KR102348457B1 - Apparatus for preventing heavy equipment from approaching tower - Google Patents

Abstract

A heavy equipment access prevention device for a pylon of the present invention includes: a support trust in which a plurality of support modules are assembled along the longitudinal direction; hanger clamps coupled to the pylon; a fixing clamp coupled to the support thrust and connected by a hanger clamp and a hanger rope; a winch clamp coupled to the pylon and pulling the hanger rope connected to the hanger clamp and the fixing clamp to raise the support trust; an angle clamp coupled to the support trust and the pylon to fix the support trust to the pylon; and a protective rope connected to a support thrust of a neighboring pylon.

Description

APPARATUS FOR PREVENTING HEAVY EQUIPMENT FROM APPROACHING TOWER

The present invention relates to a heavy equipment access prevention device for a pylon, and more particularly, to a pylon heavy equipment access prevention device capable of preventing heavy equipment from approaching near a pylon and preventing a safety accident from occurring in the lower part of a transmission and distribution line will be.

In general, the pylon is installed along the track to support the transmission and distribution lines. The pylon is installed away from the road, but it can also be installed through or close to the road. Also, heavy machinery is operated around roads and pylons. To protect the pylon and transmission/distribution line, a height limiter is installed at the bottom of the pylon or transmission/distribution line. The height limiter installs a support on the land around the pylon, and installs a protection line on the top of the support. The height of the support is limited to approximately 5 m. In addition, the protection line can be installed by installing an angle directly on the pylon.

Conventionally, since the height limiting device is installed on the land, it was necessary to obtain the consent of the land owner to install the height limiting device. Accordingly, the height limiting device may not be installed or the installation of the height limiting device may be delayed.

Also, when connecting the guard line to the angle by installing the angle directly on the pylon. Since the size of the pylon varies depending on the type of pylon, it was difficult to apply the angle to the pylons of different types. In addition, a separate safety test was required according to the length of the angle and the type of protection wire.

The background technology of the present invention is disclosed in Korean Patent Application Laid-Open No. 2014-0032237 (published on March 14, 2014, title of the invention: an overhead power transmission line ear canal measurement device).

The present invention was created to improve the above problems, and an object of the present invention is to prevent heavy equipment from approaching near the pylon, and to prevent a safety accident from occurring in the lower part of the transmission and distribution line. to provide the device.

A heavy equipment access prevention device for a pylon according to the present invention includes: a support trust in which a plurality of support modules are assembled along a longitudinal direction; hanger clamps coupled to the pylon; a fixing clamp coupled to the support thrust and connected by the hanger clamp and a hanger rope; a winch clamp coupled to the pylon and lifting the support thrust by pulling the hanger rope connected to the hanger clamp and the fixing clamp; an angle clamp coupled to the support trust and the pylon to fix the support trust to the pylon; and a protection rope connected to the support thrust of the neighboring pylon.

The support trust is disposed at both ends of the support trust, a first coupling pipe part is formed on one side, a first coupling pin part is formed on the other side, and a first support in which a hanger rope fixing part is formed so that the hanger rope is connected. module; And disposed between the first support module, a second coupling pin portion is formed to be inserted into the first coupling pipe portion on one side, and a second coupling tube portion to be inserted into the first coupling pin portion or the second coupling pin portion on the other side It may include a formed second support module.

A first frame portion having a plurality of first fastening holes is formed at the other end of the first support module, and both ends of the second support module are in contact with the first frame portion and correspond to the first fastening hole. A second frame portion in which a second fastening hole is formed may be formed so as to be possible.

The first support module and the second support module may be formed in a trust structure in the form of a square pillar.

The first support module and the second support module may include an aluminum material.

The hanger clamp may include: a first hanger panel in which an accommodating groove is formed to accommodate the corner of the angle of the pylon, and first long holes are formed on both sides of the accommodating groove; a second hanger panel disposed to face the first hanger panel and having a second long hole facing the first long hole; And according to the size of the angle of the pylon, it may include a hanger fastening member installed in a position moved in the first long hole and the second long hole.

