KR102278094B1 - Wire rope installation module of aerial glide system and aerial glide system thereof - Google Patents

Abstract

The present invention relates to an aerial glide system. In accordance with the present invention, a wire rope installation module of an aerial glide system comprises: first fastening units (110, 210) which have first fastening holes (112c, 212c) fastened with a wire rope, and which come in contact with one side surface of wood pillars (10, 20); second fastening units (120, 220) which have second fastening holes (122c, 222c) fastened with the wire rope (30), and which come in contact with the other side surface of the wood pillars (10, 20) to face the first fastening units (110, 210) with the wood pillars (10, 20) in the middle; and tightening members (130, 230) which simultaneously tighten the first fastening units (110, 210) and the second fastening units (210, 220) to pull the first fastening units (110, 210) and the second fastening units (210, 220) toward each other, and which allow the first fastening units (110, 210) and the second fastening units (210, 220) to compress and fasten the wood pillars (10, 20). The wire rope (30) is simultaneously fastened with the first fastening holes (112c, 212c) of the first fastening units (110, 210) and the second fastening holes (122c, 222c) of the second fastening units (210, 220). Accordingly, the present invention is able to protect and reinforce the wood pillars at the same time.

Description

Wire rope installation module of aerial glide system and aerial glide system thereof

The present invention relates to an aerial glide system, and more particularly, to a wire rope installation module of an aerial glide system and an aerial glide system, which are suitable for protecting wooden posts and enabling convenient and quick installation of wire ropes.

In general, aerial glide systems are known, so-called ziplines, zip wires, aerial passages or aerial rope slides.

This aerial glide system consists of two pillars, an inclined wire rope connecting the pillars, and a trolley suspended on the wire rope, and a user (rod) is suspended on the trolley to slide by gravity.

A metal steel pipe and a wooden wooden post are used for the columns used in the aerial glide system. Among steel pipes and wooden columns, the use of eco-friendly wooden columns is increasing in recent years.

Conventionally, as a method of installing a wire rope on a wooden pole, there is a method of forming a through-hole in the wooden pole and connecting the through-hole by installing a computerized bolt.

Alternatively, after winding a wire or chain of iron on a wooden pole, a method of connecting a wire rope to the wound wire or chain was used.

However, the method of connecting the wire rope to the wooden column according to the prior art had the following problems.

First, when a through hole is drilled in a wooden column, the wooden column may be weakened, and there is a problem that cracks or deformation of the column occur depending on the formation of the through hole.

As such, when deformation or cracks occur in the wooden pole, the strength of the wooden pole is weakened, which may cause safety problems.

In addition, in the method of winding a chain or wire on a wooden pole and connecting it, if the tension of the wire rope acts on the chain or wire wound on the wooden pole, a groove is made in the wooden pole, causing damage to the wooden pole and weakening the strength. have.

Document 1: Registered Patent Publication No. 10-1613486 (Announcement Date: 2016.04.19) Document 2: Registered Patent Publication No. 10-1541102 (Announcement date: 2015.07.31)

The present invention was created to solve the problems of the prior art as described above, and the purpose of the wire rope installation module and the aerial glide system of the aerial glide system according to the present invention is,

First, there is no need to install a wire rope by drilling a wooden pole or to wind a wire rope on a wooden pole to protect the wooden pole by using a separate member to install the wire rope on the wooden pole,

Second, when a through hole is drilled in a wooden column, the wooden column may be weakened, and cracks or deformation of the column may occur depending on the formation of the through hole. In addition, it prevents the problem of weakening of the strength so that the original strength of the wooden column can be maintained as a result.

Third, in the area of the wooden pole where the installation module of the present invention is installed, even if there is an old place in the wooden pole, it can be reinforced, so that it can serve as a reinforcement of the old wooden pole

Fourth, since the wire rope is installed using the wire rope installation module of the present invention, the wire rope can be easily and conveniently installed on a wooden pole,

Fifth, to prevent the problem that the installation module rotates in the circumferential direction when it is installed on a wooden pole,

Sixth, by forming a plurality of first and second fastening holes to which the wire rope is connected in the height direction, it is possible to adjust the height of the wire rope fastened to the wooden pole, and thus the inclination (inclination angle) of the wire rope between the departure and destination is easily and to be conveniently adjusted,

Seventh, by fastening to a wooden pole while forming a separation distance between the first and second fasteners, even if shrinkage occurs due to the characteristics of the material of the wooden pole after fastening, it is possible to prepare for such contraction of the wooden pole, and thus post-maintenance It is to provide a wire rope installation module of the aerial glide system that is suitable for making it possible to fully manage it.

The wire rope installation module of the aerial glide system according to the present invention for achieving the above object is a wooden pole installed at a departure point, a wooden pole installed at a destination, and an upper end is installed on the wooden pole of the departure location, and the wooden post of the destination is installed. An aerial glide system in which a lower end is installed on the pole and includes a wire rope that is installed to be inclined downward in the direction from the origin to the destination, so that a user suspended on the wire rope can glide by gravity from the upper end of the inclined wire rope to the lower end. In the above, as a wire rope installation module of an aerial glide system for installing a wire rope on a wooden pole, a first fastening hole to which the wire rope is fastened is formed, and a first fastener provided in close contact with one side of the wooden pole; , a second fastening hole to which the wire rope is fastened is formed, and a second fastener provided in close contact with the other side of the wooden pole to face the first fastener with a wooden pole interposed therebetween, the first fastener and the second fastener By simultaneously tightening the first fastener and the second fastener to pull the fastener toward each other, the first fastener and the second fastener are configured to include a fastening member for pressing and fastening the wooden post, and the wire rope is fastened to the first fastening hole of the first fastener and the second fastening hole of the second fastener.

