outer abdominal plate 101b; The upper plate 21 and the lower plate 22 of the outer abdominal plate 101b positioned on the side where the middle FRP bottom plate unit 2 is fitted are provided with a coupling plate extending laterally toward the middle FRP bottom plate unit 2. Formed; A bending reinforcement member formed of a bent plate and having a through hole 41 formed at a corner of a connection portion where the outermost abdominal plate 101a located on the opposite side of the outer abdominal plate 101b and the outermost end of the upper plate 21 meet. The plate portion of (4) is embedded in the plastic forming the outermost abdominal plate 101a and the upper plate 21, respectively, and the plastic flows in the through-hole 41 to be integrated with the plastic, so that the outermost abdominal plate is embedded. The connection edge where the outermost end of the top plate 21 and 101a meet is reinforced; At the corners of the connecting portion where the outermost end portions of the outermost abdominal plate 101a and the lower plate 22 meet each other, the plate portions of the bent reinforcement 4 having the through holes 41 are formed on the outermost abdominal plate, respectively. It is embedded in the plastic forming the 101 and the lower plate 22, the plastic flows in the through-hole 41 and is integrated with the plastic, so that the outermost direction of the outermost abdominal plate (101a) and the lower plate (22) An edge unit, characterized in that it has a structure in which the edge of the connecting portion where the end meets is reinforced. It consists of the upper plate 21, the lower plate 22, the inner abdominal plate 23 and the outer abdominal plate 24a, 24b has a configuration in which the hollow 25 is formed long in the longitudinal direction, and one outer abdominal plate ( In the 24b), a coupling plate 26 extending further from the upper plate 21 and the lower plate 22 in the lateral direction is formed, and on the outer surfaces of the upper plate 21 and the lower plate 22 of the other outer abdominal plate 24a. As the edge unit (10b) is formed in the coupling direction of the coupling plate 26 of the intermediate FRP bottom plate unit 2, the stepped portion 27 is reduced in thickness is formed to form an edge, The hollow plate 25 is formed in the longitudinal direction inside the upper plate 21, the lower plate 22, the inner abdominal plate 23, the inserted abdominal plate 110a and the outermost abdominal plate 110b; The outermost end portions of the upper plate 21 and the lower plate 22 are finished to meet the outermost abdominal plate 110b; At the corners of the connecting portion where the outermost end portion of the upper plate 21 and the outermost abdominal plate 110b meet, the plate portions of the bent reinforcement 4 made of the bent plate material and the through holes 41 are formed, respectively. It is embedded in the plastic forming the outer abdominal plate 110b and the upper plate 21 and flows into the through hole 41 so as to be integrated with the plastic, so that the outermost abdominal plate 110b and the upper plate 21 are embedded. The edges of the joints at which the outermost ends of the ends meet; At the corner of the connecting portion where the outermost end portion of the lower plate 22 and the outermost abdominal plate 110b meet, each of the plate portions of the bent reinforcement 4 made of the bent plate and the through hole 41 is formed is the outermost side. It is embedded in the plastic forming the abdominal plate (110b) and the lower plate 22, the plastic flows in the through hole 41 and is integrated with the plastic, so that the outermost side of the outermost abdomen (110b) and the lower plate (22) An edge unit having a structure in which a connection edge where the directional ends meet is reinforced.

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