The fixing clamp may include a first fixing holder; a second fixing holder rotatably coupled to the first fixing holder and surrounding the pipe together with the first fixing holder; a fastening member for fastening the first fixed holder and the second fixed holder; And extending from the first fixing holder, it may include a fixing portion to which the hanger rope is connected.

The winch clamp includes: a first winch panel in which an insertion groove is formed to insert the corner of the angle of the pylon, and first slots are formed on both sides of the insertion groove; a second winch panel disposed opposite to the first winch panel and having a second slot opposite to the first slot; a winch fastening member positioned in the first slot and the second slot according to the size of the angle of the pylon; And it is fixed to the first winch panel, it may include a winch portion for winding the hanger rope.

The angle clamp may include: an angle support member bent in a right angle to accommodate the corner of the angle of the pylon; a bolt portion coupled to both ends of the angle support portion, respectively, and having a threaded portion formed on an outer surface thereof; an angle restraining member movably coupled to the bolt portion and having hook portions formed so that both sides of the angle are restrained; a nut portion screwed to the bolt portion to constrain the angle constraining member; a joint part rotatably installed on the angle support member; a first angle holder coupled to the joint part and coupled to the pipe of the support thrust; a second angle holder rotatably coupled to the first angle holder and surrounding the pipe together with the first angle holder; and an angle fastening member for fastening the first angle holder and the second angle holder.

According to the present invention, since the protection rope is connected to the support trust after the support trust is fixed to the pylon, the protection rope can be installed without using the land adjacent to the pylon. Therefore, the heavy equipment access protection device for the pylon can be quickly installed on the pylon, since there is no need to obtain consent from the landowner when installing the support trust and protective rope.

Further, according to the present invention, since the support thrust is fixed to the pylon by a hanger rope and a plurality of clamps, it is possible to prevent the angle of the pylon from being damaged.

In addition, according to the present invention, since the support thrust is manufactured by assembling a plurality of support modules, the length of the support thrust can be appropriately adjusted according to the size or type of the pylon. Therefore, regardless of the size and type of the pylon, the support trust and the protection rope can be used in common.

1 is a block diagram illustrating a pylon and a heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
2 is a perspective view illustrating a first support module and a second support module of the apparatus for preventing access to heavy equipment for pylons according to an embodiment of the present invention.
3 is a perspective view illustrating a state in which the first support module and the second support module are coupled in the apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.
Figure 4 is a perspective view showing a hanger clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
5 is a plan view showing a hanger clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
Figure 6 is a perspective view showing a fixing clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
7 is a plan view showing a winch clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
Figure 8 is a perspective view showing an angle clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
Figure 9 is a side view showing an angle clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.
10 is a configuration diagram illustrating a state in which the support trust is moved to the lower part of the pylon in the apparatus for preventing access of heavy equipment for a pylon according to an embodiment of the present invention.
11 is a configuration diagram illustrating a state in which the support trust is raised to the top of the pylon in the apparatus for preventing access of heavy equipment for pylons according to an embodiment of the present invention.
12 is a configuration diagram illustrating a state in which the support trust is fixed to the upper part of the pylon in the apparatus for preventing access of heavy equipment for a pylon according to an embodiment of the present invention.
13 is a configuration diagram illustrating a state in which a protection rope is connected to a support trust in an apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.
14 is a configuration diagram illustrating a state in which a protection net is connected to a protection rope in the apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.
15 is a configuration diagram illustrating a state in which a protection rope is spread on a support trust in the apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.
16 is a configuration diagram illustrating a state in which a protection rope and a safety rope are connected side by side to a support trust in an apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.
17 is a configuration diagram illustrating a state in which a protection rope and a connecting rope are connected to a support trust in the apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.

