KR20210133621A - Clamping method for grid structure of Fiber Reinforced Plastic members - Google Patents

Abstract

A method for combining the intersection points of a grid structure of a fiber-reinforced plastic member according to the present invention is to superimpose the two fiber-reinforced plastic members (11, 12) with respect to the inner intersection of the fiber-reinforced plastic member grid structure (1) to form a cross-shaped intersection (13), wherein the present invention comprises an intersection fastener (2), which is formed to a predetermined thickness and has a predetermined length, and formed together with a main body (21) provided with an open part (22) a surface of one side forming a shape of a pipe is opened, and two coupling surfaces (23) protruding outward by a predetermined length from a predetermined portion of the main body (21), which are both ends of the open part (22), one or more coupling holes (231) provided to face each other while enclosing the outer surfaces of the two fiber-reinforced plastic members (11, 12) and formed to pass through the two coupling surfaces (23) at the same time, and one or more first shear coupling holes (3) made of holes passing through the predetermined parts all together of predetermined portions of the two fiber-reinforced plastic members (11, 12) and the two cross-point fasteners (2) of the main body (21) at the same time at the center of the intersection.

Description

Clamping method for grid structure of Fiber Reinforced Plastic members

The present invention relates to a method for joining the intersections of a grid structure, and more particularly, to a method for bonding intersection points of a grid structure made of a fiber-reinforced plastic member.

Fiber-reinforced plastics are synthetic resin plastics such as polyester resin or epoxy resin, and various fiber-reinforced plastics such as carbon fiber, glass fiber, or aramid fiber. It refers to improving properties such as mechanical strength, heat resistance, etc. of plastic materials by mixing materials.

Generally referred to as FRP (Fiber Reinforced Plastics), these FRPs are manufactured in various shapes by various molding methods and are widely used as parts and building materials for ships and aircraft, and are manufactured by pultrusion molding. The use of circular or rectangular members is increasing in various fields such as agriculture, fishery, and construction.

In particular, the fiber-reinforced plastic member manufactured in the form of a pipe can be used as a support structure for scaffolding, a plastic house, etc., as well as a water structure used for a fish farm.

However, unlike metal rods, fiber-reinforced plastic members cannot be mutually coupled by welding, and when mechanical fastening using bolts is used alone, crack propagation and breakage due to bolt holes are high, so the conventional clamping method used for metal rods. There are limits to the application of

Republic of Korea Patent Publication No. 10-2013-0107009

The present invention is an invention devised to solve the problems of the prior art described above, and relates to a cross-point coupling method capable of very stably and easily bonding fiber-reinforced plastic members arranged in a grid shape.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In the cross-section coupling method of the fiber-reinforced plastic member grid structure according to the present invention for achieving the above object, two or more members (11) made of a fiber-reinforced plastic material having a predetermined length while having an outer cross-sectional shape of a circle or a square shape , 12) to the inner intersection of the fiber-reinforced plastic member grid structure (1) provided by crossing each other in the horizontal and vertical directions, the two fiber-reinforced plastic members (11, 12) are superimposed on each other to form a cross-shaped intersection ( 13), formed to a predetermined thickness and having a predetermined length, the inner cross-sectional shape is the same as the outer cross-sectional shape of the fiber-reinforced plastic members 11 and 12, and the same circular or rectangular shape, the inside is empty, and the The end portion is in the shape of an open pipe (管, pipe), and one side of one side forming the shape of a pipe (管, pipe) is provided with an open portion 22 that is opened and opened; A cross-point fastener 2 provided with two coupling surfaces 23 protruding outward by a predetermined length from a predetermined portion of the body 21, which together become both ends of the open portion 22, and the two The intersection fasteners 2 are provided to face each other while wrapping the outer surfaces of the two fiber-reinforced plastic members 11 and 12 that overlap each other in the horizontal and vertical directions, respectively, in four places that are the upper and lower sides of the center of the intersection. The two fiber-reinforced plastic members 11 and 12 and the two fiber-reinforced plastic members 11 and 12 at the center of the intersection with one or more coupling holes 231 formed to simultaneously pass through the two coupling surfaces 23 that are in direct contact with each other and are in direct contact with each other. It includes at least one first shear coupling hole 3 as a hole passing through all of the predetermined parts of the body 21 at the same time, and the coupling hole 231 has a predetermined size in the coupling hole 231. Insert the bolt 232 and tighten it with the nut 233 or insert a rivet 232 of a predetermined standard and press it to form two coupling surfaces ( 23) with each other, the above 1 Insert a bolt 31 of a predetermined standard into the shear coupling hole 3 and tighten with a nut 32 to assemble the two cross-point fasteners 2 and the two fiber-reinforced plastic members 11 and 12 together. can be configured to be combined.

