JP6846697B2 - Fastening jig and reinforcement device - Google Patents

Description

The present invention is a jig preferably used for joining a synthetic fiber rope and a building or the like when a synthetic fiber rope is used as a brace material (stripe material) or the like for reinforcing a building or the like, and this jig. Regarding the reinforcement device of the building using.

In order to reinforce wooden buildings and lightweight steel-framed buildings, it is common practice to install diagonal braces between columns and beams of the building. By installing the brace material, the strength against the horizontal shaking of the building can be improved. A hard material that does not bend or bend, such as wood or metal, is often used as the brace material, but in recent years, a material that can be freely bent or bent has also been used. Patent Document 1 describes that a reinforcing fiber such as carbon fiber or aramid fiber that can be freely curved or bent is used as a brace material. In Patent Document 1, the brace material is integrated with the joint part for joining with the structure in a state of being bent in half.

Japanese Unexamined Patent Publication No. 2003-301524

In Patent Document 1, a very fine thread bundle of reinforcing fibers is bundled in units of tens to hundreds, and an adhesive is attached to form a rope, and the surface thereof is coated to create a main body of a brace material. are doing. Therefore, the manufacturing process of the main body of the brace material is complicated, and there is a problem that the cost is increased. Further, carbon fibers and aramid fibers are lightweight and have high strength, but the fibers themselves are characterized by being weak against shearing force. If the reinforcing fiber is used as a brace material without the above-mentioned adhesive or coating, a shearing force may be applied between the reinforcing fiber and the jointed part to cut the reinforcing fiber.
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a novel method for fastening a synthetic fiber rope to a building or the like when the synthetic fiber rope is used as a reinforcing device for a building. And.

In order to solve the above problem, the invention according to claim 1 is fastened to an end of a synthetic fiber rope having a braided structure in which a plurality of strands composed of a plurality of fibers are bundled in a non-twisted state. A fastening jig for a synthetic fiber rope, which has a tapered internal space whose inner diameter gradually increases from the first end to the second end, and is said to be said from the opening on the first end side. A rope holding member as a sleeve that receives one end of a synthetic fiber rope, and one of the synthetic fiber ropes held in the rope holding member by being inserted through an opening on the second end side of the rope holding member. A wedge member inserted from an end surface into the center of the strand while maintaining the braided structure is provided, and one end of the synthetic fiber rope is formed on the tapered inner surface of the rope holding member and the wedge member. It is characterized in that it is held in a sandwiched pressure with the outer surface of the rope.

According to the present invention, both members are fastened so that the fibers constituting the synthetic fiber rope and the strands extend in the direction along the central axis direction of the wedge member (the direction of the tension acting on the synthetic fiber rope), and the synthetic fiber. It is possible to provide a novel fastening method in which the shearing force does not act on the rope as much as possible.

It is a figure which shows the use state of the rope brace which concerns on one Embodiment of this invention. It is a perspective view of the gusset which concerns on one Embodiment of this invention. It is a top view which shows the synthetic fiber rope which concerns on one Embodiment of this invention. It is a figure which shows the fastening jig which concerns on one Embodiment of this invention, (a) is the plan view which shows the state which the eye metal fitting is connected to the fastening jig, and (b) is the drawing jig. It is a top view which shows the state which the turnbuckle is connected. (A) and (b) are diagrams showing the relationship between the synthetic fiber rope and the wedge member according to the embodiment of the present invention. It is a perspective view which showed disassembled the fastening jig which concerns on 2nd Embodiment of this invention. It is a vertical cross-sectional view of the fastening jig which concerns on the 2nd Embodiment of this invention, (a) is a figure which shows the state before coupling, (b) is a figure which shows the state at the time of coupling. It is a vertical sectional view of the fastening jig which concerns on 3rd Embodiment of this invention. It is an exploded perspective view of the rope holding member which concerns on 3rd Embodiment of this invention. (A) to (d) are diagrams for explaining the procedure for assembling the fastening jig. It is a vertical sectional view of the fastening jig which concerns on 4th Embodiment of this invention. It is an exploded perspective view of the rope holding member which concerns on 4th Embodiment of this invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. However, unless otherwise specified, the components, types, combinations, shapes, relative arrangements, etc. described in this embodiment are merely explanatory examples, not the purpose of limiting the scope of the present invention to that alone. .. The same or corresponding parts in the drawings are designated by the same reference numerals, and the description thereof will not be repeated.

(First Embodiment)
The rope brace according to the first embodiment of the present invention will be described. FIG. 1 is a diagram showing a usage state of the rope brace. The rope brace according to the present embodiment is characterized in that a synthetic fiber rope is used as a member for supporting the load.
The rope brace 1 (reinforcing device) includes a gusset 10 fixed to a structure such as a building, a synthetic fiber rope 20 that supports a tensile load, and a fastening jig 100 that is fastened to each end of the synthetic fiber rope 20. The eye fitting 210 for connecting the fastening jig 100 to the gusset 10 is provided.
The rope brace 1 reinforces the structure by being arranged diagonally (bracing shape) in the frame F of the structure such as a building. Here, for example, in the frame F of the structure, two columns P (P1, P2) adjacent to each other in the horizontal direction of the structure and two beams L (lower floor beam L1, upper floor beam L2) adjacent to each other in the vertical direction are used. ) And may be included. Alternatively, it may be a frame constituting the roof of the structure.

(Gusset)
A gusset for attaching a synthetic fiber rope to a structure such as a building will be described. FIG. 2 is a perspective view of the gusset. The gusset 10 includes two mounting pieces 11 and 11 fixed to the pillar L and the beam P, respectively, and a rope connecting piece 15 arranged between the mounting pieces 11 and 11. As shown in FIG. 1, the gusset 10 is arranged at the intersection of the pillar P1 and the lower floor beam L1 or at the intersection of the pillar P2 and the upper floor beam L2.
The mounting pieces 11 and 11 are composed of substantially rectangular and flat steel plates, and the two mounting pieces 11 and 11 are combined in an L shape so that the flat plate surfaces are orthogonal to each other by welding or the like.
Each of the mounting pieces 11 and 11 is formed through a plurality of (10 in the figure) bolt holes 12 for fixing the mounting pieces 11 and 11 to the pillar P and the beam L with bolts.
The rope connecting piece 15 is made of a flat steel plate, and is welded to the two mounting pieces 11 and 11 so as to be orthogonal to both mounting pieces (that is, in a direction substantially parallel to the structural surface VP). It is attached by etc.
A connection hole 16 for attaching the eye fitting 210 is formed through the surface of the rope connection piece 15.