Hereinafter, an embodiment of a heavy equipment access prevention device for a pylon according to the present invention will be described with reference to the accompanying drawings. In the process of explaining the heavy equipment access prevention device for a pylon, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user or operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

1 is a block diagram illustrating a pylon and a heavy equipment access prevention device for a pylon according to an embodiment of the present invention, and FIG. 2 is a perspective view showing a support module, and FIG. 3 is a perspective view showing a state in which the first support module and the second support module are combined in the apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.

1 to 3, the heavy equipment access prevention device for a pylon according to an embodiment of the present invention is a support trust 100, a hanger clamp 130, a fixing clamp 140, a winch clamp 150, an angle clamp 160 and a protective rope 170 .

The pylon 10 is a structure in which a plurality of angles 13 are connected in a trust structure. The angle 13 is formed in an approximately "a" shape with a corner formed in the center.

The support trust 100 is formed by assembling a plurality of support modules 110 and 120 along the longitudinal direction. Since the support trust 100 is formed by assembling a plurality of support modules 110 and 120 , the length of the support trust 100 may be appropriately adjusted according to the size or type of the pylon 10 . In addition, the support trust 100 may be installed in common in the 154KV pylon 10 and the 345KV pylon 10 by adjusting the assembly number of the support modules 110 and 120 . The support trust 100 may be assembled to a length of about 4-24 m.

The support trust 100 includes a first support module 110 and a second support module 120 .

The first support module 110 is disposed at both ends of the support trust 100 . A first coupling pipe part 111 is formed on one side of the first support module 110 , and a first coupling pin part 112 is formed on the other side of the first support module 110 . In addition, the hanger rope fixing part 113 is formed on one side of the first support module 110 so that the hanger rope 50 is connected. Here, the hanger rope 50 means a rope for fixing the support trust 100 by lifting it to the upper side of the pylon 10 .

The second support module 120 is disposed between the first support module 110 . A second coupling pin part 122 is formed on one side of the second support module 120 so as to be inserted into the first coupling pipe part 111 of the first support module 110 , and the other side of the second support module 120 . A second coupling pipe part 121 is formed on the side so that the first coupling pin part 112 or the second coupling pin part 122 is inserted.

The first coupling pipe part 111 and the first coupling pin part 112 are formed in the first support module 110 , the second coupling pin part 122 is coupled to the first coupling pipe part 111 , and the second coupling pipe part Since the first coupling pin part 112 or the second coupling pin part 122 is installed in the 121 , the first support module 110 and the second support module 120 can be easily assembled. In addition, the support trust 100 may change the length of the support trust 100 by adjusting the assembly number of the second support module 120 .

A first frame part 115 is formed at the other end of the first support module 110 so that a plurality of first fastening holes 116 are formed. Since the first support module 110 is assembled to the end of the support trust 100 , the first frame part 115 is formed only on the other side of the first support module 110 .

At both ends of the second support module 120 , a second frame part 125 in contact with the first frame part 115 and in which the second fastening hole 126 is formed to correspond to the first fastening hole 116 is provided. is formed Since the second frame part 125 is disposed between the pair of first support modules 110 , the second frame part 125 is disposed on both sides of the first support module 110 .

When the first support module 110 and the second support module 120 are assembled, since the first frame part 115 and the second frame part 125 correspond to each other, the first support module 110 and the second support module It can be assembled while visually confirming whether the module 120 is installed in parallel in the longitudinal direction. In addition, when the first frame part 115 and the second frame part 125 exactly correspond, the first fastening hole 116 and the second fastening hole 126 communicate with each other, so that the first support module 110 and the second frame part 125 communicate with each other. 2 It is possible to prevent the support module 120 from being assembled in a twisted state in the circumferential direction. Accordingly, the support trust 100 may be firmly assembled.

The first support module 110 and the second support module 120 are formed in a trust structure in the form of a square pillar. In this case, four outer pipes (not shown) are disposed at the corners of the quadrilateral, and a plurality of connecting pipes (not shown) are connected to the four outer pipes in a trust structure. Since the first support module 110 and the second support module 120 are formed in a trust structure, the weight of the support trust 100 may be reduced while the bending strength may be improved. The outer pipe and the connecting pipe are round pipes with a hollow inside.