Aerial glide system equipped with a wire rope installation module of the present invention for achieving the above object, a wooden pole installed at a departure point, a wooden pole installed at a destination, and the wooden pole at the departure point, the upper end is installed and the destination In the aerial glide system comprising a wire rope installed at a lower end and inclined downwardly from a departure point to a destination, the departure point wire rope installation module is installed on the wooden post of the departure point and the upper end of the wire rope is connected And, it is installed on a wooden pole of the destination, and is configured to further include a destination wire rope installation module to which the lower end of the wire rope is connected, wherein the departure wire rope installation module has a first fastening hole to which the upper end of the wire rope is fastened. The starting point first fastener provided in close contact with one side of the starting point wooden post and the second fastening hole to which the upper end of the wire rope is fastened are formed, and facing the starting point first fastener with the starting point wooden post therebetween At the same time, tighten the starting point first fastener and the starting point second fastener so as to pull the departure point second fastener provided in close contact with the other side of the starting point wooden post, and the starting point first fastener and the departure point second fastener to each other. As such, the starting point first fastener and the starting point second fastener are configured to include a starting point fastening member for fastening by pressing the starting point wooden post, and the wire rope is configured to include a first fastening hole of the starting point first fastener and the starting point second fastening member. It is simultaneously fastened to the second fastening hole of the sphere, and the destination wire rope installation module has a first fastening hole to which the lower end of the wire rope is fastened, and is provided in close contact with one side of the destination wooden post. , A second fastening hole to which the lower end of the wire rope is fastened is formed, and a destination second fastener provided in close contact with the other side of the destination wooden post so as to face the destination first fastener with the destination wooden post interposed therebetween, and the the destination first fastener and the destination second body to pull the destination first fastener and the destination second fastener toward each other By simultaneously tightening the fasteners, the destination first fastener and the destination second fastener are configured to include a destination fastener for fastening by compressing the destination wooden post, and the wire rope includes the first fastening hole of the destination first fastener and the It is characterized in that it is simultaneously fastened to the second fastening hole of the destination second fastener.

The wire rope installation module and the aerial glide system of the present invention having the configuration as described above have the following effects.

First, there is no need to install a wire rope by drilling a wooden pole or to wind a wire rope around a wooden pole, and by using a separate member to install the wire rope on the wooden pole, there is an effect that can protect the wooden pole. .

Second, when a through hole is drilled in a wooden column, the wooden column may be weakened, and cracks or deformation of the column may occur depending on the formation of the through hole. In addition, there is an effect of preventing the problem of weakening the strength and consequently maintaining the original strength of the wooden column.

Third, in the area of the wooden pole where the installation module of the present invention is installed, even if there is an old place in the wooden pole, it can be reinforced, so that it can serve as a reinforcement of the old wooden pole.

Fourth, since the wire rope is installed using the wire rope installation module of the present invention, there is an effect that the wire rope can be easily and conveniently installed on a wooden pole.

Fifth, there is an effect that can prevent the problem that the installation module rotates in the circumferential direction when it is installed on a wooden pole.

Sixth, by forming a plurality of first and second fastening holes to which the wire rope is connected in the height direction, there is an effect that the height of the wire rope fastened to the wooden pole can be adjusted, and as a result, the inclination of the wire rope between the starting point and the destination ( The inclination angle) can be easily and conveniently adjusted.

Seventh, by fastening to the wooden pole while forming the separation distance between the first and second fasteners, even if contraction occurs due to the characteristics of the material of the wooden pole after fastening, there is an effect to prepare for the contraction of the wooden pole, and as a result, after There is an effect that can be fully focused on the maintenance management of

1 is a schematic diagram of the configuration of an aerial glide system (A) according to an embodiment of the present invention.
2 is a conceptual diagram of the configuration of the wire rope installation module 100 of the departure point of the aerial glide system (A) according to an embodiment of the present invention.
3 is a conceptual diagram of a cross-sectional configuration of FIG. 2 .
4 is a conceptual diagram of the configuration of the destination wire rope installation module 200 of the aerial glide system (A) according to an embodiment of the present invention.
FIG. 5 is a conceptual diagram of a cross-sectional configuration of FIG. 4 .
6 (a) is a plan view of the departure point first and second fasteners 110 and 120 in the departure point wire rope installation module 100 of the aerial glide system A according to an embodiment of the present invention,
6 (b) is a configuration diagram of the first and second reinforcing brackets 141 and 142 of the departure point.
7 is a front view of the departure point first and second fasteners 110 and 120 in the departure point wire rope installation module 100 of the aerial glide system A according to an embodiment of the present invention.
8 (a) is a plan view of the destination first and second fasteners 210 and 220 in the destination wire rope installation module 200 of the aerial glide system A according to an embodiment of the present invention;
8 (b) is a configuration diagram of the first and second reinforcing brackets 241,242 of the destination.
9 is a front view of the destination first and second fasteners 210 and 220 in the departure wire rope installation module 100 of the aerial glide system A according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the wire rope installation module and the aerial glide system of the present invention will be described in detail with reference to the accompanying drawings.

The wire rope installation module of the aerial glide system according to an embodiment of the present invention includes a wooden pole 10 installed at a departure place, a wooden pole 20 installed at a destination, and an upper end of the wooden pole 10 at the departure site. is installed and the lower end is installed on the wooden pole 20 of the destination and is configured to include a wire rope 30 that is installed to be inclined downward in the direction from the origin to the destination, so that the user (load) suspended on the wire rope 30 to be able to glide In the aerial glide system in which ) glides by gravity from the upper end of the inclined wire rope 30 to the lower end, the wire rope installation module of the air glide system for installing the wire rope 30 on the wooden posts (10, 20) As, the first fastening holes (112c, 212c) to which the wire rope 30 is fastened are formed, and the first fasteners 110 and 210 provided in close contact with one side of the wooden posts 10 and 20, and the wire rope The second fastening holes 122c and 222c to which the 30 are fastened are formed, and the wooden posts 10 and 20 are positioned to face the first fasteners 110 and 210 with the wooden posts 10 and 20 interposed therebetween. The second fasteners 120 and 220 provided in close contact with the other side, and the first fasteners 110 and 210 and the second fasteners 110 and 210 so as to pull the first fasteners 110 and 210 and the second fasteners 210 and 220 toward each other By simultaneously tightening the fasteners 210 and 220, the first fasteners 110 and 210 and the second fasteners 210 and 220 are configured to include fasteners 130 and 230 for fastening the wooden posts 10 and 20 by pressing them. The wire rope 30 is fastened to the first fastening holes 112c and 212c of the first fasteners 110 and 210 and the second fastening holes 122c and 222c of the second fasteners 210 and 220 at the same time. do.

