KR102095025B1 - Installation method protection pipe for underground line - Google Patents

Abstract

According to the present invention, provided is a method for installing a distribution line protection means for power transmission, which separates a sensing tube from a main body tube to additionally accommodate a cable or to easily replace the cable, constantly adjusts a height from a base part of a report tube to be buried during buried installation, and effectively suppresses and handles external shock transmission in handling for initial installation or a post-maintenance process.

Description

INSTALLATION METHOD PROTECTION PIPE FOR UNDERGROUND LINE

The present invention relates to a method for installing a protection means for a transmission line, and more specifically, by separating a sensing tube from the main body tube, the cable can be additionally accommodated or the cable can be easily replaced, and the report tube is buried when installing the landfill. It is possible to adjust the height from the base of the steadily, and it relates to a method of installing a transmission line protection means to enable handling while effectively suppressing external shock transmission in handling for initial installation or post maintenance.

The existing underground electric line can be damaged by the work of excavating the ground when a separate waterworks, sewerage or electric line repair work is performed, because the ground line is installed to be buried in the ground and the location on the ground cannot be easily identified. There is this. Techniques for solving this have been continuously developed and the effect of improvement is applied to some extent. However, in the initial installation of such a wire protection means, the height thereof is adjusted, and there is still a problem in that there are no basic technologies for more stable and easy handling in the post-installation handling.

Korean Registered Patent No. 10-1247364

According to the present invention, the sensing tube is separated from the main body tube, so that the cable can be additionally stored or the cable can be easily replaced, and the height can be adjusted from the base of the buried tube buried during the installation of the landfill, and the initial installation or post-maintenance It is an object of the present invention to provide a method of installing a protection means for a transmission line that can effectively handle external shock transmission while handling the repair process.

The present invention, as a method of installing a protection means for a transmission line, forms a space in which a plurality of cables are accommodated, the top surface is opened, and an open / close door (12 ') is installed to open and close the upper portion, and the open / close door (12') is waterproof Providing a body tube 10 'provided with a projection 18'; Obtaining a detection tube (30 ') formed on the bottom surface of the waterproof groove (18') inserted into the waterproof projection (18 '), a separate space is formed to open the upper portion, and a plurality of detection covers are installed to be opened and closed; And an output unit 70 'consisting of a light source that irradiates light when the detection cover is opened, and a sound generator that outputs a warning sound when the detection cover is opened. , A plurality of side driving portions 511 provided on both side surfaces of the main body tube 10 '; A mounting portion 40 through which the main body tube 10 'is mounted; And a binding module 41 for binding to the side driving part 511 by mounting the mounting part 40,

The binding module 41 is provided with a base plate 60 interlocked with the side driving unit 511 and a height adjustable on the base plate 60, and a seating body 45 on which the mounting portion 40 is seated ), And includes a connecting column 50 for connecting the base plate 60 and the side driving unit 511, wherein the connecting column 50 is at least provided in the side driving unit 511. A pair of first pillar driving parts 51, at least one pair of second pillar driving parts 52 provided on the base plate 60, the first pillar driving parts 51 and the second pillar driving parts 52 ) Includes a support bar 53 that is a polygonal bar shape provided between, and the first pillar driving part 51 is provided to be able to move in a sliding manner in a certain range from the side driving part 511, and the second pillar The driving unit 52 is a sliding method in a predetermined range corresponding to the first pillar driving unit 51 in the base plate 60 It is provided to be movable, the mounting portion 40 is formed in the recess (SH) between the upper and lower ends, respectively, at both ends, the support 53, the first pillar driving unit 51 and the second pillar At least one of the first pillar driving part 51 and the second connection part is inserted into each of the recessed grooves SH based on the positional movement of the driving part 52 and inserted into the recessed groove SH. Provides a method for installing a protection means for a power transmission line that rotates in the circumferential direction based on the driving of the generator to generate a fixed force for the mounting portion 40.

According to the present invention, by separating the sensing tube from the main body tube, the cable can be additionally accommodated or the cable can be easily replaced, and the height can be adjusted from the base of the buried tube buried during the installation of the landfill. In the handling for the maintenance process, there is an effect that can provide a method of installing a protection means for a transmission line that can be handled while effectively suppressing external shock transmission.