The first support module 110 and the second support module 120 include an aluminum material. Accordingly, since the weight of the support trust 100 is reduced, it is possible to prevent the pylon 10 from being deformed by the load of the support trust 100 . In addition, the operator can easily raise the support trust 100 to the pylon 10 by using the hanger rope 50 . Therefore, there is no need to install additional equipment to raise the support trust 100 on the pylon 10 .

A hanger clamp 130 and a winch clamp 150 are installed in the pylon 10, a fixing clamp 140 is installed in the support trust 100, and the support trust 100 and the pylon 10 are provided with an angle clamp 160 ) are fixed to each other by These clamps will be described in detail below.

4 is a perspective view showing a hanger clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention, Figure 5 is a plan view showing the hanger clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention to be.

4 and 5 , the hanger clamp 130 is coupled to the pylon 10 . The hanger clamp 130 includes a first hanger panel 131 , a second hanger panel 133 , and a hanger fastening member 135 .

The first hanger panel 131 has an accommodating groove 131a to accommodate the edge of the angle 13 of the pylon 10, and first long holes 131b are formed on both sides of the accommodating groove 131a. A first rope fixing part 132 in which a hole is formed is formed to protrude from the first hanger panel 131 . The second hanger panel 133 is disposed to face the first hanger panel 131 . The second long hole 133b is formed in the second hanger panel 133 to face the first long hole 131b. A second rope fixing part 134 in which a hole is formed is formed to protrude from the second hanger panel 133 . The hanger fastening member 135 is installed in a state moved from the first long hole 131b and the second long hole 133b according to the size of the angle 13 of the pylon 10 . The first long hole 131b and the second long hole 133b are formed to be elongated in a direction perpendicular to the longitudinal direction of the receiving groove 131a. The hanger fastening member 135 includes a bolt and a nut.

Since the receiving groove 131a is formed in the first hanger panel 131 to accommodate the edge of the angle 13 , the first hanger panel 131 and the second hanger panel 133 are connected by the hanger fastening member 135 . When combined, it is possible to prevent the angle 13 from being changed in position. In addition, the hanger fastening member 135 is movably installed by the first long hole (131b) and the second long hole (133b). Therefore, when the size of the angle 13 is large, the hanger fastening member 135 is installed in a state moved away from the edge of the angle 13 in the first long hole 131b and the second long hole 133b. In addition, when the size of the angle 13 is small, the hanger fastening member 135 is installed in a state moved from the first long hole 131b and the second long hole 133b toward the edge of the angle 13 . Accordingly, the hanger clamp 130 is installed regardless of the size of the angle 13 of the pylon 10 , and it is not necessary to separately manufacture it according to the type of the pylon 10 .

Figure 6 is a perspective view showing a fixing clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.

Referring to FIG. 6 , the fixing clamp 140 includes a first fixing holder 141 , a second fixing holder 142 , a fastening member 145 for fixing, and a fixing part 144 .

The first fixing holder 141 corresponds to a pipe (not shown) of the support trust 100 . A fixing hole is formed in the first fixing holder 141 . The second fixing holder 142 is rotatably coupled to the first fixing holder 141 and is installed to surround the pipe of the support trust 100 together with the first fixing holder 141 . The fastening member 145 for fixing is rotatably coupled to the first fixing holder 141 to fasten the first fixing holder 141 and the second fixing holder 142 . The fixing part 144 extends from the first fixing holder 141 , and a fixing hole (not shown) is formed in the fixing part 144 to connect the hanger rope 50 . When the fixing clamp 140 is coupled to the pipe of the support trust 100 , the hanger rope 50 is in a state in which the fixing part 144 can be installed.

7 is a plan view showing a winch clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention.