According to this, there is no need to install the wire rope 30 by drilling a wooden pole or to wind the wire rope around the wooden pole, and even if the wire rope 30 is installed on the wooden pole 10,20, the wooden pole can be protected. be able to

In addition, when a through hole is drilled in a wooden column, the wooden column may be weakened, and cracks or deformation of the column may occur depending on the formation of the through hole. Such deformation or cracking of the wooden column can be prevented, and also There is an advantage in that the original strength of the wooden column can be maintained as a result by preventing the problem of weakening the strength.

And, in the area of the wooden pillars 10 and 20 in which the installation modules 100 and 200 of the present invention are installed, even if there is an aged place in the wooden pillar, it is possible to reinforce it, so that it also serves to reinforce the old wooden pillar.

In addition, since the wire rope installation module (100,200) of the present invention is installed, the wire rope installation module (100,200) has the advantage of being able to easily and conveniently install the wire rope (30) on the wooden posts (10,20).

That is, the two first and second fasteners 110 , 210 , 120 , 220 are pressed and fastened using the tightening bolts 131,231 and the tightening nuts 132 and 232 in a state in close contact with the wooden posts 10 and 20 without applying a large force. It is easy and convenient to securely connect the wire rope 30 to the wooden posts 10 and 20 .

As a method of connecting the wire rope 30 to the first fastening holes 112c and 212c and the second fastening holes 122c and 222c, the wire rope 30 itself is directly connected to the first fastening holes 112c and 212c and It may be connected to the second fastening holes 122c and 222c, or a known open and closed link (carabiner, link, quick link, etc.) before the filing date of the present invention is connected to the first fastening hole 112c, 212c and the second fastening hole ( 122c, 222c), and a method of connecting the wire rope 30 to the opening and closing link (not shown) may be used, which may use a variety of known methods.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the first fasteners (110, 210) are the wooden posts (10, in the longitudinal direction) in the height direction of the wooden posts (10, 20). 20), the first cover parts 111 and 211 formed in a semicircle to correspond to the circular shape of the outer circumferential surface (preferably to match), and the first cover parts 111 and 211 are bent outwardly from both sides of the first cover part 111 and 211, respectively, the length A plurality of first fastening holes (112a, 212a) along the direction is configured to include a pair of left and right first flanges (112, 113, 212, 213) are formed at equal intervals.

And, the second fasteners 120 and 220 are formed symmetrically with respect to the first fasteners 110 and 210 and the wooden pillars 10 and 20, in the height direction of the wooden pillars 10 and 20 [ in the longitudinal direction] the second cover parts 121 and 221 formed in a semicircle to correspond to (preferably match) the circular shape of the outer peripheral surface of the wooden pillars 10 and 20, and both sides of the second cover parts 121 and 221 It is formed to be bent outward, respectively, and is configured to include a pair of left and right second flanges (122, 123, 222, 223) in which a plurality of second fastening holes (122a, 222a) are formed at equal intervals along the longitudinal direction.

In addition, the fastening members 130 and 230 are the first fastening holes 112a and 212a of the first flanges 112,113, 212 and 213 and the second fastening holes 122a and 222a of the second flanges 122, 123, 222,223. It consists of bolts (131,231) and tightening nuts (132,232).

And, in the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the first cover parts 111 and 211 and the second cover parts 121 and 221 face each other with the wooden posts 10 and 20 interposed therebetween. And in the state where the pair of first flanges 112,113,212,213 and the pair of second flanges 122,123,222,223 are opposed to each other, the tightening bolts 131,231 are first fastening holes 112a, 212a of the first flanges 112,113,212,213 By screwing the fastening nuts 132 and 232 to the fastening bolts 131,231 in a state of being simultaneously inserted into the second fastening holes 122a and 222a of the and second flanges 122, 123, 222 and 223, the first cover parts 111 and 211 and the second It is characterized in that the cover parts 121 and 221 are coupled to the wooden posts 10 and 20 by pressing the wooden posts 10 and 20 therebetween by pulling each other.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the outer peripheral surface of the first cover part (111,211) and the first flange (112,113,212,213) horizontally to the ground (E) as a plate shape fastened at the same time, One side (141a, 241a) is fastened to the first cover portion (111,211) by welding, the other side (142a, 242a) is fastened to the first flange (112,113, 212,213) by welding, the tightening bolts 131,231 ) and the tightening nut (132,232) are tightened to reduce fatigue due to tightening at the boundary between the first flange (112,113,212,213) and the first cover part (111,211) while simultaneously acting on the first flange (112,113,212,213) The first reinforcing brackets 141,241 for strengthening the compression force of the first cover parts 111 and 211 by allowing the tightening force to be transmitted to the first cover parts 111 and 211 are further included.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the outer peripheral surface of the second cover part 121 and 221 and the second flange 122, 123, 222, 223 are fastened at the same time to the ground (E) in a plate shape. One side (142a, 242a) is fastened to the second cover portion (121,221) by welding, the other side (142b, 242b) is fastened to the second flange (122,123, 222,223) by welding, the tightening bolts 131,231 ) and the tightening nut (132,232) are tightened to reduce fatigue due to tightening at the boundary between the second flange (122,123,222,223) and the second cover part (121,221) while simultaneously acting on the second flange (122,123,222,223) The second reinforcing brackets 142 and 242 for reinforcing the compression force of the second cover parts 121 and 221 by allowing the tightening force to be transmitted to the second cover parts 121 and 221 are further included.

When the tightening bolts 131,231 and the tightening nuts 132 and 232 perform a tightening action with a strong tightening force, great fatigue and great stress are applied at the boundary between the first and second cover parts 111,211,112,212 and the first and second flanges 112,113,122,123,212,213,222,223. However, by adopting the first and second reinforcing brackets 141,241, 142, and 242, the first and second cover portions 111,211, 112,212 and the first and second flanges 112,113,122,123,212,213,222,223 have the advantage of reducing stress and strain and fatigue. And, as a result, there is an advantage that can improve the durability of the product.

In addition, when the tightening bolts 131,231 and the tightening nuts 132 and 232 perform a tightening action with a strong tightening force, great fatigue and great stress are applied at the boundary between the first and second cover parts 111,211,112,212 and the first and second flanges 112,113,122,123,212,213,222,223. By adopting the first and second reinforcing brackets 141,241, 142, and 242, the first and second cover portions 111,211, 112,212 and the first and second flanges 112,113,122,123,212,213,222,223 The advantage of reducing stress, strain and fatigue applied at the boundary There is, as a result, there is an advantage that can improve the durability of the product.