(Synthetic fiber rope)
FIG. 3 is a plan view showing a synthetic fiber rope.
The synthetic fiber rope 20 includes a main body portion 21 that supports a load applied in the longitudinal direction, and a covering portion 25 that covers and protects the main body portion 21.
The main body 21 is created by knitting (or bundling in a non-twisted state) a plurality of (for example, 16) strands 22 made of tens of thousands of fibers so as to have a non-rotating structure, and is a so-called braid. Is. As the fibers constituting the main body 21, at least one of aramid fibers (aromatic polyamide fibers), carbon fibers, glass fibers, and polyester fibers can be used.
Here, the aramid in the present invention is a polymer in which one or more divalent aromatic groups are directly linked by an amide bond, and the aromatic groups have two aromatic rings of oxygen. , It may be bonded with a sulfur or an alkylene group. Further, these divalent aromatic groups may contain a lower alkyl group such as a methyl group or an ethyl group, a halogen group such as a methoxy group or a chlorchi or the like. Furthermore, these amide bonds are not limited, and may be either para-type or meta-type.
Specific examples of such aramids include polyparaphenylene terephthalamide, polymetaphenylene isophthalamide, and copolyparaphenylene 3,4'-oxydiphenylene terephthalamide.

The aramid fiber is preferably a para-type aramid fiber, and is a polyparaphenylene terephthalamide fiber (for example, manufactured by Teijin Aramid VV, "Twaron", registered trademark) or a copolymerized aromatic fiber. Copolyparaphenylene, 3,4'-oxydiphenylene, and terephthalamide fibers (for example, "Technora" manufactured by Teijin Limited, registered trademark), which are polyamide fibers, can be used. Of these, it is best to use general-purpose polyparaphenylene terephthalamide fibers (“Twaron”).
The covering portion 25 protects the main body portion 21 from ultraviolet rays, protects the main body portion 21 from applying a shearing force, and the like. For example, polyester fiber can be used for the covering portion 25. Like the main body 21, the covering portion 25 is also formed by knitting (or bundling in a non-twisting state) a plurality of strands composed of a plurality of fibers so as to have a non-rotating structure, but the covering portion 25 is formed by the main body. It is knitted so that the elongation rate in the longitudinal direction is higher than that of 21.

(Fastening jig)
A fastening jig to be fastened to the end of the synthetic fiber rope will be described.
4 (a) and 4 (b) are plan views showing a fastening jig and a connecting metal fitting. FIG. 4A shows a state in which the eye fitting is connected to the fastening jig, and FIG. 4B shows a state in which the turnbuckle is connected to the fastening jig.
The fastening jig 100 receives one end of the synthetic fiber rope 20 in a tapered internal space (rope holding portion 112) extending from the first opening 110a provided at one end (first end) in the axial direction. It includes a rope holding member 110 that can be accommodated, and a wedge member 120 that is accommodated in the rope holding member 110 together with the synthetic fiber rope 20 by being inserted into the central portion of the synthetic fiber rope 20 from one end surface.

The rope holding member 110 has a sleeve shape having a first opening 110a at one end in the axial direction and a second opening 110b at the other end, and having a hollow portion penetrating in the axial direction. The rope holding member 110 includes a hollow rope holding portion 112 on one end side in the axial direction. The rope holding portion 112 has a tapered surface 112a whose inner diameter gradually increases from one end side to the other end side in the axial direction. The rope holding member 110 includes a male screw portion 114 for connecting the eye fitting 210 and the like to the outer surface on the other end side in the axial direction.

The wedge member 120 has a substantially conical shape, and is housed in the rope holding portion 112 so that the top side having a sharp tip is located at one end side (lower end side in the drawing) of the rope holding member 110 in the axial direction. Further, the outer diameter of the bottom side (base end side, upper end side in the drawing) of the wedge member 120 is larger than the inner diameter of the first opening 110a, and the wedge member 120 housed in the rope holding portion 112 has the first opening. The withdrawal from 110a is prevented.
The wedge member 120 is inserted into the center of one end of the synthetic fiber rope 20 from the top thereof, and the synthetic fiber rope 20 is pressed by sandwiching the synthetic fiber rope between its outer peripheral surface and the tapered surface 112a. It is fixed in the rope holding member 110.
At this time, the fibers and strands constituting the synthetic fiber rope are held by sandwiching pressure so as to extend in the direction along the central axis direction of the wedge member (the direction of the tension acting on the synthetic fiber rope), so that the shearing force is as much as possible. It can be incorporated so as not to receive.

(Eye metal fittings)
The eye fitting 210 for connecting the fastening jig 100 to the gusset 10 is provided with a female screw portion 212 screwed with the male screw portion 114 of the rope holding member 110 at one end in the axial direction, and the gusset at the other end in the axial direction. An eye portion 214 that is rotatably connected to the rope connecting piece 15 of 10 is provided.
The eye portion 214 is formed with an insertion hole 216 for attaching the eye metal fitting 210 to the rope connecting piece 15 by a structural pin or a bolt. With the connection hole 16 of the rope connection piece 15 of the gusset 10 and the insertion hole 216 of the eye portion 214 communicated with each other, insert a structural pin into each hole and fasten a retaining nut to the structural pin. As a result, the gusset 10 and the eye fitting 210 are integrated. Further, the eye fitting 210 is rotatably connected to the gusset 10 about the structural pin.

(Turnbuckle)
A turnbuckle (tension adjusting member) for adjusting the tension of a synthetic fiber rope will be described.
As shown in FIG. 1, the eye fitting 210 is directly connected to the fastening jig 100 provided at one end of the synthetic fiber rope 20 in the longitudinal direction, but the fastening jig 100 provided at the other end. A turnbuckle 220 (tension adjusting member) for adjusting the tension of the synthetic fiber rope 20 is inserted between the gusset 10 and the gusset 10.
As shown in FIG. 4B, the turnbuckle 220 includes a rod pipe 221 having a hollow portion penetrating in the axial direction and two connecting screw members 223 and 227 connected to each end of the rod pipe 221. To be equipped.
A left-hand thread (reverse screw) female screw portion 222L is formed at one end of the rod pipe 221 in the axial direction, and a right-hand screw (positive screw) female screw portion 222R is formed at the other end in the axial direction. .. The rod pipe 221 has a square tubular shape and can be rotated around an axis by using a hand, a tool, or the like.

The connection screw member 223 is provided with a right-hand screw (positive screw) female screw portion 224 screwed with the male screw portion 114 of the rope holding member 110 at one end in the axial direction, and the female screw portion 222L at the other end in the axial direction. It is provided with a male screw portion 226 of a left-hand screw (reverse screw) to be screwed with. Further, the intermediate portion in the axial direction is provided with a prism portion 225 that can be rotated around the axis by a tool such as a hand or a spanner.
The connection screw member 227 includes a male screw portion 228 of a right-hand screw (positive screw) screwed with the female screw portion 222R at one end in the axial direction, and a connection eye portion 229 at the other end in the axial direction. The connection eye portion 229 has the same configuration as the eye portion 214 of the eye metal fitting 210, and includes an insertion hole 229a in the plane. The connection eye portion 229 is a portion for attaching the connection screw member 227 to the gusset 10 by a structural pin or a bolt. The connection screw member 227 is attached to the gusset 10 in the same manner as the eye fitting 210 is attached to the gusset 10.