Referring to FIG. 7 , the winch clamp 150 includes a first winch panel 151 , a second winch panel 153 , a winch fastening member 155 and a winch unit 156 . The winch clamp 150 is installed on the lower side of the pylon 10 and is used to wind the hanger rope 50 by a worker manipulating the winch unit 156 .

Insertion grooves 151a are formed in the first winch panel 151 to insert the corners of the angles 13 of the pylon 10, and first long holes 131b are formed on both sides of the receiving grooves 131a. The second winch panel 153 is disposed opposite to the first winch panel 151 . A second slot (153b) is formed in the second winch panel (153) to face the first slot (151b). The winch fastening member 155 is installed in a position moved from the first slot 151b and the second slot 153b according to the size of the angle 13 of the pylon 10 . The first slot 151b and the second slot 153b are elongated in a direction perpendicular to the longitudinal direction of the receiving groove 131a. The winch fastening member 155 includes a bolt and a nut.

Since the insertion groove (151a) is formed so that the edge of the angle (13) is inserted into the first winch panel (151), the first winch panel (151) and the second winch panel (153) are connected by the winch fastening member (155). When combined, it is possible to prevent the angle 13 from being changed in position. In addition, the winch fastening member 155 is movably installed by the first slot (151b) and the second slot (153b). When the size of the angle 13 is large, the winch fastening member 155 is installed in a state moved to the opposite side of the edge of the angle 13 in the first slot 151b and the second slot 153b. In addition, when the size of the angle 13 is small, the winch fastening member 155 is installed in a state moved from the first slot 151b and the second slot 153b to the edge side of the angle 13 . Accordingly, the winch clamp 150 is installed regardless of the size of the angle 13 of the pylon 10 , and it is not necessary to separately manufacture it according to the type of the pylon 10 .

The winch unit 156 includes a fixed shaft 157 fixed to the first winch panel 151 , a spool 158 rotatably installed on the fixed shaft 157 , and a handle fixed to the outside of the spool 158 . (159). When the handle 159 is turned, the hanger rope 50 is wound or unwound as the spool 158 is rotated.

Figure 8 is a perspective view showing an angle clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention, Figure 9 is a side view showing the angle clamp in the heavy equipment access prevention device for a pylon according to an embodiment of the present invention to be.

8 and 9, the angle clamp 160 includes an angle support member 161, a bolt part 162, an angle restraining member 163, a nut part 164, a joint part 165, and a first angle holder. (166), a second angle holder (167) and an angle fastening member (168).

The angle support member 161 is formed to be bent in a right angle shape to accommodate the edge of the angle 13 of the pylon 10 . The bolt portion 162 is coupled to both ends of the angle 13 fixing portion 144, respectively, a screw portion (not shown) is formed on the outer surface. The angle support member 161 and the bolt part 162 are formed in an approximately "a" shape. The angle restraining member 163 is movably coupled to the bolt portion 162 , and the hook portion 163a is formed so that both ends of the angle 13 are restrained. The hook portions 163a extend in directions facing each other. The nut portion 164 is screwed to the bolt portion 162 to constrain the angle constraining member 163 . The joint part 165 is rotatably installed on the angle support member 161 . At this time, the joint part 165 is rotated about three axes. The first angle holder 166 is coupled to the joint portion 165 and coupled to the pipe of the support trust 100 . The second angle holder 167 is rotatably coupled to the first angle holder 166 and is installed to surround the pipe together with the first angle holder 166 . The angle fastening member 168 fastens the first angle holder 166 and the second angle holder 167 .

Since the angle restraining member 163 is movably installed in the bolt part 162, even if the size of the angle 13 is different depending on the size and type of the pylon 10, the angle restraining member 163 is the bolt part 162. It can be moved in to constrain both sides of the angle (13). That is, when the size of the angle 13 is large, the angle constraining member 163 is moved away from the angle support member 161 and then the angle 13 as the nut part 164 constrains the angle constraining member 163 . ) to bind both sides of the In addition, when the size of the angle 13 is small, the angle constraining member 163 is moved closer to the angle support member 161 and then the nut part 164 constrains the angle constraining member 163, the angle 13 bind both sides of Accordingly, the angle clamp 160 may be coupled to the angle 13 of the pylon 10 regardless of the size and type of the pylon 10 .