Alternatively, a fiber-reinforced plastic member grid structure ( For the inner intersection of 1), the two fiber-reinforced plastic members 11 and 12 are superimposed on each other to form a cross-shaped intersection 13, formed to a predetermined thickness and having a predetermined length, The cross-sectional shape of the fiber-reinforced plastic member (11, 12) has the same circular or rectangular shape as the outer cross-sectional shape of the fiber-reinforced plastic member (11, 12), the inside is empty, the ends of both sides are open and open. , pipe) in a predetermined portion of the main body 21 that is both ends of the open portion 22 together with the main body 21 provided with the open portion 22 that is opened and opened. Two fiber-reinforced intersecting point fasteners (2) provided with two coupling surfaces (23) protruding outward by a predetermined length and two cross-point fasteners (2) overlap each other in the horizontal and vertical direction The outer surfaces of the plastic members 11 and 12 are respectively wrapped and provided to face each other so that the two coupling surfaces 23 that are in direct contact with each other in four places on the left and right sides of the center of intersection are simultaneously penetrated. One or more coupling holes 231 and one-side intersection fasteners 2, a predetermined portion of the engagement surface 23 and a predetermined portion of the fiber-reinforced plastic member 11 or 12 are connected to each other and are in direct contact with each other. In the four parts of the upper, lower, left and right, the body 21 of the intersecting point fastener 2 facing from the other side together with a predetermined portion of the coupling surface 23 and a predetermined portion of the fiber-reinforced plastic member 11 or 12 in direct contact with each other ) is provided with one or more second shear coupling holes 4 as holes through which all predetermined parts are collectively penetrated, and a bolt 232 of a predetermined standard is inserted into the coupling hole 231 and a nut 233 is inserted. ) or a rivet of a predetermined standard (232) By inserting and pressing, the two coupling surfaces 23 are coupled to each other at four places that are up and down on the left and right sides of the center of intersection, and the second shear coupling hole 4 of a predetermined standard Insert the bolt 41 and tighten it with the nut 42 to face the predetermined portion of the cross-point fastener 2 on one side and the engagement surface 23 at the upper, lower, left, and right four places of the intersection and the other side of the cross-point fastener (2) body The predetermined portion of 21 and predetermined portions of the fiber-reinforced plastic member 11 or 12 may be configured to be combined together.

Alternatively, a fiber-reinforced plastic member grid structure ( For the inner intersection of 1), the two fiber-reinforced plastic members 11 and 12 are superimposed on each other to form a cross-shaped intersection 13, formed to a predetermined thickness and having a predetermined length, The cross-sectional shape of the fiber-reinforced plastic member (11, 12) has the same circular or rectangular shape as the outer cross-sectional shape of the fiber-reinforced plastic member (11, 12), the inside is empty, the ends of both sides are open and open. , pipe) in a predetermined portion of the main body 21 that is both ends of the open portion 22 together with the main body 21 provided with the open portion 22 that is opened and opened. Two fiber-reinforced intersecting point fasteners (2) provided with two coupling surfaces (23) protruding outward by a predetermined length and two cross-point fasteners (2) overlap each other in the horizontal and vertical direction It is provided so as to face each other while enclosing the outer surfaces of the plastic members 11 and 12 so as to simultaneously penetrate the two coupling surfaces 23 that are in direct contact with each other at the four upper and lower sides of the left and right sides of the center of intersection. All the predetermined parts of the fiber-reinforced plastic member 11 or 12 that are in direct contact with the at least one coupling hole 231 and the left and right or bottom and upper and lower sides of the main body 21 of each intersection fastening hole 231 and are in direct contact therewith At least one third shear coupling hole (5) is provided as a hole through which they collectively pass, and a bolt 232 of a predetermined standard is inserted into the coupling hole 231 and tightened with a nut 233 or of a predetermined standard. The third shear coupling hole ( 5) Insert the bolt (51) of the prescribed standard and insert the nut (52) ) by tightening the cross-point fasteners 2 and the fiber-reinforced plastic member 11 or 12 may be configured to be combined together.