After connecting the fastening jig 100 and the gusset 10 to each end of the turnbuckle 220, the entire rope brace 1 is expanded and contracted by rotating the rod pipe 221 relative to the two connecting screw members 223 and 227. , The tension of the synthetic fiber rope 20 can be adjusted.

(How to use the rope brace)
A method of using a rope brace having the above configuration will be described.
A method of fastening the synthetic fiber rope 20 to the fastening jig 100 will be described.
First, one end of the synthetic fiber rope 20 is inserted into the rope holding portion 112 from the first opening 110a, and is once pulled out from the second opening 110b. Subsequently, the wedge member 120 is inserted from one end surface of the synthetic fiber rope 20 into the central portion thereof.

5 (a) and 5 (b) are views showing the relationship between the synthetic fiber rope and the wedge member.
When the synthetic fiber rope 20 is fastened to the fastening jig 100, as shown in FIG. 5A, the synthetic fiber rope 20 is maintained in a state where the shape of the strand 22 is maintained without untwisting the main body 21 as much as possible. The wedge member 120 is inserted into the central portion, or as shown in FIG. 5B, the twist of the main body portion 21 is untwisted to the fiber level, and then the fibers are evenly distributed around the wedge member 120. A method such as inserting the wedge member 120 into the central portion of the synthetic fiber rope 20 can be adopted. Alternatively, as an intermediate aspect of FIGS. 5A and 5B, the strand 22 is formed around the wedge member 120 after untwisting the main body 21 while holding the form of the strand 22 itself. The wedge member 120 may be inserted in the center of the synthetic fiber rope 20 so as to be evenly arranged in the rope. In order to evenly support the tensile load acting on the synthetic fiber rope 20 by the fastening jig 100 and maximize the strength, the main body 21 is untwisted but the shape of the strand 22 is maintained. , It is desirable to drive the wedge member 120.
Further, when fixing the synthetic fiber rope 20 to the fastening jig 100, only the main body portion 21 of the synthetic fiber rope 20 may be inserted into the rope holding portion 112, or the covering portion 25 and the rope holding portion 112 may be inserted. You may insert it in.
In FIG. 4, when the wedge member 120 and the synthetic fiber rope 20 covering the outer periphery thereof are moved axially toward the first opening 110a, the synthetic fiber rope 20 is placed between the wedge member 120 and the tapered surface 112a. It is sandwiched and the synthetic fiber rope 20 is fastened to the fastening jig 100. The other end of the synthetic rope 20 is treated in the same manner.

After fastening the synthetic fiber rope 20 to the fastening jig 100, the eye fitting 210 or the turnbuckle 220 is connected to the rope holding member 110 of the fastening jig 100.
As shown in FIGS. 1 and 4A, the eye fitting 210 is fastened to the rope holding member 110 of the fastening jig 100 attached to one end of the synthetic fiber rope 20 in the longitudinal direction. That is, the female screw portion 212 of the eye fitting 210 is screwed to the male screw portion 114 of the rope holding member 110 to fasten both members.
As shown in FIGS. 1 and 4B, the turnbuckle 220 is connected to the rope holding member 110 of the fastening jig 100 attached to the other end of the synthetic fiber rope 20 in the longitudinal direction. That is, the female screw portion 224 of the connection screw member 223 is screwed to the male screw portion 114 of the rope holding member 110 to fasten both members. The female threaded portion 222L of the rod pipe 221 is screwed onto the male threaded portion 226 of the connecting screw member 223. The male threaded portion 228 of the connecting screw member 227 is screwed onto the female threaded portion 222R of the rod pipe 221.

The eye portion 214 of the eye fitting 210 and the connection eye portion 229 of the connection screw member 227 attached to each end of the synthetic fiber rope 20 in the longitudinal direction are attached to the gusset 10, respectively.
Here, the gusset 10 is fixed in advance to the intersection of the pillar P1 and the lower floor beam L1 and the intersection of the pillar P2 and the upper floor beam L2. That is, both members are joined by bolts in a state where the mounting pieces 11 and 11 of the gusset 10 are in close contact with the side surfaces of the pillar P1 and the lower floor beam L1, respectively. The gusset 10 is joined to the column P2 and the upper beam L2 in the same manner. The gusset 10 is installed diagonally (in a brace) in the frame F.
The eye metal fitting 210 is attached to one of the gussets 10. That is, with the insertion hole 216 of the eye portion 214 and the connection hole 16 of the gusset 10 communicated with each other, the shaft portion of the structural pin is inserted into both holes, and a nut is inserted at the end of the shaft portion of the structural pin. By fastening, the gusset 10 and the eye fitting 210 are rotatably integrated. The connection screw member 227 of the turnbuckle 220 is attached to the other gusset 10. That is, with the insertion hole 229a of the connection screw member 227 and the connection hole 16 of the gusset 10 communicated with each other, the shaft portion of the structural pin is inserted into both holes, and a nut is inserted at the end of the shaft of the structural pin. By fastening, the gusset 10 and the connecting screw member 227 are rotatably integrated.
Finally, by rotating the rod pipe 221 of the turnbuckle 220, the synthetic fiber rope 20 is tensioned so as to have a predetermined tension.

(effect)
In this embodiment, a synthetic fiber rope is used as the brace. Synthetic fiber ropes are extremely lightweight and flexible, so they can be stored and transported in a very compact form, such as in a bent or rolled state. Therefore, the rope brace according to the present embodiment can be easily carried in and installed in a narrow place.
Further, since the synthetic fiber rope can be used by cutting it to a desired length with a cutter knife, the length can be easily adjusted according to the installation location.
When the above-mentioned single rope brace is installed diagonally in the frame shown in FIG. 1, the wall magnification can be increased to the equivalent of 2.0 times. Although the rope brace is lightweight and compact, a high reinforcing effect can be obtained.
The rope brace can be used not only for wooden buildings but also for steel-framed buildings. In addition, the rope brace can be installed not only inside the wall of the building but also on the roof and other places. Of course, the building may be new or existing.