And, in the wire rope installation module of the aerial glide system according to an embodiment of the present invention, one side (141a, 241a) (long side in the drawing) and the other side side (141b, 241b) of the first reinforcement bracket ( In the drawing, the first central grooves 141e and 241e are recessed inwardly at the boundary of the short side), and at the boundary between one side 142a, 242a and the other side side 142b, 242b of the second reinforcing bracket. It is characterized in that the second central groove (142e, 242e) is recessed inwardly.

According to this, the installation workability of the first and second reinforcing brackets 141,242, 142, 242 at the boundary between the first and second cover portions 111,121,211,221 and the first and second flanges 112,113,122,123,212,213,222,223 is improved.

According to this, the installation workability of the first and second reinforcing brackets 141,241, 142, 242 at the boundary between the first and second cover portions 111,211,121,221 and the first and second flanges 112,113,122,123,212,213,222,223 is improved.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, at least one of the first cover parts 111 and 211 or the second cover parts 121 and 221 has an outer peripheral surface of the wooden posts 10 and 20. The first outer protrusion prevention holes 111a, 121a, 211a, 221a formed to be visible, and the first outer protrusion prevention holes 111a, 121a, 211a, 221a are fastened to the wooden posts 10 and 20 at the same time. It is fastened to prevent the first fasteners 110 and 210 and the second fasteners 210 and 220 from turning along the outer circumferential surface of the wooden pillars 10 and 20. It is characterized in that it further includes anti-protrusion pins 150 and 250. do.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the first flange (112, 113, 212, 213) is on the inner side of the first cover part (111, 211) (the side with the wire rope 30) The first inner first flanges 112 and 212 which are bent outwardly and in which a plurality of first fastening holes 112a and 212a are formed at equal intervals along the longitudinal direction, and the first opposite side of the inner first flanges 112 and 212 The outer side of the cover portions 111 and 211 (opposite to the side where the wire rope 30 is located) is bent outwardly, and a plurality of first fastening holes 113a and 213a are formed at equal intervals along the longitudinal direction. Consists of a first flange (113,213), the first fastening holes (112c, 212c) are spaced inward from the first fastening holes (112a, 212a), characterized in that formed in the inner first flange (112, 212) do.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the second flange (122, 123, 222, 223) is at the inner side of the second cover part (121, 221) (the side where the wire rope 30 is) The second inner second flanges 122 and 222 which are bent outwardly and in which a plurality of second fastening holes 122a and 222a are formed at equal intervals along the longitudinal direction, and the second opposite side of the inner second flanges 122 and 222 The outer side of the cover portions 121 and 221 (opposite to the side where the wire rope 30 is located) is bent outwardly, and a plurality of second fastening holes 123a and 223a are formed at equal intervals along the longitudinal direction. Consists of a second flange (123, 223), the second fastening holes (122c, 222c) is spaced inward from the second fastening holes (123a, 223a), characterized in that formed in the inner second flange (122, 222) do.

According to this, since the first fastening holes 112c and 212c and the second fastening holes 122c and 222c are formed on the wire rope 30 side, the connection of the wire rope 30 becomes easier.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the first fastening holes 112c and 212c are formed in plurality along the height direction of the inner first flanges 112 and 212, and the second 2 fastening holes (122c, 222c) are characterized in that formed in plurality along the height direction of the inner second flange (122, 222).

As described above, since a plurality of first and second fastening holes 112c, 212c, 122c, 222c are formed in the height direction, the height at which the wire rope 30 is fastened can be adjusted, and thus the inclination of the wire rope 30 can be easily and conveniently It has the advantage of being adjustable.

For example, four first and second fastening holes 112c and 122c are formed in the wire rope installation module 100 installed on the wooden pole 10 of the departure place, and the wire rope installation module installed on the wooden pole 20 of the destination is installed. In the module 200, five first and second fastening holes 122c and 132c are formed. At this time, the first and second fastening holes at the top of the wire rope installation module 100 of the wooden post 10 of the starting point ( The upper end of the wire rope 30 is connected to 112c, 122c), and the wire rope ( When the lower end of the 30) is connected, the inclination of the wire rope 30 will be sharp.

Conversely, the upper end of the wire rope 30 is connected to the first and second fastening holes 112c and 122c at the bottom of the wire rope installation module 100 of the wooden pole 10 of the origin, and the wooden pole 20 of the destination. When the lower end of the wire rope 30 is connected to the first and second fastening holes 122c and 132c at the top of the wire rope installation module 200, the inclination of the wire rope 30 will be relatively gentle.

In the wire rope installation module of the aerial glide system according to an embodiment of the present invention, the first tightening of the first flange (112,113, 212,213) is such that the inner first flange (112,212) and the inner second flange (122,222) are in close contact. The balls 112a and 212a and the second fastening holes 122a and 222a of the second flanges 122, 123, 222, 223 are screwed to the fastening bolts 131,231 and 131,231, and the outer first flanges 113 and 213 and the outer second flanges 123 and 223 are spaced apart by a set separation distance d1, d2, and the first fasteners 112a, 212a and the second flanges 122, 123, 222, 223 of the first flanges 112, 113, 212, 213. 2 Fastening holes (122a, 222a) are characterized in that the fastening bolts (131,231) and the fastening bolts (131,231) are screwed.

By fastening with the separation distances d1 and d2 formed in this way, shrinkage may occur due to the characteristics of the material of the wooden posts 10 and 20 after fastening. Therefore, it is possible to prepare for the shrinkage of the wooden posts 10 and 20, and thus There is an advantage to be fully focused on post-maintenance management.

The following describes the aerial glide system (A) provided with the wire rope installation modules 100 and 200 according to an embodiment of the present invention.

In an embodiment of the present invention, the aerial glide system (A) provided with the wire rope installation modules 100 and 200 includes the departure wooden pole 10 installed at the departure point, and the destination wooden pole installed at the destination at a lower position than the departure point. (20), and the upper end is installed on the wooden pole 10 of the origin, the lower end is installed on the wooden pole 20 of the destination, and comprising a wire rope 30 that is installed to be inclined downward in the direction from the origin to the destination. In the aerial glide system, it is installed on the wooden pole 10 of the departure point, the departure wire rope installation module 100 to which the upper end of the wire rope 30 is connected, is installed on the wooden pole 10 of the destination, and the wire rope It is characterized in that it is configured to include the destination wire rope installation module 200 to which the lower end of (30) is connected.