In addition, the intersection point 14 of the T-shaped (T) shape formed in the outer edge portion of the fiber-reinforced plastic member grid structure (1) crosses the direction of the fiber-reinforced plastic member 11 or 12 constituting the outer edge. The end of the fiber-reinforced plastic member 11 or 12 of 2) can be combined.

In addition, the fiber-reinforced plastic member 11 in two directions forming the edge at the intersection 15 of the shape of a giyeok character (a), which is the vertex where the outer edge and the outer edge of the fiber-reinforced plastic member grid structure (1) meet By extending the end of 12) to the outside of the frame by a predetermined length, the intersecting point 15 in the shape of a giyeok character (a) becomes a crossing point in the shape of a cross, so that the intersecting fasteners (2) can be combined. have.

The cross-point coupling method of the fiber-reinforced plastic member lattice structure according to the present invention for solving the above problems has the following effects.

First, it is very easy to fasten.

In the method for joining the intersection of a fiber-reinforced plastic member grid structure according to the present invention, the fiber-reinforced plastic members arranged crosswise are placed on top of each other, and then two different fibers positioned at the intersection by simply fastening the intersection fasteners with bolts. There is an advantage in that the reinforced plastic member can be strongly fixedly coupled.

Second, the fastening force is very good.

In the method for joining the intersection of the fiber-reinforced plastic member grid structure according to the present invention, the coupling is made in a state in which two different intersecting point fastening members each wrap the outer circumferential surface of the fiber-reinforced plastic member located at the intersection, while passing through the fiber-reinforced plastic member Thus, it is possible to additionally include a fastening unit to be integrally fastened, thereby exhibiting a very strong fastening force compared to simply using bolt fastening.

Effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a perspective view of a structure in which fiber-reinforced plastic rods are crossed;
2 is a perspective view showing a state in which the intersecting fasteners of the fiber-reinforced plastic member grid structure according to the present invention are combined;
3 is a perspective view showing an intersection fastener of a fiber-reinforced plastic member grid structure according to the present invention;
Figure 4 is a perspective view showing a first embodiment of the cross-point fastener of the fiber-reinforced plastic member grid structure according to the present invention;
5 is a perspective view showing a second embodiment of the intersecting fastener of the fiber-reinforced plastic member grid structure according to the present invention;
6 is a perspective view showing a third embodiment of the intersecting fastener of the fiber-reinforced plastic member grid structure according to the present invention;

Hereinafter, preferred embodiments of the present invention in which the object of the present invention can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiment, the same names and the same reference numerals are used for the same components, and an additional description thereof will be omitted.

In addition, in describing the embodiment of the present invention, the same name and the same reference numerals are used for components having the same function, and it is substantially not completely the same as in the prior art.

In addition, terms used in the embodiments of the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise.

In addition, in an embodiment of the present invention, terms such as "comprise" or "have" are intended to designate that the features, numbers, steps, operations, components, parts, or combinations thereof described in the specification exist, but one It should be understood that it does not preclude the possibility of the presence or addition of or more other features or numbers, steps, operations, components, parts, or combinations thereof.

Hereinafter, the present invention will be described in detail.

1 shows a structure formed by arranging a plurality of fiber-reinforced plastic members in a grid shape. This structure is composed of a first fiber-reinforced plastic member 11 disposed spaced apart from each other by a predetermined distance and a second fiber-reinforced plastic member 12 disposed perpendicularly to the first fiber-reinforced plastic member 11 and spaced apart from each other. However, the first fiber-reinforced plastic member 11 and the second fiber-reinforced plastic member 12 are superimposed on top of each other and include a cross (+)-shaped intersection 13 that crosses each other in a vertical direction.