Since the synthetic fiber rope is connected to the fastening member without bending or bending, it is possible to prevent the synthetic fiber rope from being subjected to a shearing force as much as possible. That is, the synthetic fiber rope used for the rope brace is lightweight and has high strength, but the fiber itself is vulnerable to shearing force. In the present embodiment, both members are connected so that the fibers and strands (direction of tension acting on the synthetic fiber rope) constituting the synthetic fiber rope extend in the direction along the axial direction of the fastening member for fastening the synthetic fiber rope. Since the shearing force is prevented from acting on the synthetic fiber rope as much as possible, the breakage of the synthetic fiber rope can be prevented without reinforcing the synthetic fiber rope with an adhesive or a coating agent.
When fixing the synthetic fiber rope using a wedge member, it is desirable to avoid concentration of tensile stress on a part of the synthetic fiber rope in order to fully exert the ability of the synthetic fiber rope.
In order to avoid the concentration of tensile stress, it is conceivable to increase the contact area between the synthetic fiber rope and the inner peripheral surface of the sleeve or the outer peripheral surface of the wedge member. To increase the contact area, it is conceivable to increase the inner diameter of the sleeve and the outer diameter of the wedge member, or to extend the axial length. Further, by designing the inner shape of the sleeve and the outer shape of the wedge member so that the taper angle becomes smaller, it is possible to avoid the concentration of tensile stress.
Further, at least one of the tapered surface and the outer peripheral surface of the wedge member is coated with an elastically deformable rubber resin or the like in advance, or the synthetic fiber rope is coated with a tube or tape formed of the elastically deformable rubber resin or the like. By doing so, the stress concentration can be relaxed.

(Second embodiment)
The reinforcing device according to the second embodiment of the present invention will be described. FIG. 6 is an exploded perspective view of the fastening jig according to the second embodiment of the present invention. 7A and 7B are vertical cross-sectional views of the fastening jig according to the second embodiment of the present invention, in which FIG. 7A shows a state before bonding and FIG. 7B shows a state at the time of bonding.
The fastening jig according to the present embodiment includes a sleeve-shaped rope holding member whose diameter is reduced by an external force, and a pressure member which pressurizes and reduces the diameter of the rope holding member by being mounted on the outside of the rope holding member. It is characterized by points. Since the members other than the fastening jig are the same as those in the first embodiment, the description thereof will not be particularly described.

The fastening jig 300 is always in an expanded state, and has a variable diameter portion 314 (first end portion) that can be elastically or plastically reduced in diameter by an external force and a fixed diameter portion 318 (the first end portion) having a fixed inner diameter. A rope holding member 310 as a sleeve having a second end) and receiving one end of the synthetic fiber rope 20 from the first opening 310a on the variable diameter portion 314 side, and a fixed diameter portion 318 side of the rope holding member 310. The wedge member 120, which is inserted into the center of the synthetic fiber rope 20 held in the rope holding member 310 by being inserted through the second opening 310b, and the wedge member 120 are supported inside the rope so as to be rotatable relative to each other. In addition, the rope holding member 310 is provided with a pressurizing member 330 which is mounted on the outer surface of the rope holding member 310 on the fixed diameter portion 318 side to pressurize and reduce the diameter of the variable diameter portion 314.

(Rope holding member)
The rope holding member 310 has a sleeve shape having a first opening 310a at one end in the axial direction and a second opening 310b at the other end in the axial direction, and a rope holding portion 312 which is a hollow space penetrating in the axial direction.
The rope holding member 310 includes a variable diameter portion 314 whose diameter is reduced by an external force at one end in the axial direction, and a fixed diameter portion 318 whose inner and outer diameters are fixed at the other end in the axial direction.
The variable diameter portion 314 may be elastically deformable so as to return to the original shape if the external force is removed after the diameter is reduced by the external force, or the variable diameter portion 314 is plastically deformed when the diameter is reduced by the external force, and the original shape is removed even if the external force is removed. It may be a plastic structure that does not return to the shape of.

On the side surface of the variable diameter portion 314, one or a plurality of slits (or cut lines) 315 extending from one end edge in the axial direction toward the other end and communicating the inside and outside of the hollow portion are formed.
By forming the slit 315, the variable diameter portion 314 is formed with one or a plurality of engaging pieces 316 that hold the synthetic fiber rope 20 by sandwiching it with the wedge member 120.
The variable diameter portion 314 has a wide slit 315 (or each engaging piece 316 is located on the outer diameter side) at all times (when no external force is applied). The inner and outer diameters are expanded and the diameter is expanded. The variable diameter portion 314 is compressed in the inner diameter direction by an external force (or each engaging piece 316 is pressed toward the inner diameter side), so that the width of the slit 315 is narrowed and the inner and outer diameters are reduced. It becomes a state.

The slit 315 shown in FIG. 6 is formed linearly along the axial direction from one end edge in the axial direction of the rope holding member 310, but the slit 315 can reduce the inner and outer diameters of the variable diameter portion 314. If it has a shape, it may be formed in a direction inclined with respect to the axial direction of the rope holding member 310 (for example, a spiral shape or a jagged shape).

In the hollow portion of the rope holding member 310 corresponding to the variable diameter portion 314, the rope holding that receives and holds one end of the synthetic fiber rope 20 from the first opening 310a formed on one end surface in the axial direction of the rope holding member 310. Part 312 is formed.
When the variable diameter portion 314 is reduced in diameter, a tapered surface 312a whose inner diameter gradually increases from one end to the other end in the axial direction is formed on the inner peripheral surface of the rope holding portion 312.
When the variable diameter portion 314 is reduced in diameter, the end faces adjacent to each other in the circumferential direction of the engaging piece 316 do not necessarily have to be in close contact with each other, and a minute gap may be formed.
A male screw portion 319 (fastening portion) for fastening the pressurizing member 330 is formed on the outer peripheral surface of the fixed diameter portion 318.

(Pressurized member)
The pressurizing member 330 is a bottomed tubular member having a first opening 330a formed at least on one end surface in the axial direction, and has a hollow wedge accommodating portion 332 accommodating the wedge member 120 on one end side in the axial direction. A solid prismatic portion 334 is provided in the middle portion, and a male screw portion 336 that is screwed to the female screw portion 212 of the eye fitting 210 or the female screw portion 224 of the connection screw member 223 is provided on the other end side. The male screw portion 336 has the same configuration as the male screw portion 114 (FIG. 4) included in the rope holding member 110 of the first embodiment.

The wedge accommodating portion 332 accommodates the wedge member 120 so that the top side of the wedge member 120 is one end side in the axial direction (first opening 330a side). The pressure member 330 uses the inner bottom surface 332a of the wedge accommodating portion 332 to set the bottom side (base end side) of the wedge member 120 so that the wedge member 120 can rotate relative to the axis and move forward and backward in the axial direction. To support.
For example, a coil spring 338 is attached to the inner bottom surface 332a. By inserting the bottom side (base end side) of the wedge member 120 into the hollow inside of the coil spring 338, the pressurizing member 330 supports the wedge member 120 so as to be able to rotate relative to the axis and move forward and backward in the axial direction.
The inner surface of the wedge accommodating portion 332 on one end side in the axial direction is a pressurizing surface 332b (pressurizing portion) that pressurizes the variable diameter portion 314, and the inner surface on the other end side in the axial direction is screwed into the male screw portion 319 of the rope holding member 310. A female threaded portion 340 to be worn is formed.