The starting point wire rope installation module 100 has a first fastening hole 112c to which the upper end of the wire rope 30 is fastened, and is provided in close contact with one side of the starting point wooden post 10. The fastener 110 and the second fastening hole 122c to which the upper end of the wire rope 30 is fastened is formed, and faces the starting point first fastener 110 with the starting point wooden post 10 therebetween. The starting point second fastener 120 provided in close contact with the other side of the starting point wooden post 10, and the starting point first fastener 110 and the starting point second fastener 120 are pulled toward each other so as to be viewed. By simultaneously tightening the starting point first fastener 110 and the starting point second fastener 120 , the starting point first fastener 110 and the starting point second fastener 120 compress the starting point wooden post 10 , It is configured to include a starting point fastening member 130 for fastening, and the wire rope 30 is a first fastening hole 112c of the starting point first fastener 110 and a second of the starting point second fastener 120 . It is characterized in that it is simultaneously fastened to the two fastening holes (122c).

Similarly, the destination wire rope installation module 200 has a first fastening hole 212c to which the lower end of the wire rope 30 is fastened, and is provided in close contact with one side of the destination wooden post 20. The first fastener 210 and the second fastening hole 222c to which the lower end of the wire rope 30 is fastened is formed, and the destination first fastener 210 with the destination wooden post 20 interposed therebetween. The destination second fastener 220, which is provided in close contact with the other side of the wooden post 20 at the destination, and the destination first fastener 210 and the destination second fastener 220 are held opposite each other By simultaneously tightening the destination first fastener 210 and the destination second fastener 220 to pull, the destination first fastener 210 and the destination second fastener 220 close the destination wooden post 20 It is configured to include a destination fastening member 230 for fastening by pressing, and the wire rope 30 includes a first fastening hole 212c of the destination first fastener 210 and the destination second fastener 220 . It is characterized in that it is simultaneously fastened to the second fastening hole (222c) of the.

In the aerial glide system (A) provided with the wire rope installation modules 100 and 200 according to an embodiment of the present invention, the starting point first fastener 110 is in the height direction of the starting point wooden post 10 [length direction] The starting point first cover part 111 formed in a semicircle to correspond (preferably to match) the circular shape of the outer circumferential surface of the starting point wooden post 10, and both sides of the starting point first cover part 111 It is formed to be bent outward, respectively, and comprises a pair of left and right starting point first flanges 112 and 113 in which a plurality of starting point first fastening holes 112a are formed at equal intervals along the longitudinal direction, and the starting point second The fastener 120 is formed symmetrically with respect to the starting point first fastener 110 and the starting point wooden post 10, in the height direction of the starting point wooden post 10 [in the longitudinal direction] the starting point wood The departure point second cover part 121 formed in a semicircle to correspond to the circular shape of the outer circumferential surface of the pillar 10 (preferably to match), and both sides of the departure point second cover part 121 are bent outward, respectively. It is formed and is configured to include a pair of left and right second flanges 122 and 123 in which a plurality of starting point second tightening holes 122a are formed at equal intervals along the longitudinal direction.

And, the starting point fastening member 130 is a starting point for screwing the starting point first fastening hole 112a of the starting point first flanges 112 and 113 and the starting point second fastening hole 122a of the starting point second flanges 122 and 123. It consists of a tightening bolt 131 and a starting point tightening nut 132 .

Similarly, in the aerial glide system (A) provided with the wire rope installation module 100, 200 according to an embodiment of the present invention, the destination first fastener 210 is in the height direction of the destination wooden post 20 [In the longitudinal direction] The destination first cover part 211 formed in a semicircle to correspond to (preferably conform to) the circular shape of the outer circumferential surface of the wooden pillar 20 of the destination, and the destination first cover part 211 of It is formed to be bent outward from both sides, respectively, and is configured to include a pair of left and right departure second flanges 212 and 213 in which a plurality of destination first tightening holes 212a are formed at equal intervals along the longitudinal direction, and the destination The second fastener 220 is formed symmetrically with respect to the first fastener 210 and the destination wooden post 20, in the height direction of the destination wooden column 20 [in the longitudinal direction] The destination second cover part 221 formed in a semicircle to correspond to (preferably to match) the circular shape of the outer peripheral surface of the wooden pillar 20, and the destination second cover part 221 faces outward from both sides of the second cover part 221, respectively. It is formed to be bent and configured to include a pair of left and right destination second flanges 222 and 223 in which a plurality of destination second fastening holes 222a are formed at equal intervals along the longitudinal direction.

In addition, the destination fastening member 230 is a destination for screwing the destination first fastener 212a of the destination first flange 212 and 213 and the destination second fastener 222a of the destination second flange 222,223. It consists of a tightening bolt 231 and a destination tightening nut 232 .

At this time, in the aerial glide system (A) equipped with the wire rope installation module 100, 200 according to an embodiment of the present invention, the departure point first cover part 111 and the departure point with the wooden post 10 interposed therebetween. In a state where the second cover part 121 is opposed and the pair of first flanges 112 and 113 and the pair of second flanges 122 and 123 are opposed to each other, the starting point tightening bolt 131 is the first flange Screw the starting point tightening nut 132 to the starting point tightening bolt 131 in the state simultaneously inserted into the starting point first fastening hole 112a of (112,113) and the starting point second fastening hole 122a of the starting point second flanges 122 and 123. By fastening, the starting point first cover part 111 and the starting point second cover part 121 are pulled together and pressed to the starting point wooden post 10 between them, characterized in that it is fastened to the starting point wooden post 10 .

Similarly, the destination first cover part 211 and the destination second cover part 221 face each other with the destination wooden post 20 interposed therebetween, and the pair of destination first flanges 212 and 213 and the pair of destination second In the state where the two flanges 222 and 223 face each other, the destination tightening bolt 231 is connected to the destination first fastener 212a of the destination first flange 212 and 213 and the destination second fastener of the destination second flange 222,223 ( 222a), by screwing the destination tightening nut 232 to the destination tightening bolt 231 in the state simultaneously inserted into the 222a), the destination first cover part 211 and the destination second cover part 221 are pulled between each other. It is characterized in that it is fastened to the destination wooden post (20) by pressing the destination wooden post (20).