In order to stably maintain the structure as described above, it is required to mutually couple the fiber-reinforced plastic members 11 and 12 that are crossed above and below the intersection point 13 .

As described above, the fiber-reinforced plastic members 11 and 12 cannot be welded due to the characteristics of the material, and when they are fastened only with bolts and nuts, damage due to bolt holes can occur more easily compared to general metal members, so the fastening is different from the existing ones. method is required.

2 is a perspective view showing the configuration of the intersection 13 of the fiber-reinforced plastic members 11 and 12 according to the present invention.

Fig. 2 (a) shows the intersection point 13 of the fiber-reinforced plastic rod having a circular cross section, and Fig. 2 (b) shows the intersection point 13 of the fiber-reinforced plastic member having a rectangular cross section.

The fiber-reinforced plastic members 11 and 12 may be in the form of a rod or a hollow pipe with a filling inside, and the shape of the cross-section may be configured in various shapes such as a circle or a square depending on the environment of use.

As shown in Figs. 3 (a) and 3 (b), the intersection point 13 of the fiber-reinforced plastic member grid structure 1 according to the present invention is provided with an intersection point fastener 2 .

The intersecting point fastener 2 is configured using a plate material formed with a predetermined thickness, and specifically, has a predetermined length, and an inner cross-sectional shape is the same as the outer cross-sectional shape of the fiber-reinforced plastic members 11 and 12. An open part (22) in the shape of a rectangle and empty inside, and both ends are in the shape of an open pipe (管, pipe) and at the same time, one side of one side forming the shape of a pipe (管, pipe) is open and a body 21 on which is formed.

In addition, two coupling surfaces 23 protruding from a predetermined portion of the main body 21 to the outside by a predetermined length are provided at both ends located in the open portion 22 of the main body 21 .

On the other hand, the cross-point fasteners 2 are composed of a pair of two, and the cross-point fasteners 2 are two fiber-reinforced plastics in which the two cross-point fasteners 2 overlap each other in the horizontal and vertical directions. It is provided to face each other while enclosing the outer surfaces of the members 11 and 12, and the two coupling surfaces 23 that are in direct contact with each other and are in direct contact with each other at the upper and lower sides of the left and right sides of the center of intersection are combined at the same time. It includes one or more coupling holes 231 formed to pass therethrough.

Inserting a bolt 232 of a predetermined standard into the coupling hole 231 and tightening it with a nut 233 or inserting a rivet 232 of a predetermined standard and pressing the upper and lower sides of the center of intersection It is possible to couple the two coupling surfaces 23 to each other in four places.

4(a) to 4(d) show a first embodiment of the intersecting point fastener 2 of the fiber-reinforced plastic member grid structure according to the present invention.

4(a) and 4(b) show the configuration of the cross-point fastener 2 according to the first embodiment, and FIGS. 4(c) and 4(d) are the cross-point fasteners according to the first embodiment ( 2) is a perspective view showing a state coupled to the fiber-reinforced plastic member (11, 12).

According to the first embodiment, the cross-point fastener 2 is additionally provided with a first shear coupling hole 3 to strengthen the fastening force, and another configuration is shown in FIGS. It is the same as the configuration of the cross-point fastener (2).

The first shear coupling hole 3 includes two fiber-reinforced plastic members 11 and 12 inserted into the intersection fastener 2 at the center of the intersection of the intersection fastener 2 and the two intersection points. The fastener 2 is configured to pass through predetermined portions of the main body 21 all together.

Insert a bolt 31 of a predetermined size into the first shear coupling hole 3 and tighten it with a nut 32 to insert the two cross-point fasteners 2 and the two cross-point fasteners 2 All of the fiber-reinforced plastic members 11 and 12 may be combined together.

5(a) to 5(d) show a second embodiment of the intersecting point fastener 2 of the fiber-reinforced plastic member grid structure according to the present invention.

5(a) and 5(b) show the configuration of the cross-point fastener 2 according to the second embodiment, and FIGS. 5(c) and 5(d) are the cross-point fasteners according to the second embodiment ( 2) is a perspective view showing a state coupled to the fiber-reinforced plastic member (11, 12).