The pressurizing member 330 receives the rope holding member 310 into the wedge accommodating portion 332 from the other end side in the axial direction from the first opening 330a provided at one end in the axial direction. The pressurizing member 330 pressurizes each engaging piece 316 of the rope holding member 310 in the inner diameter direction by the pressurizing surface 332b in the process of receiving the rope holding member 310 in the wedge accommodating portion 332. That is, the pressurizing member 330 is fitted to the outside of the rope holding member 310.
In the process of inserting the rope holding member 310 into the wedge accommodating portion 332, the wedge member 120 is inserted into the rope holding portion 312 through the second opening 310b of the rope holding member 310. As a result, the wedge member 120 is inserted into the central portion of the synthetic fiber rope 20 held in the rope holding portion 312 from one end surface thereof.
The inner diameter of the wedge accommodating portion 332 may be constant in the axial direction, but the inner diameter may be gradually decreased or gradually increased from one end to the other end. The wedge accommodating portion 332 may reduce the diameter of the variable diameter portion 314 when the rope holding member 310 is received from the first opening 330a of the pressurizing member 330.
The prism portion 334 has a hexagonal column shape that engages with, for example, a spanner or the like, and makes it possible to rotate the pressurizing member 330 about an axis while the prism portion 334 is fitted to the spanner or the like.

(How to use the fastening jig)
A method of using the fastening jig having the above configuration will be described.
One end of the synthetic fiber rope 20 (FIG. 3) is inserted from the first opening 310a into the rope holding portion 312 of the rope holding member 310. The synthetic fiber rope 20 in a state where the covering portion 25 is not peeled off may be inserted into the rope holding member 310, or the covering portion 25 may be peeled off and only the main body portion 21 may be inserted. Further, the main body 21 may be in a state where each strand 22 maintains its shape as shown in FIG. 5 (a), or is unraveled to the fiber level as shown in FIG. 5 (b). It may be in a state of being
Subsequently, the rope holding member 310 is fastened to the pressurizing member 330. That is, the rope holding member 310 is inserted into the wedge accommodating portion 332 from the other end side (fixed diameter portion 318 side) in the axial direction through the first opening 330a of the pressurizing member 330. In the process of inserting the rope holding member 310 into the wedge accommodating portion 332, each engaging piece 316 of the rope holding member 310 comes into contact with the pressure surface 332b, and the inner and outer diameters of the variable diameter portion 314 are reduced.
Further, the wedge member 120 is inserted into the central portion of the synthetic fiber rope 20 from one end surface in the process of inserting the rope holding member 310 into the wedge accommodating portion 332. Since the wedge member 120 is supported by the inner bottom surface 332a so as to be relatively rotatable around the axis, the wedge member 120 rotates relative to the pressure member 330 in the process of being inserted into the synthetic fiber rope 20, and the synthetic fiber. Prevents the shape of the rope 20 from collapsing.
When the female threaded portion 340 of the pressurizing member 330 is fastened to the male threaded portion 319 of the rope holding member 310, the inner diameter gradually increases in the rope holding portion 312 of the rope holding member 310 from one end side in the axial direction toward the other end. The tapered surface 312a is completed. In this state, by pulling the synthetic fiber rope 20 toward one end in the axial direction (in the direction of pulling out the synthetic fiber rope 20 from the rope holding portion 312), the wedge member 120 moves to the one end side in the axial direction together with the synthetic fiber rope 20. Then, the synthetic fiber rope 20 is firmly held by being pinched between the tapered surface 312a and the wedge member 120.

(effect)
As described above, according to the present embodiment, since the wedge member is integrated with the pressurizing member, it is possible to prevent the wedge member from being lost. Further, since the inner diameter of the rope holding member on one end side in the axial direction is increased before the pressure member is attached, there is an advantage that the synthetic fiber rope can be easily inserted.
When inserting the synthetic fiber rope into the rope holding member, it is desirable to cover one end of the synthetic fiber rope with a tube or tape. By taking the above measures, it is possible to prevent the synthetic fiber rope from protruding from the slit to the outside when the diameter of the rope holding member is reduced, and to prevent the fibers constituting the synthetic fiber rope from being cut. If a tube or tape formed of a material such as a rubber-based resin that elastically deforms when the above measures are taken, local stress concentration on the synthetic fiber rope can be alleviated, and the synthetic fiber rope and the tapered surface can be relaxed. It is possible to increase the frictional force with and to improve the holding force of the synthetic fiber rope by the rope holding portion.

(Third embodiment)
The fastening jig for the synthetic fiber rope according to the third embodiment of the present invention will be described. FIG. 8 is a vertical cross-sectional view of the fastening jig according to the third embodiment of the present invention. FIG. 9 is an exploded perspective view of the rope holding member according to the third embodiment of the present invention. The fastening jig according to the present embodiment is characterized in that the rope holding member is composed of a plurality of divided pieces divided along the axial direction.
The fastening jig 400 is provided at one end of the synthetic fiber rope 20 in a tapered bottomed internal space (rope holding portion 412) extending from the first opening 410a provided at one end (first end) in the axial direction. It includes a rope holding member 410 that receives the rope, and a wedge member 120 that is accommodated in the rope holding portion 412 together with the synthetic fiber rope 20 by being inserted into the central portion of the synthetic fiber rope 20 from one end surface. The rope holding member 410 in the present embodiment is composed of a plurality of divided pieces 420 (420a, 420b) divided along the axial direction including the rope holding portion 412.

(Rope holding member)
The rope holding member 410 is provided with a rope holding portion 412 inside one end side in the axial direction, and is provided with a male screw portion 414 (connected portion) for indirectly connecting the eye metal fitting 210 to the outside on the other end side.
The rope holding portion 412 is a bottomed hollow portion extending from the first opening 410a provided at one end (first end) in the axial direction. The rope holding portion 412 is formed with a tapered surface 412a whose inner diameter gradually increases from one end to the other in the axial direction. The rope holding portion 412 receives one end of the synthetic fiber rope 20 in which the wedge member 120 is inserted.
The tapered surface 412a holds the synthetic fiber rope 20 by sandwiching it with the wedge member 120.
The rope holding member 410 is formed by two divided pieces 420a and 420b divided in two along the axial direction. The rope holding member 410 is divided into two by a plane including the axial center and extending along the axial direction. The number of divided pieces forming the rope holding member 410 may be 3 or more. In this example, the entire rope holding member 410 including the male screw portion 414 is divided into two parts, but the rope holding member 410 is divided so that the entire male screw portion 414 is provided in one of the divided pieces. May be good.
Of the divided pieces 420a and 420b, both parts are divided into a portion avoiding the rope holding portion 412 and the male screw portion 414, specifically, both ends in the width direction (diameter direction) with the rope holding portion 412 sandwiched between them. A fastening hole 416 (fastening portion) for integrating the pieces 420a and 420b is formed. The hole of one split piece 420a is a through hole 416a through which the shaft portion of the bolt 418 is inserted, and the hole of the other split piece 420b is formed by a female screw for screwing the shaft portion of the bolt 418 protruding from the through hole 416a. It is a screw hole 416b that has been made.