In addition, since hook portions 163a constraining both sides of the angle 13 are formed in the angle restraining member 163 , it is possible to prevent the angle 13 from being separated from the angle clamp 160 . In addition, since the joint part 165 is rotatably coupled to the angle support member 161, the first angle holder 166, the second angle holder 167, and the angle fastening member 168 can be rotated in various directions. have. Accordingly, the first angle holder 166 and the second angle holder 167 may be coupled to the pipe regardless of the position of the pipe in the support trust 100 .

The protective rope 170 is connected to the support trust 100 of the neighboring pylon 10 . In this case, the protection rope 170 is coupled to the fixing hole of the fixing clamp 140 coupled to the support trust 100 . The protection rope 170 is connected to both ends of the support trust 100 and is arranged in parallel with the electric wire. After connecting the safety net to the protection rope 170, it can be moved to the protection position. Here, the protection rope 170 means a rope connecting a pair of support trusts 100 to install a safety net.

The installation process of the heavy equipment access prevention device for a pylon according to an embodiment of the present invention configured as described above will be described.

10 is a configuration diagram illustrating a state in which the support trust is moved to the lower part of the pylon in the apparatus for preventing access of heavy equipment for a pylon according to an embodiment of the present invention.

Referring to FIG. 10 , a support trust 100 is formed by assembling a pair of first support modules 110 and one or more second support modules 120 . In this case, the first support module 110 is disposed on both sides of the support trust 100 , and the third support module is disposed between the first support modules 110 . The fixing clamp is coupled to the support trust 100 , and the hanger clamp 130 and the winch clamp 150 are coupled to the angle 13 of the pylon 10 . In this case, the support trust 100 is formed to be longer than the distance between the wires installed on both sides of the pylon 10 .

11 is a configuration diagram illustrating a state in which the support trust is raised to the top of the pylon in the apparatus for preventing access of heavy equipment for pylons according to an embodiment of the present invention.

Referring to FIG. 11 , one side of the hanger rope 50 is connected to the hanger rope fixing parts 144 and 113 of the first support module 110 , and the other side of the hanger rope 50 is connected to the upper side of the pylon 10 . After connecting to the hanger clamp 130 coupled to the hanger to the lower side. The operator pulls the hanger rope 50 to raise the support trust 100 to the upper side of the pylon 10 . When the support trust 100 is raised to a certain height, the hanger rope 50 is connected to the upper hanger clamp 130 and the fixing clamp 140 of the support trust 100 . At this time, both ends of the hanger rope 50 are connected to the hanger clamp 130 and the fixing clamp 140 by a fastening member such as an eye bolt. As the hanger rope 50 is wound by a rubber block (not shown), the hanger rope 50 connected to the upper side of the support trust 100 maintains tension. Accordingly, it is possible to prevent both ends of the support trust 100 from sagging downward.

12 is a configuration diagram illustrating a state in which the support trust is fixed to the upper part of the pylon in the apparatus for preventing access of heavy equipment for a pylon according to an embodiment of the present invention.

12, after connecting one side of the other hanger rope 50 (lower hanger rope 50) to both ends of the support trust 100, the hanger rope 50 is hung down. The other side of the hanger rope 50 is connected to the hanger clamp 130 coupled to the lower side of the pylon 10 , and is wound around the winch part 156 of the winch clamp 150 . Accordingly, the support trust 100 is fixed to the two adjacent pylons 10 at a predetermined height.

13 is a configuration diagram illustrating a state in which a protection rope is connected to a support trust in an apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.