According to the second embodiment, the intersection fastener 2 is additionally provided with a second shear coupling hole 4 to strengthen the fastening force, and another configuration is shown in FIGS. It is the same as the configuration of the cross-point fastener (2).

The second shear coupling hole 4 is a cross-point fastening tool 2, a predetermined portion of the coupling surface 23 and a predetermined portion of the fiber-reinforced plastic member 11 or 12 are in direct contact with each other and are in direct contact. In the four parts, a predetermined portion of the coupling surface 23 and a predetermined portion of the fiber-reinforced plastic member 11 or 12 that are in direct contact with each other and a predetermined portion of the body 21 of the intersecting point fastener 2 facing each other from the other side It is configured to pass through the parts all together collectively.

Insert a bolt 41 of a predetermined standard into the second shear coupling hole 4 and tighten it with a nut 42 to insert the two cross-point fasteners 2 and the two cross-point fasteners 2 All of the fiber-reinforced plastic members 11 and 12 may be combined together.

6(a) to 6(d) show a third embodiment of the intersecting point fastener 2 of the fiber-reinforced plastic member grid structure according to the present invention.

6(a) and 6(b) show the configuration of the cross-point fastener 2 according to the third embodiment, and FIGS. 6(c) and 6(d) are the cross-point fasteners according to the third embodiment ( 2) is a perspective view showing a state in which the fiber-reinforced plastic member (11, 12) is coupled.

According to the third embodiment, the cross-point fastener 2 is additionally provided with a third shear coupling hole 5 to strengthen the fastening force, and another configuration is shown in FIGS. It is the same as the configuration of the cross-point fastener (2).

The third shear coupling hole 5 connects all the predetermined parts of the fiber-reinforced plastic member 11 or 12 that are in direct contact with the left and right or bottom and upper and lower sides of the main body 21 of each crossing point fastener 2 and are in direct contact therewith. It is configured to pass through collectively.

By inserting a bolt 51 of a predetermined standard into the third shear coupling hole 5 and tightening it with a nut 52, the intersection fastener 2 and the fiber-reinforced plastic member 11 or 12 can be combined together. have.

Next, a fastening method of the tee-shaped (T)-shaped intersection 14 formed at the outer edge of the fiber-reinforced plastic member grid structure 1 shown in FIG. 1 will be described.

The intersecting point 14 of the T-shaped (T) shape is the end of the fiber-reinforced plastic member 11 or 12 in a direction crossing the direction of the fiber-reinforced plastic member 11 or 12 forming the outer edge toward the outside of the edge. By extending further by a predetermined length, the intersection point 14 of the T-shaped (T) shape becomes a cross-shaped intersection, and the intersection fastener 2 can be coupled.

In this case, any one of the above-described Examples 1 to 3 may be used as the coupling method of the cross-point fastener 2 .

Next, a method of fastening the intersecting point 15 in the shape of a giyeok character (a), which is a vertex when the outer edge and the outer edge of the fiber-reinforced plastic member grid structure 1 shown in FIG. 1 meet, will be described.

The giyeokja (a)-shaped crossing point 15 is a giyeokja (a)-shaped intersection point 15 by extending the ends of the fiber-reinforced plastic members 11 and 12 in two directions forming the rim by a predetermined length to the outside of the rim. ) can be combined with the cross-point fastener (2) in the state that it becomes a cross-shaped intersection.

At this time, any one of the above-described embodiments 1 to 3 may be used as a coupling method of the cross-point fastener (2).

On the other hand, the cross-point fasteners 2 used for the intersection points 13, 14, 15 of the fiber-reinforced plastic member grid structure 1 use only any one of the above-described Examples 1 to 3, or use two or more embodiments. Of course, they can be combined and used at the same time.

As described above, the method of combining the intersections of the fiber-reinforced plastic member lattice structure according to the present invention is advantageous in that the fiber-reinforced plastic members can be combined very easily and strongly at the intersections of a plurality of fiber-reinforced plastic members arranged in a grid shape. There is this.

As described above, preferred embodiments according to the present invention have been described, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the present invention in addition to the above-described embodiments is one of ordinary skill in the art. It is obvious to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description, but may be modified within the scope of the appended claims and their equivalents.