(how to use)
The method of assembling the fastening jig will be described.
10 (a) to 10 (d) are views for explaining the procedure for assembling the fastening jig. For convenience of explanation, the description of the synthetic fiber rope in the rope holding member is omitted in FIGS. 10 (c) and 10 (d).
First, as shown in FIG. 10A, the wedge member 120 is driven into the center of the synthetic fiber rope 20 from one end surface in the longitudinal direction. At this time, the fibers and strands of the fiber rope are evenly arranged on the outer peripheral surface of the wedge member.
As shown in FIG. 10B, one end of the driven synthetic fiber rope 20 of the wedge member 120 in the longitudinal direction is housed in the rope holding portion 412 on the split piece 420b side together with the wedge member. At this time, in order to prevent the fibers from shearing due to the synthetic fiber rope 20 protruding from the rope holding portion 412 and to facilitate the storage in the rope holding portion 412, the synthetic fiber rope 20 and the wedge member 120 are axially oriented. It is arranged so as to be located closer to the other end of the rope, that is, both members are located on the large diameter side of the rope holding portion 412.
As shown in FIG. 10C, the split pieces 420a are fastened to the split pieces 420b with bolts 418 to form a rope holding member 410 in which both the split pieces 420a and 420b are integrated. That is, as shown in FIG. 9, the through hole 416a of the split piece 420a and the screw hole 416b of the split piece 420b are communicated with each other, and the bolt 418 is screwed into the screw hole 416b to integrate the two split pieces into a rope. The holding member 410 is formed.
Finally, as shown in FIG. 10D, the synthetic fiber rope 20 is pulled to one end side in the axial direction (in the direction of pulling out the synthetic fiber rope 20 from the fastening jig 400), and the synthetic fiber rope 20 and the wedge member are first placed. Move to the opening 410a side. By moving the wedge member 120 together with the synthetic fiber rope 20 toward the first opening 410a in the rope holding portion 412, the distance between the side surface of the wedge member 120 and the tapered surface 412a becomes narrower, and the wedge member 120 and the tapered surface 120a become The synthetic fiber rope 20 can be held between the two.

As shown in FIG. 8, the eye fitting 210 is connected to the male screw portion 414 of the fastening jig 400, or the connection screw member 223 of the turnbuckle 220 shown in FIG. 4B is connected.
Other usage methods are the same as those in the first embodiment.

(effect)
According to the present embodiment, since the rope holding member is composed of a plurality of divided pieces divided along the axial direction, the rope can be used even if the internal vacant space is a bottomed vacant space whose second end side is closed. The holding portion can be opened, and the synthetic fiber rope and the wedge member can be inserted into the rope holding portion. Since the synthetic fiber rope can be accommodated in the rope holding portion without inserting one end of the synthetic fiber rope from the first opening, the work related to the accommodation of the synthetic fiber rope becomes simple. Further, when the synthetic fiber rope is housed in the rope holding portion, it is possible to avoid a problem that the end face of the synthetic fiber rope comes into contact with the first opening and is separated.
When inserting the synthetic fiber rope into the rope holding member, it is desirable to cover one end of the synthetic fiber rope with a tube or tape as in the second embodiment.

(Fourth Embodiment)
The fastening jig for the synthetic fiber rope according to the fourth embodiment of the present invention will be described. FIG. 11 is a vertical cross-sectional view of the fastening jig according to the fourth embodiment of the present invention. FIG. 12 is an exploded perspective view of the rope holding member according to the fourth embodiment of the present invention.
In the fastening jig according to the present embodiment, the rope holding member is composed of a plurality of divided pieces divided along the axial direction, and the connecting member for connecting the eye fittings and the like is a member independent of the divided pieces. There is a feature in. Hereinafter, the description of the same configuration as that of the third embodiment will be omitted.
The rope holding member 510 of the fastening jig 500 communicates with the outside by a second opening 510b provided on the other end side (second end side) in the axial direction, and is a hollow connection having an inner diameter larger than that of the second opening 510b. A member holding portion 512 is provided. The fastening jig 500 is a male screw portion 522 (connected) that is exposed to the outside from the locked portion 521 and the second opening 510b that are locked in the connecting member holding portion 512 and is connected to the eye fitting 210 or the turnbuckle 220. Part) The connecting member 520 provided is provided.
Further, the rope holding member 510 is composed of a plurality of divided pieces 530 (530a, 530b) divided along the axial direction including the rope holding portion 412 and the connecting member holding portion 512.

(Rope holding member)
The rope holding member 510 includes a hollow rope holding portion 412 at one end in the axial direction and a hollow connecting member holding portion 512 at the other end. The rope holding portion 412 communicates with the external space through the first opening 410a, and the connecting member holding portion 512 communicates with the external space through the second opening 510b. In this example, both holding portions are in communication with each other, and the rope holding member 510 has a shape penetrating in the axial direction. Both holding portions may be non-communication.
The inner diameter of the connecting member holding portion 512 is formed to be larger than the inner diameter of the second opening 510b. The connecting member holding portion 512 shown in this example includes a tapered locking surface 512a whose inner diameter gradually increases from the other end in the axial direction toward one end. The inner surface shape of the connecting member holding portion 512 is a rotating body shape centered on the axis of the rope holding member 510.

(Connecting member)
The connecting member 520 includes a locked portion 521 that is accommodated and locked in the connecting member holding portion 512 at one end in the axial direction, and a male screw that is screwed to the eye metal fitting 210 or the turnbuckle 220 at the other end. The unit 522 is provided. Further, the connecting member 520 includes a prism portion 523 between the locked portion 521 and the male screw portion 522. The prismatic portion 523 is, for example, a hexagonal columnar shape, and when screwing the eye metal fitting 210 or the turnbuckle 220 to the male screw portion 522, a tool such as a hand or a spanner is used to connect the eye metal fitting 210 or the turnbuckle 220 to the connecting member 520. Relative rotation can be prevented.
The locked portion 521 shown in this example is provided with a tapered locked surface 521a whose outer diameter gradually increases from an intermediate portion in the axial direction toward one end portion on its outer surface. The locked surface 521a is a portion locked to the locking surface 512a. The locked portion 521 is a truncated cone, that is, a rotating body, and has a shape that engages with the locking surface 512a of the connecting member holding portion 512.
The outer diameter of the locked portion 521 is larger than the inner diameter of the second opening 510b. That is, the outer diameter of the locked portion 521 is larger than the outer diameter of the axial intermediate portion (or the male screw portion 522 located at the other end in the axial direction). When the locked portion 521 is held in the connecting member holding portion 512, the locked portion 521 cannot pass through the second opening 510b, so that the rope holding member 510 prevents the connecting member 520 from coming off.
The connecting member 520 may be provided with a portion corresponding to the eye portion 214 of the eye fitting 210 shown in FIG. 4 instead of the male screw portion 522, and the connecting member may be directly connected to the gusset 10.