Referring to FIG. 13 , in a state in which the support trust 100 is fixed to the pylon 10 , the protection rope 170 is inserted into the fixing clamp 140 coupled to the support trust 100 . The protection rope 170 is connected to the fixing clamp 140 fixed to the support trust 100 and then hangs both sides of the protection rope 170 downward. One side of the protection rope 170 is connected to the hanger clamp 130 on the lower side, and the other side of the protection rope 170 is wound around the winch part 156 of the winch clamp 150 . Accordingly, the protection rope 170 is connected to the support trust 100 installed in the adjacent pylon 10 while maintaining a constant tension.

14 is a block diagram illustrating a state in which a protection net is connected to a protection rope in an apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention, and FIG. 15 is an apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention It is a configuration diagram showing the state in which the protection rope is spread on the support trust.

14 and 15 , both sides of the protection net 180 are connected to the protection rope 170 . The protection net 180 is moved to the upper side of the protection object (not shown). The protective net 180 is spread on both sides to cover the upper side of the object to be protected. Since the protective net 180 covers the upper side of the object to be protected, it is possible to prevent the electric wire from falling and damaging the object to be protected while working with the electric wire. In addition, since the support trust 100 is formed to be longer than the distance between the electric wires installed on both sides of the pylon 10, the protection rope 170 is also installed outside the electric wire. Therefore, it is possible to prevent the heavy equipment higher than the protection rope 170 from entering the lower part of the pylon 10 or the electric wire when the heavy equipment works or operates near the pylon 10 .

16 is a configuration diagram illustrating a state in which a protection rope and a safety rope are connected side by side to a support trust in an apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.

Referring to FIG. 16 , when there are too many objects to be protected under the pylon 10 , a plurality of safety ropes 181 are connected to the support trust 100 in parallel. Several strands of safety ropes 181 are connected in parallel to expand the scope of protection as a whole between adjacent pylons, thereby protecting the entire lower part of the pylon 10 .

17 is a configuration diagram illustrating a state in which a protection rope and a connecting rope are connected to a support trust in the apparatus for preventing access to heavy equipment for a pylon according to an embodiment of the present invention.

Referring to FIG. 17 , when replacing wires or performing wire construction in the pylon 10, protective ropes 170 are installed at both ends of the support trust 100, and a plurality of connecting ropes 182 are attached to the protective rope ( 170) is connected. The connection rope 182 is arranged at regular intervals along the longitudinal direction of the protection rope 170 . Since the plurality of connection ropes 182 are connected to the protection rope 170 in a form that crosses between the protection ropes 170, the object to be protected can be protected even if the wire falls when replacing the wire.

As described above, since the protection rope 170 is connected to the support trust 100 after the support trust 100 is directly fixed to the pylon 10, there is no need to install a height limiting device on the land near the pylon 10 . Therefore, the heavy equipment access prevention device for the pylon can be installed on the pylon 10 quickly, since there is no need to obtain consent from the landowner when installing the support trust 100 and the protective rope 170 .

In addition, since the support trust 100 is fixed to the pylon 10 by the hanger rope 50 and the plurality of clamps 130 , 140 , 150 , 160 , it is possible to prevent the angle 13 of the pylon 10 from being damaged.

In addition, since the support trust 100 is manufactured by assembling a plurality of support modules, the length of the support trust 100 can be appropriately adjusted according to the size or type of the pylon 10 . Therefore, regardless of the size and type of the pylon 10, the support trust 100 and the protection rope 170 can be used in common.

In addition, as the support trust 100 is modularized, there is no need for a separate safety test. Accordingly, it is possible to shorten the time required for the heavy equipment access prevention device for the pylon to be installed in the pylon 10 .

Although the present invention has been described with reference to the embodiment shown in the drawings, this is merely an example, and those skilled in the art to which various modifications and equivalent other embodiments are possible. will understand

Accordingly, the true technical protection scope of the present invention should be defined by the claims.