And, in the aerial glide system (A) provided with the wire rope installation module 100, 200 according to an embodiment of the present invention, the outer peripheral surface of the departure point first cover part 111 horizontally to the ground (E) and the departure point first As a plate shape fastened to the flanges 112 and 113 at the same time, one side 141a is fastened to the starting point first cover part 111 by welding, and the other side 142a is welded to the starting point first flanges 112 and 113 by welding. to reduce fatigue due to tightening at the boundary between the starting point first flanges 112 and 113 and the starting point first cover part 111 when the starting point tightening bolt 131 and the starting point tightening nut 132 are tightened. The starting point first reinforcing bracket 141 for reinforcing the compression force of the starting point first cover part 111 by reducing and at the same time allowing the tightening force acting on the starting point first flanges 112 and 113 to be transmitted to the starting point first cover part 111. It is characterized in that it is further included.

Similarly, as a plate shape that is simultaneously fastened to the outer peripheral surface of the destination first cover part 211 and the destination first flanges 212 and 213 horizontally to the ground (E), one side 241a is the destination first cover part 211 . is fastened by welding, and the other side 242a is fastened to the destination first flanges 212 and 213 by welding, so that when the destination tightening bolt 231 and the destination tightening nut 232 are tightened, the destination While reducing fatigue due to tightening at the boundary between the first flanges 212 and 213 and the first cover part 211 of the destination, the tightening force acting on the first flanges 212 and 213 of the destination is transmitted to the first cover part 211 of the destination. Thus, the destination first reinforcing bracket 241 for reinforcing the compression force of the first cover part 211 is further included.

As described above, since the second fastener is formed symmetrically with the first fastener, the outer circumferential surface of the second cover part 121 from the starting point and the second flange 122 and 123 from the starting point are horizontally fastened to the plate shape. As, one side (142a) is fastened to the starting point second cover part 121 by welding, and the other side (142b) is fastened to the starting point second flanges (122, 123) by welding, so that the starting point tightening bolt ( 131) and the starting point tightening nut 132 are tightened to reduce fatigue due to tightening at the boundary between the starting point second flanges 122 and 123 and the starting point second cover part 121 while simultaneously reducing the starting point second flange ( 122 and 123) is transmitted to the starting point second cover part 121 to strengthen the compression force of the starting point second cover part 121, characterized in that it further includes a starting point second reinforcement bracket 142. .

In addition, a first central groove 141e is concave inwardly formed on the boundary between one side 141a and the other side 141b of the starting point first reinforcing bracket, and one side 142a of the starting point second reinforcing bracket is formed. A second central groove 142e is recessed inwardly at the boundary between the other side 142b and the other side 142b.

Similarly, as a plate shape that is simultaneously fastened to the outer peripheral surface of the destination second cover part 221 and the destination second flanges 222 and 223 horizontally to the ground (E), one side 242a is the destination second cover part 221 . is fastened by welding, and the other side 242b is fastened to the destination second flanges 222 and 223 by welding, so that when the destination tightening bolt 231 and the destination tightening nut 232 are tightened, the destination While reducing fatigue due to tightening at the boundary between the second flanges 222 and 223 and the destination second cover unit 221 , the tightening force acting on the destination second flanges 222 and 223 is transmitted to the destination second cover unit 221 . It is characterized in that the destination second reinforcing bracket 242 is further included to strengthen the compression force of the second cover part 221 at the destination.

A first central groove 241e is recessed inwardly at a boundary between one side 241a and the other side 241b of the first reinforcing bracket at the destination, and one side 242a and the other side of the second reinforcing bracket at the destination A second central groove 242e is recessed inwardly at the boundary of the side side 242b.

In the aerial glide system (A) provided with the wire rope installation module 100, 200 according to an embodiment of the present invention, at least one of the departure point first cover part 111 and the departure point second cover part 121 The first outer protrusion prevention holes 111a and 121a formed so that the outer circumferential surface of the starting point wooden post 10 is visible, and the first outer protrusion prevention holes 111a and 121a are fastened to the starting point wooden post 10 at the same time. It is fastened and the departure point first fastener 110 and the departure point second fastener 120 are configured to further include a departure point anti-protrusion pin 150 to prevent them from turning along the outer circumferential surface of the starting point wooden post 10 .

Similarly, at least one of the destination first cover part 211 and the destination second cover part 221, the second outer protrusion prevention holes 211a and 221a are formed so that the outer peripheral surface of the wooden post 20 is visible; , is fastened to the second outer protrusion prevention holes 211a and 221a and at the same time fastened to the destination wooden post 20 so that the destination first fastener 210 and the destination second fastener 220 are connected to the destination wooden column 20 ) along the outer peripheral surface of the destination surface protrusion prevention pin 250 is further included to prevent it from turning.

In the aerial glide system (A) provided with the wire rope installation module (100,200) according to an embodiment of the present invention,

The starting point first flanges 112 and 113 are bent outwardly from the inner side of the starting point first cover part 111, and a plurality of departure point first fastening holes 112a are formed at equal intervals along the longitudinal direction. The departure point inner first flange 112 and the departure point inner first flange 112 are bent outwardly from the outer side of the first cover part 111 opposite to the departure point, and the plurality of departure points are tightened along the longitudinal direction. The ball 113a is composed of a first flange 113 on the outside of the departure point formed at equal intervals, and the starting point first fastening hole 112c is spaced apart from the starting point first fastening hole 112a to the inside of the departure point. It is characterized in that it is formed on the first flange (112).

And, the starting point second flanges 122 and 123 are bent outwardly from the inner side of the starting point second cover part 121, and a plurality of departure point second fastening holes 122a are formed at equal intervals along the longitudinal direction. The departure point inner second flange 122 and the departure point inner second flange 122 are bent outwardly from the outer edge of the second cover part 121 opposite to the departure point inner second flange 122, and are formed from a plurality of departure points along the longitudinal direction. 2 fastening holes 123a are composed of a departure point outer second flange 123 formed at equal intervals, and the starting point second fastening holes 122c are spaced apart from the starting point second fastening holes 123a to the inside. It is characterized in that it is formed on the inner second flange 122 of the departure point.