1: Fiber-reinforced plastic member grid structure
11, 12: fiber-reinforced plastic member
13: intersection
14: T-shaped intersection
15: rebel-shaped intersection
2: intersection fastener
21: body
22: opening
23: bonding surface
231: coupling hole
232: Volt
233: nut
3: first shear coupling hole
31, 41, 51: bolt
32, 42, 52: Nuts
4: second shear coupling hole
5: Third shear coupling hole

Claims (5)

Fiber-reinforced plastic member grid structure (1) provided by crossing two or more members (11, 12) made of a fiber-reinforced plastic material having a circular or rectangular cross-sectional shape on the outside and having a predetermined length in the horizontal and vertical directions Two fiber-reinforced plastic members (11, 12) are superimposed on each other for the inner intersection of the cross-shaped intersection (13),
Formed to a predetermined thickness and having a predetermined length, the inner cross-sectional shape is the same as the outer cross-sectional shape of the fiber-reinforced plastic members 11 and 12, the same circular or rectangular shape, the inside is hollow, and the ends of both sides are open Although the shape of the pipe (管, pipe), one side of one side forming the shape of the pipe (管, pipe) is opened and the opening part 22 together with the main body 21 provided with the opening part 22 is opened (22) an intersecting point fastener 2 provided with two coupling surfaces 23 protruding outward by a predetermined length from a predetermined portion of the main body 21, which is both ends of the;
The two intersecting point fasteners 2 are provided to face each other while enclosing the outer surfaces of the two fiber-reinforced plastic members 11 and 12 that overlap each other in the horizontal and vertical directions and cross each other, so that the upper and lower sides of the center of the intersection are up and down One or more coupling holes 231 formed to simultaneously pass through two coupling surfaces 23 that are in direct contact with each other in four places and are in direct contact with each other;
At the center of the intersection, the two fiber-reinforced plastic members 11 and 12 and the two cross-point fasteners 2 and the predetermined portions of the body 21 are bundled together to form at least one first first hole that passes through at the same time. Including a shear coupling hole (3),
Inserting a bolt 232 of a predetermined standard into the coupling hole 231 and tightening it with a nut 233 or inserting a rivet 232 of a predetermined standard and crimping the upper and lower sides of the center of intersection In addition to coupling the two coupling surfaces 23 to each other at the four places that become A method for joining a lattice structure of a fiber-reinforced plastic member, characterized in that the fastener (2) and the two fiber-reinforced plastic members (11, 12) are combined together.
Fiber-reinforced plastic member grid structure (1) provided by crossing two or more members (11, 12) made of a fiber-reinforced plastic material having a circular or rectangular cross-sectional shape on the outside and having a predetermined length in the horizontal and vertical directions Two fiber-reinforced plastic members (11, 12) are superimposed on each other for the inner intersection of the cross-shaped intersection (13),
Formed to a predetermined thickness and having a predetermined length, the inner cross-sectional shape is the same as the outer cross-sectional shape of the fiber-reinforced plastic members 11 and 12, the same circular or rectangular shape, the inside is hollow, and the ends of both sides are open Although the shape of the pipe (管, pipe), one side of one side forming the shape of the pipe (管, pipe) is opened and the opening part 22 together with the main body 21 provided with the opening part 22 is opened (22) an intersecting point fastener 2 provided with two coupling surfaces 23 protruding outward by a predetermined length from a predetermined portion of the main body 21, which is both ends of the;
The two intersecting point fasteners (2) are provided to face each other while wrapping the outer surfaces of the two fiber-reinforced plastic members (11, 12) overlapping each other in the horizontal and vertical directions, respectively, so that the upper and lower sides of the center of the intersection are left and right At least one coupling hole 231, which is a hole that passes through the two coupling surfaces 23 that are in direct contact with each other in four places at the same time and are in direct contact;
In the four parts of the upper, lower, left, and right of the intersection where a predetermined portion of the coupling surface 23 of one side of the intersecting point fastening tool 2 and a predetermined portion of the fiber-reinforced plastic member 11 or 12 are in direct contact with each other, the coupling is in direct contact with each other A hole through which a predetermined portion of the face 23 and a predetermined portion of the fiber-reinforced plastic member 11 or 12 and a predetermined portion of the body 21 of the cross-point fastener 2 facing the other side are collectively passed together. One or more second shear coupling holes 4 are provided,