(how to use)
The method of assembling the fastening jig is almost the same as that of the third embodiment (FIG. 10). The difference between this embodiment and the third embodiment is that when the synthetic fiber rope 20 driven by the wedge member 120 is housed in the rope holding portion 412 (FIG. 10B), the connecting member 520 is engaged. The point is that the stop portion 521 is housed in the connecting member holding portion 512 of the divided piece 530b.
As shown in the exploded perspective view of FIG. 12, after arranging the wedge member 120, the synthetic fiber rope 20, and the connecting member 520 on the split piece 530b, the two split pieces 530a and 530b are fastened with bolts 418 to hold the rope. Form member 510. The male screw portion 522 of the connecting member 520 projects to the other end side in the axial direction of the rope holding member 510 via the second opening 510b. Here, since the outer diameter of the locked portion 521 of the connecting member 520 is larger than the inner diameter of the second opening 510b, the connecting member 520 held in the connecting member holding portion 512 is pulled out to the other end side in the axial direction. Even so, since the tapered locked surface 521a is locked to the tapered locking surface 512a, the connecting member 520 cannot be separated from the rope holding member 510.

(effect)
In the third embodiment, since the rope holding member including the male screw portion is divided into two along the axial direction, the screw thread is displaced when the two divided pieces are integrated, and other components such as a connecting rod and the like are used. There was a risk that it would be difficult to screw it to the member. In the present embodiment, since the divided piece and the connecting member are separate members, the connecting member can be a component that is not divided in the axial direction. Therefore, since the threads of the connecting member are not discontinuous, the connection accuracy with other members such as the connecting rod can be maintained, and the screwing is easy.
Further, the locking surface of the connecting member holding portion and the locked surface of the connecting member have a rotating body shape that engages with each other, and the load acting between them is evenly distributed in the circumferential direction. Effectively prevents uneven wear and breakage.

(Summary of Examples of Embodiments of the Present Invention, Actions, and Effects)
The synthetic fiber rope fastening jig 100 according to the first aspect is a synthetic fiber rope that fastens a plurality of strands 22 composed of a plurality of fibers to the end of the synthetic fiber rope 20 in which the plurality of strands 22 are bundled in a non-twisted state. A fastening jig having a tapered internal space (rope holding portion 112) whose inner diameter gradually increases from the first end to the second end, and an opening on the first end side (rope holding portion 112). The rope holding member 110 as a sleeve that receives one end of the synthetic fiber rope from the first opening 110a) and the rope holding member by being inserted through the opening (second opening 110b) on the second end side of the rope holding member. It is characterized by including a wedge member 120 inserted into a central portion of the synthetic fiber rope held inside from one end surface thereof.
According to such a configuration, both members are fastened so that the fibers and strands constituting the synthetic fiber rope extend in the direction along the central axis direction of the wedge member (the direction of the tension acting on the synthetic fiber rope). Since the shearing force does not act on the synthetic fiber rope as much as possible, it is possible to prevent the synthetic fiber rope from being broken.

The synthetic fiber rope fastening jig 100 according to the second aspect is a synthetic fiber rope that fastens a plurality of strands 22 composed of a plurality of fibers to the end of the synthetic fiber rope 20 in which the plurality of strands 22 are bundled in a non-twisted state. A fastening jig, a first end (variable diameter part 314) that is always in an expanded state and can be elastically reduced in diameter by an external force, and a second end (fixed diameter) with a fixed inner diameter. A rope holding member 310 as a sleeve that includes a portion 318) and receives one end of a synthetic fiber rope from an opening on the first end side (first opening 310a), and a second end side of the rope holding member. By inserting through the opening (second opening 310b), the wedge member 120 inserted into the center of the synthetic fiber rope held in the rope holding member from one end surface thereof and the wedge member are rotatably supported inside. At the same time, the rope holding member is provided with a pressurizing member 330 which is attached to the outer surface of the rope holding member on the second end side and pressurizes the first end side to reduce the diameter.
According to such a configuration, both members are fastened so that the fibers and strands constituting the synthetic fiber rope extend in the direction along the central axis direction of the wedge member (the direction of the tension acting on the synthetic fiber rope). Since the shearing force does not act on the synthetic fiber rope as much as possible, it is possible to prevent the synthetic fiber rope from being broken.
Further, in the rope holding member according to this embodiment, since the inner diameter on one end side in the axial direction (inner diameter of the variable diameter portion 314) is increased before the pressurizing member is mounted, the synthetic fiber rope is contained in the rope holding member. Has the advantage of being easy to insert.

The synthetic fiber rope fastening jig 400 according to the third aspect is a synthetic fiber rope that fastens a plurality of strands 22 composed of a plurality of fibers to the end of the synthetic fiber rope 20 in which the plurality of strands 22 are bundled in a non-twisted state. A fastening jig, a wedge member 120 inserted from one end surface of a synthetic fiber rope into the center thereof, and a tapered internal space (rope) extending from an opening (first opening 410a) provided at the first end. A rope holding member 410 for receiving one end of a synthetic fiber rope containing a wedge member in the holding portion 412) is provided, and the rope holding member is divided along an axial direction including an internal space. It is characterized in that it is composed of the divided pieces 420a and 420b.
According to such a configuration, both members are fastened so that the fibers and strands constituting the synthetic fiber rope extend in the direction along the central axis direction of the wedge member (the direction of the tension acting on the synthetic fiber rope). Since the shearing force does not act on the synthetic fiber rope as much as possible, it is possible to prevent the synthetic fiber rope from being broken.
Further, in the rope holding member according to this aspect, since the rope holding member is divided into a plurality of divided pieces along the axial direction, the rope holding portion can be opened. Since the synthetic fiber rope can be accommodated in the rope holding portion without inserting one end of the synthetic fiber rope from the first opening, the work related to the accommodation of the synthetic fiber rope becomes simple. Further, when the synthetic fiber rope is housed in the rope holding portion, it is possible to avoid a problem that the end face of the synthetic fiber rope comes into contact with the first opening and is separated.