Similarly, the destination first flanges 212 and 213 are bent outwardly from the inner side of the destination first cover part 211 , and a plurality of destination first fastening holes 212a are formed at equal intervals along the longitudinal direction. The destination inner first flange 212 and the destination inner first flange 212 are bent outwardly from the outer side of the destination first cover part 211 on the opposite side of the first flange 212, and a plurality of destinations are formed along the longitudinal direction. One tightening hole 213a is composed of a first flange 213 on the outside of the destination is formed at equal intervals, and the destination first fastening hole 212c is spaced apart from the first fastener hole 212c at the destination, so that the It is characterized in that it is formed on the inner first flange 212 of the destination.

In addition, the destination second flanges 222 and 223 are bent outwardly from the inner side of the destination second cover part 221 , and a plurality of destination second fastening holes 222a are formed at equal intervals along the longitudinal direction. The destination inner second flange 222 and the destination second cover part 221 on the opposite side of the departure and arrival destination inner second flange 222 are bent outwardly from the outer side, and are formed along the longitudinal direction of the plurality of destinations. The second fastening holes 223a are composed of the destination outer second flanges 223 formed at equal intervals, and the destination second fastening holes 222c are spaced apart from the destination second fastening holes 123a inward. It is characterized in that it is formed on the inner second flange 222 of the destination.

On the other hand, a first auxiliary fastening hole 213e for connecting the auxiliary wire 40 is formed in the first flange 213 outside the destination, and the auxiliary wire 40 is connected to the second flange 223 outside the destination. A second auxiliary fastening hole 223e is formed for

As described above, preferred embodiments according to the present invention have been reviewed, and it is common knowledge in the technical field that the present invention can be implemented in other specific forms without changing the technical spirit or essential features in addition to the above-described embodiments. It is self-evident to those who have Therefore, it should be understood that the above-described embodiments are illustrative and not restrictive.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

10: wooden post of departure 20: wooden post of destination
30: wire rope
A: Aerial glide system equipped with a wire rope installation module according to an embodiment of the present invention
100: wire rope installation module of the departure point of the aerial glide system
110,210: first fastener
111,121: first cover part
111a, 211a: first anti-protrusion hole
112,113,212,213: first flange
112a, 113a, 212a, 213a: first fastener
112c, 212c: first fastening hole
120,220: second fastener
121,221: second cover part
121a, 221a: second anti-protrusion hole
122,123,222,223: second flange
122a, 123a, 222a, 223a: second fastener
122c, 222c: second fastening hole
131,231: Tightening bolt
132,232: tightening nut
141,241: first reinforcement bracket
142,242: second reinforcement bracket
150,250: anti-protrusion pin
200: destination wire rope installation module of the aerial glide system

Claims (7)