Insert a bolt 232 of a predetermined standard into the coupling hole 231 and tighten it with a nut 233 or insert a rivet 232 of a predetermined standard and press it to the left and right sides of the center of the intersection With the two coupling surfaces 23 being coupled to each other in four places where the top and bottom of
Insert a bolt 41 of a predetermined standard into the second shear coupling hole 4 and tighten it with a nut 42 to form a predetermined part of the coupling surface 23 of the one side intersection fastener 2 at four places of the intersection point. Fiber-reinforced plastic member grid, characterized in that the predetermined portion of the main body 21 and the predetermined portion of the fiber-reinforced plastic member 11 or 12 are all collectively joined together at the intersection point fastener 2 facing from the other side. The method of joining the intersections of structures.
Fiber-reinforced plastic member grid structure (1) provided by crossing two or more members (11, 12) made of a fiber-reinforced plastic material having a circular or rectangular cross-sectional shape on the outside and having a predetermined length in the horizontal and vertical directions Two fiber-reinforced plastic members (11, 12) are superimposed on each other for the inner intersection of the cross-shaped intersection (13),
Formed to a predetermined thickness and having a predetermined length, the inner cross-sectional shape is the same as the outer cross-sectional shape of the fiber-reinforced plastic members 11 and 12, the same circular or rectangular shape, the inside is hollow, and the ends of both sides are open Although the shape of the pipe (管, pipe), one side of one side forming the shape of the pipe (管, pipe) is opened and the opening part 22 together with the main body 21 provided with the opening part 22 is opened (22) an intersecting point fastener 2 provided with two coupling surfaces 23 protruding outward by a predetermined length from a predetermined portion of the main body 21, which is both ends of the;
The two intersecting point fasteners 2 are provided to face each other while enclosing the outer surfaces of the two fiber-reinforced plastic members 11 and 12 that overlap each other in the horizontal and vertical directions and intersect each other so as to be up and down on the left and right sides of the center of the intersection One or more coupling holes 231 formed to simultaneously pass through two coupling surfaces 23 that are in direct contact with each other in four places and are in direct contact with each other;
At least one hole formed as a hole through all the predetermined parts of the fiber-reinforced plastic member 11 or 12 in direct contact with the left and right sides or both the lower and upper and lower sides of the main body 21 of each intersection fastener 2 A third shear coupling hole (5) is provided,
Insert a bolt 232 of a predetermined standard into the coupling hole 231 and tighten it with a nut 233, or insert a rivet 232 of a predetermined standard and press the left and right sides of the center of the intersection. With the two coupling surfaces 23 being coupled to each other in four places where they are up and down,
Inserting a bolt 51 of a predetermined standard into the third shear coupling hole 5 and tightening it with a nut 52 so that the intersection fastener 2 and the fiber-reinforced plastic member 11 or 12 are combined together. A method for joining the intersection points of a grid structure of a fiber-reinforced plastic member, characterized in that.
4. The method according to any one of claims 1 to 3,
The tee-shaped (T)-shaped intersection point 14 formed at the outer edge portion of the fiber-reinforced plastic member grid structure 1 is a fiber in the direction crossing the fiber-reinforced plastic member 11 or 12 forming the outer edge. The end of the reinforced plastic member (11 or 12) is extended to the outside of the rim by a predetermined length so that the T-shaped intersection (14) becomes a cross-shaped intersection (2) A method for joining the intersection point of a grid structure of a fiber-reinforced plastic member, characterized in that combining the.
4. The method according to any one of claims 1 to 3,
Fiber-reinforced plastic members (11, 12) in two directions constituting the border at the giyeok-shaped (a)-shaped intersection point (15), which is the vertex where the outer edge and the outer edge of the fiber-reinforced plastic member grid structure (1) meet It characterized in that by extending the end of the edge by a predetermined length to the outside of the rim so that the intersecting point 15 in the shape of a giyeok character (a) becomes a point of intersection in the shape of a crisscross (十), the intersecting fastener (2) is coupled. Intersection bonding method of fiber-reinforced plastic member grid structure.

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