In the synthetic fiber rope fastening jig 400 according to the fourth aspect, the internal space (rope holding portion 412) is a bottomed space in which the second end side of the rope holding member 410 is closed, and the rope is held. A connected portion (male threaded portion 414) that directly or indirectly connects to the structure is formed on the second end side of the member.
In this embodiment, since the rope holding member is composed of a plurality of divided pieces divided along the axial direction, the rope holding portion can be used as a bottomed vacant space whose second end side is closed. Can be opened, and a synthetic fiber rope and a wedge member can be inserted into the rope holding portion. The divided piece may have a structure in which the entire rope holding member including the connected portion is divided into two, or the entire connected portion may be provided in only one divided piece.

The synthetic fiber rope fastening jig 500 according to the fifth aspect communicates with the external space by the second opening 510b provided at the second end of the rope holding member 510, and directly or indirectly with respect to the structure. A connecting member holding portion 512 for holding a part of the connecting member 520 to be specifically connected is provided, and the inner diameter of the connecting member holding portion is larger than the inner diameter of the second opening.
In the present embodiment, since the divided piece and the connecting member are separate members, the connecting member can be a component that is not divided in the axial direction. Therefore, even if a member having threads is used as the connecting member, the threads do not become discontinuous, so that the connection accuracy with other members can be maintained.

The structure reinforcing device (rope brace 1) according to the sixth aspect is a structure reinforcing device that reinforces the structure by being arranged diagonally in the frame F of the structure, and is a plurality of structure reinforcing devices. A synthetic fiber rope 20 in which a plurality of strands 22 made of fibers are bundled in a non-twisted state, fastening jigs 100 to 500 fastened to each end of the synthetic fiber rope in the axial direction, and a second fastening jig of each fastening jig. It is provided with a connecting member (gusset 10, eye fitting 210) for connecting the end side of the rope to the frame, and a tension adjusting member (turn buckle 220) for adjusting the tension of the synthetic fiber rope connected to the frame. It is characterized by that.
The reinforcing device having such a configuration can enjoy the effect provided by the fastening jig of each of the above embodiments.

The structure reinforcing device (rope brace 1) according to the seventh aspect includes a gusset 10 attached to the frame F, and the gusset freely rotates the synthetic fiber rope 20 about an axis intersecting the longitudinal direction thereof. It is characterized by supporting such as.
The reinforcing device having such a configuration can enjoy the effect provided by the fastening jig of each of the above embodiments.

1 ... Rope brace, 10 ... Gasset, 20 ... Synthetic fiber rope, 100 ... Fastening jig, 110 ... Rope holding member, 120 ... Wedge member, 210 ... Eye metal fittings, 220 ... Turnbuckle, 230 ... Eye metal fittings, 300 ... Fastening Jig, 310 ... Rope holding member, 330 ... Pressurizing member, 400 ... Fastening jig, 410 ... Rope holding member, 420a, 420b ... Divided piece, 430 ... Connecting rod, 440 ... Connecting screw member, 500 ... Fastening jig 510 ... Rope holding member, 520 ... Connecting member, 530a, 530b ... Divided piece

Claims (7)

A fastening jig for a synthetic fiber rope that fastens a plurality of strands composed of a plurality of fibers to the end of a synthetic fiber rope having a braided structure in which a plurality of strands are bundled in a non-twisted state.
As a sleeve that has a tapered internal space whose inner diameter gradually increases from the first end to the second end and receives one end of the synthetic fiber rope from the opening on the first end side. Rope holding member and
By inserting through the opening on the second end side of the rope holding member, the center of the synthetic fiber rope held in the rope holding member in a state where the braid structure of the strand is maintained from one end surface. The wedge member to be inserted into the part and
Equipped with a,
A fastening jig for a synthetic fiber rope, characterized in that one end of the synthetic fiber rope is held by being pinched between the tapered inner surface of the rope holding member and the outer surface of the wedge member. A jig for fastening a synthetic fiber rope that fastens a plurality of strands composed of a plurality of fibers to the end of a synthetic fiber rope bundled in a non-twisted state.
It is provided with a first end portion that is always in an expanded state and can be elastically reduced in diameter by an external force, and a second end portion having a fixed inner diameter, and the synthesis is performed from the opening on the first end side. A rope holding member as a sleeve that accepts one end of the fiber rope,
A wedge member inserted into the center of the synthetic fiber rope held in the rope holding member by being inserted through the opening on the second end side of the rope holding member.
A pressure member that internally rotatably supports the wedge member and is mounted on the outer surface of the rope holding member on the second end side to pressurize and reduce the diameter of the first end side.
A jig for fastening synthetic fiber ropes, which is characterized by being equipped with. A fastening jig for a synthetic fiber rope that fastens a plurality of strands composed of a plurality of fibers to the end of a synthetic fiber rope having a braided structure in which a plurality of strands are bundled in a non-twisted state.
A wedge member inserted into the center of the synthetic fiber rope while maintaining the braid structure of the strand from one end surface of the synthetic fiber rope.
A rope holding member for receiving one end of the synthetic fiber rope containing the wedge member in a tapered internal space extending from an opening provided at the first end.
The rope holding member is composed of a plurality of divided pieces divided along the axial direction including the internal space .
A fastening jig for a synthetic fiber rope, characterized in that one end of the synthetic fiber rope is held by being pinched between the tapered inner surface of the rope holding member and the outer surface of the wedge member. The internal vacant space is a bottomed vacant space in which the second end side of the rope holding member is closed.
The synthetic fiber rope according to claim 3, wherein a connected portion that directly or indirectly connects to the structure is formed on the second end side of the rope holding member. Fastening jig. A jig for fastening a synthetic fiber rope that fastens a plurality of strands composed of a plurality of fibers to the end of a synthetic fiber rope bundled in a non-twisted state.
A wedge member inserted from one end surface of the synthetic fiber rope into the center thereof,
A rope holding member for receiving one end of the synthetic fiber rope containing the wedge member in a tapered internal space extending from an opening provided at the first end.
The rope holding member is composed of a plurality of divided pieces divided along the axial direction including the internal space.
A connecting member holding portion that communicates with the external space by a second opening provided at the second end of the rope holding member and holds a part of the connecting member that is directly or indirectly connected to the structure. provided, the fastening jig synthetic fiber rope you characterized in that the inner diameter of the connecting member holding portion is larger in diameter than the inner diameter of the second opening. A structure reinforcing device that reinforces the structure by being arranged diagonally in the frame of the structure.
A synthetic fiber rope in which multiple strands consisting of multiple fibers are bundled in a non-twisted state,
The fastening jig according to any one of claims 1 to 5, which is fastened to each end of the synthetic fiber rope in the axial direction.
A connecting member that connects the second end side of each fastening jig to the frame, respectively.
A structure reinforcing device including a tension adjusting member for adjusting the tension of the synthetic fiber rope connected to the frame. The structure according to claim 6, further comprising a gusset attached to the frame, the gusset supporting the synthetic fiber rope so as to freely rotate about an axis intersecting its longitudinal direction. Reinforcing device.

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