10: pylon 13: angle
50: hanger rope 100: support trust
110: first support module 111: first coupling pipe part
112: first coupling pin portion 113: hanger rope fixing portion
115: first frame portion 116: first fastening hole
120: second support module 121: second coupling pipe part
122: second coupling pin portion 125: second frame portion
126: second fastening hole 130: hanger clamp
131: first hanger panel 131a: receiving groove
131b: first long hole 132: rope fixing part
133: second hanger panel 133b: third long hole
134: rope fixing part 135: hanger fastening member
140: fixing clamp 141: first fixing holder
142: second fixing holder 144: fixing part
145: fastening member for fixing 150: winch clamp
151: first winch panel 151a: insertion groove
151b: first slot 153: second winch panel
153b: second slot 155: winch fastening member
156: winch portion 157: fixed shaft
158: spool 159: handle
160: angle clamp 161: angle support member
162: bolt portion 163: angle constraint member
163a: hook portion 164: nut portion
165: joint portion 166: first angle holder
167: second angle holder 168: angle fastening member
170: protection rope 181: safety rope
182: connecting rope

Claims (3)

a support trust on which a plurality of support modules are assembled along the longitudinal direction;
hanger clamps coupled to the pylon;
a fixing clamp coupled to the support thrust and connected by the hanger clamp and a hanger rope;
a winch clamp coupled to the pylon and lifting the support thrust by pulling the hanger rope connected to the hanger clamp and the fixing clamp;
an angle clamp coupled to the support trust and the pylon to fix the support trust to the pylon; and
and a protective rope connected to the support truss of the neighboring pylon;
The hanger clamp is
a first hanger panel in which an accommodating groove is formed to accommodate the corner of the angle of the pylon, and first long holes are formed on both sides of the accommodating groove;
a second hanger panel disposed to face the first hanger panel and having a second long hole facing the first long hole; and
and a hanger fastening member installed in a position moved from the first long hole and the second long hole according to the size of the angle of the pylon,
The fixing clamp is
a first fixing holder;
a second fixing holder rotatably coupled to the first fixing holder and surrounding the pipe together with the first fixing holder;
a fastening member for fastening the first fixed holder and the second fixed holder; and
and a fixing part extending from the first fixing holder and to which the hanger rope is connected,
The winch clamp is
a first winch panel in which an insertion groove is formed to insert the corner of the angle of the pylon, and first slots are formed on both sides of the insertion groove;
a second winch panel disposed opposite to the first winch panel and having a second slot opposite to the first slot;
a winch fastening member positioned in the first slot and the second slot according to the size of the angle of the pylon; and
It is fixed to the first winch panel and includes a winch unit for winding the hanger rope,
The angle clamp is
an angle support member bent in a right angle form to accommodate the corner of the angle of the pylon;
a bolt portion coupled to both ends of the angle support portion, respectively, and having a threaded portion formed on an outer surface thereof;
an angle constraining member movably coupled to the bolt unit, and having hook units formed so that both sides of the angle are constrained;
a nut portion screwed to the bolt portion to constrain the angle constraining member;
a joint portion rotatably installed on the angle support member;
a first angle holder coupled to the joint part and coupled to the pipe of the support thrust;
a second angle holder rotatably coupled to the first angle holder and surrounding the pipe together with the first angle holder; and
Heavy equipment access prevention device for a pylon, characterized in that it comprises an angle fastening member for fastening the first angle holder and the second angle holder.
According to claim 1,
The support trust is
a first support module disposed on both ends of the support trust, a first coupling pipe portion is formed on one side, a first coupling pin portion is formed on the other side, and a hanger rope fixing portion is formed so that the hanger rope is connected; and
It is disposed between the first support modules, a second coupling pin part is formed to be inserted into the first coupling pipe part on one side, and a second coupling pipe part is formed to be inserted into the first coupling pin part or the second coupling pin part on the other side. Heavy equipment access prevention device for pylon, characterized in that it comprises a second support module to be.
3. The method of claim 2,
A first frame portion in which a plurality of first fastening holes are formed is formed at the other end of the first support module,
The apparatus for preventing access to heavy equipment for pylons, characterized in that at both ends of the second support module, a second frame part in contact with the first frame part and having a second fastening hole corresponding to the first fastening hole is formed.

Images