The wooden post 10 installed at the departure point, the wooden post 20 installed at the destination, the upper end is installed on the wooden post 10 of the departure point, and the lower end is installed on the wooden post 20 at the destination, and the lower end is installed at the departure point. It consists of a wire rope 30 installed inclined downward in the direction of the destination, so that a user suspended on the wire rope 30 can glide from the upper end of the inclined wire rope 30 to the lower end by gravity. In the system,
As a wire rope installation module of an aerial glide system for installing a wire rope 30 on a wooden post (10, 20),
The first fastening holes (112c, 212c) to which the wire rope 30 is fastened are formed, and the first fasteners 110 and 210 provided in close contact with one side of the wooden posts 10 and 20;
The second fastening holes 122c and 222c to which the wire rope 30 is fastened are formed,
Second fasteners 120 and 220 provided in close contact with the other side of the wooden posts 10 and 20 so as to face the first fasteners 110 and 210 with the wooden posts 10 and 20 interposed therebetween;
so as to pull the first fasteners 110 and 210 and the second fasteners 210 and 220 toward each other.
By simultaneously tightening the first fasteners 110 and 210 and the second fasteners 210 and 220, the first fasteners 110 and 210 and the second fasteners 210 and 220 are tightened by pressing the wooden posts 10 and 20. It is configured to include members 130 and 230,
The wire rope 30 is fastened to the first fastening holes 112c and 212c of the first fasteners 110 and 210 and the second fastening holes 122c and 222c of the second fasteners 210 and 220 at the same time. A wire rope installation module of the aerial glide system.
The method according to claim 1,
The first fasteners 110 and 210,
A first cover portion (111,211) formed in a semicircle to correspond to the circular shape of the outer peripheral surface of the wooden column (10,20) in the height direction of the wooden column (10,20),
A pair of left and right first flanges 112, 113, 212, 213 are bent outwardly from both sides of the first cover part 111 and 211, respectively, and a plurality of first fastening holes 112a and 212a are formed at equal intervals along the longitudinal direction. ), including
The second fasteners 120 and 220 are,
Second cover parts 121 and 221 formed in a semicircle to correspond to the circular shape of the outer circumferential surface of the wooden posts 10 and 20 in the height direction of the wooden posts 10 and 20;
A pair of left and right second flanges 122, 123, 222, 223 are bent outwardly from both sides of the second cover parts 121 and 221, respectively, and a plurality of second fastening holes 122a and 222a are formed at equal intervals along the longitudinal direction. ), including
The fastening members 130 and 230 include the first fastening holes 112a and 212a of the first flanges 112, 113, 212 and 213 and the second fastening holes 122a and 222a of the second flanges 122, 123, 222, 223. 131,231) and a tightening nut (132,232),
The first cover parts 111 and 211 and the second cover parts 121 and 221 are opposed to each other with the wooden posts 10 and 20 interposed therebetween, and the pair of first flanges 112, 113, 212, 213 and the pair of second flanges 122, 123, 222, 223 are opposite to each other. in the opposite state,
The fastening bolts 131,231 are simultaneously inserted into the first fastening holes 112a, 212a of the first flanges 112,113, 212,213 and the second fastening holes 122a, 222a of the second flanges 122,123,222,223. ) by screwing to the tightening bolts 131,231, the first cover parts 111 and 211 and the second cover parts 121 and 221 are pulled to each other and the wooden posts 10 and 20 therebetween are pressed and the wooden posts 10, 20 ), the wire rope installation module of the aerial glide system, characterized in that it is fastened to.
3. The method according to claim 2,
As a plate shape that is simultaneously fastened to the outer peripheral surface of the first cover part 111,211 and the first flange 112,113,212,213 horizontally to the ground (E),
One side (141a, 241a) is fastened to the first cover portion (111,211) by welding, the other side (142a, 242a) is fastened to the first flange (112,113, 212,213) by welding, the tightening bolts 131,231 ) and the tightening nut (132,232) are tightened to reduce fatigue due to tightening at the boundary between the first flange (112,113,212,213) and the first cover part (111,211) while simultaneously acting on the first flange (112,113,212,213) The first reinforcing brackets 141,241 for reinforcing the compression force of the first cover parts 111 and 211 by allowing the tightening force to be transmitted to the first cover parts 111 and 211;
A plate shape that is simultaneously fastened to the outer circumferential surfaces of the second cover parts 121 and 221 and the second flanges 122, 123, 222, 223 horizontally to the ground (E), and one side (142a, 242a) is welded to the second cover part (121,221). and the other side sides 142b and 242b are fastened to the second flanges 122, 123, 222, 223 by welding, so that the tightening bolts 131,231 and the tightening nuts 132, 232 are tightened when the second flanges 122, 123, 222, 223 ) and the second cover parts 121 and 221, while reducing fatigue due to tightening at the boundary between the second cover parts 121 and 221, and at the same time allowing the tightening force acting on the second flanges 122, 123, 222, 223 to be transmitted to the second cover parts 121 and 221 ) The wire rope installation module of the aerial glide system, characterized in that it further comprises a second reinforcing bracket (142, 242) for strengthening the compression force.
3. The method according to claim 2,
The first outer protrusion prevention holes 111a, 121a, 211a, 221a are formed in at least one of the first cover parts 111 and 211 or the second cover parts 121 and 221 so that the outer peripheral surfaces of the wooden posts 10 and 20 are visible. and,
It is fastened to the first protrusion prevention holes 111a, 121a, 211a, 221a and at the same time fastened to the wooden posts 10 and 20, so that the first fasteners 110 and 210 and the second fasteners 210 and 220 are connected to the wooden poles ( The wire rope installation module of the aerial glide system, characterized in that it further includes anti-protrusion pins (150, 250) for preventing it from turning along the outer circumferential surface of 10, 20).
3. The method according to claim 2,
The first flange (112,113, 212,213) is,
The first inner first in which the first cover portion 111,211 is bent outward from the inside, the side where the wire rope 30 is, and a plurality of first fastening holes 112a and 212a are formed at equal intervals along the longitudinal direction. flanges 112 and 212;
The inner first flanges 112 and 212 are bent outward from the outside of the first cover portions 111 and 211 , and a plurality of first fastening holes 113a and 213a are formed at equal intervals along the longitudinal direction. Consists of a first flange (113,213),
The first fastening holes 112c and 212c are
It is spaced inwardly from the first tightening hole (112a, 212a) and is formed in the inner first flange (112, 212),
The second flange (122,123,222,223) is,
The inner second flanges 122 and 222 which are bent outwardly from the inner sides of the second cover portions 121 and 221 and have a plurality of second fastening holes 122a and 222a formed at equal intervals along the longitudinal direction;
The inner second flanges 122 and 222 are bent outward from the outside of the second cover portions 121 and 221 , and a plurality of second fastening holes 123a and 223a are formed at equal intervals along the longitudinal direction. Consists of a second flange (123,223),
The second fastening holes 122c and 222c are
The wire rope installation module of the aerial glide system, characterized in that it is spaced apart from the inside of the second tightening hole (123a, 223a) and is formed on the inner second flange (122, 222).
6. The method of claim 5,
The first fastening holes 112c and 212c are formed in plurality along the height direction of the inner first flanges 112 and 212,
The second fastening hole (122c, 222c) is a wire rope installation module of the aerial glide system, characterized in that formed in plurality along the height direction of the inner second flange (122, 222).
The wooden post 10 installed at the departure point, the wooden post 20 installed at the destination, the upper end is installed on the wooden post 10 of the departure point, and the lower end is installed on the wooden post 20 at the destination, and the lower end is installed at the departure point. In the aerial glide system comprising a wire rope 30 installed inclined downward in the direction of the destination,
The departure point wire rope installation module 100 is installed on the wooden post 10 of the departure point, and the upper end of the wire rope 30 is connected, and
It is installed on the wooden post 10 of the destination, and the destination wire rope installation module 200 to which the lower end of the wire rope 30 is connected is further included and configured,
The departure wire rope installation module 100,
A first fastening hole 112c to which the upper end of the wire rope 30 is fastened is formed, and the starting point first fastener 110 provided in close contact with one side of the starting point wooden post 10, and the wire rope 30 ) is formed with a second fastening hole (122c) to which the upper end is fastened, and on the other side of the starting point wooden post (10) to face the first fastener (110) with the starting point wooden post (10) interposed therebetween. A departure point second fastener 120 provided in close contact, and
By simultaneously tightening the starting point first fastener 110 and the starting point second fastener 120 to pull the starting point first fastener 110 and the starting point second fastener 120 to each other, the starting point 1 fastener 110 and the departure point second fastener 120 are configured to include a starting point tightening member 130 for fastening by pressing the starting point wooden post 10,
The wire rope 30 is simultaneously fastened to the first fastening hole 112c of the departure point first fastener 110 and the second fastening hole 122c of the departure point second fastener 120,
The destination wire rope installation module 200,
A first fastening hole 212c to which the lower end of the wire rope 30 is fastened is formed, and the destination first fastener 210 and the wire rope 30 are provided in close contact with one side of the destination wooden post 20 . ) is formed with a second fastening hole 222c to which the lower end is fastened, and on the other side of the destination wooden post 20 so as to face the destination first fastener 210 with the destination wooden post 20 interposed therebetween. A destination second fastener 220 provided in close contact, and
By simultaneously tightening the destination first fastener 210 and the destination second fastener 220 to pull the destination first fastener 210 and the destination second fastener 220 toward each other, the destination first fastener 210 and the destination second fastener 220 are simultaneously tightened. The first fastener 210 and the destination second fastener 220 are configured to include a destination fastening member 230 for fastening by pressing the destination wooden post 20,
The wire rope 30 is characterized in that it is simultaneously fastened to the first fastening hole 212c of the destination first fastener 210 and the second fastening hole 222c of the destination second fastener 220 Aerial glide system equipped with wire rope installation module.

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