1 is a cross-sectional perspective view showing an electric wire protection means for transmission and distribution according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view illustrating transmission line protection means for transmission and distribution according to FIG. 1.
FIG. 3 is a state diagram showing transmission and distribution wire protection means according to FIG. 1.
4 to 14 are schematic diagrams showing configurations according to FIG. 1.
15-18 are schematic diagrams showing the configurations according to FIG. 1.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
<Power transmission and distribution line protection means>
1 is a cross-sectional perspective view showing an underground electric wire protection means for power transmission and distribution according to an embodiment of the present invention. FIG. 2 is a cross-sectional view showing a transmission line protection means for transmission and distribution according to FIG. 1. FIG. 3 is a state diagram showing the use of underground protection means for transmission and distribution according to FIG. 1. 1 to 3, the underground electric wire protection means for power transmission and distribution according to an embodiment of the present invention forms a space in which a plurality of cables are accommodated, an upper surface is opened, and a first hinge is opened on the opened upper surface. The opening and closing door 12 'is installed so that the upper part is opened and closed by 14', and the main body tube 10 'provided with a waterproof projection 18' to the opening and closing door 12 'and a waterproof projection 18' A waterproof groove (35 ') is inserted is formed on the bottom surface, a separate space is formed, the upper part is opened, and a plurality of sensing covers (38') are installed to be opened and closed by the second hinge (36 '). Formed at the end of the tube 30 'and the first cover 38a' which is rotatably installed by a second hinge 36 'at one upper end of the sensor tube 30' to form a sensing cover 38 ' Fixed protrusions 52 'and second protrusions 38b' rotatably installed by the second hinge 36 'at the upper end of the other side of the sensing tube 30' so that the fixed protrusions 52 'are fitted. only Fixed groove portion 54 'formed on the first elastic projection 56' formed on the inner wall of the sensing cover 38 ', and second elastic projection 58' formed on the bottom surface of the sensing tube 30 ' , And an opening / closing portion 50 'including an elastic member 59' interposed between the first elastic projection 56 'and the second elastic projection 58', and formed on the bottom surface of the sensing tube 30 '. It is connected to the power line 76 'inserted from the main body tube 10' through the power hole portion 32 ', and when the detection cover 38' is opened, a light source 74 'for irradiating light, and a detection cover ( 38 ') includes an output unit 70' consisting of a sound generator 72 'that outputs a warning sound when opened.
The protection means of the present embodiment includes a main body tube 10 ', a sensing tube 30', an opening / closing part 50 ', and an output part 70', and the body tube 10 'has an open top surface. Becoming and forming a space so that a plurality of cables are accommodated therein, the first door 12a 'and the second door 12b' are rotatable by the first hinge 14 'at the upper end of the main body tube 10' Is installed. Waterproof protrusions 18 'protruding upward are formed on the upper surfaces of the first door 12a' and the second door 12b ', and the waterproof protrusions 18' are respectively provided at both ends of the bottom surface of the sensing tube 30 '. A waterproof groove 35 'to be inserted is formed. On both sides of the sensing tube 30 ', a fastening hole is formed through which is connected to the waterproof groove 35', and the fastening member inserted along the fastening hole is coupled with the waterproof protrusion 18 'to open and close the door 12'. On the sensing tube 30 'is detachably coupled. Therefore, the operator can detach the sensing tube 30 'on the upper surface of the opening / closing door 12' while engaging or separating the fastening member, and additionally receive or store the cable accommodated inside the body tube 10 '. It becomes possible to easily perform the operation of replacing.
The sensing tube 30 'forms a space in which the upper surface is opened and the output unit 70' is accommodated therein, and the first cover by the second hinge 36 'at the upper end of one side of the sensing tube 30' 38a ') is rotatably installed, and the second cover 38b' is rotatably installed by the second hinge 36 'at the other upper end of the sensing tube 30'. A fixing protrusion 52 'is formed at an end of the first cover 38a', and a fixing groove 54 'is formed at an end of the second cover 38b' to fix the fixing protrusion 52 'to the fixing groove 54'. When pressurized to '), the sensing cover 38' is closed and the inside of the sensing tube 30 'is sealed. An elastic member 59 'is interposed between the first elastic projection 56' formed on the bottom surface of the sensing cover 38 'and the first elastic projection 56' formed on the bottom surface of the sensing tube 30 '. Therefore, after the detection cover 38 'is closed, an external force may be applied to the detection cover 38' when an excavation process is performed by heavy equipment such as Poclain. At this time, as the detection cover 38 'is deformed, the fixed protrusion 52 When ') is separated outside the fixing groove 54', a warning sound is output from the sound generator 72 'and light is irradiated from the light source 74', so that the worker can easily recognize the position of the protection means. Therefore, as the work of installing and replacing waterworks, sewers, and electric wires progresses, it is possible to prevent an accident that damages an existing conduit. A fastening hole portion is formed on the side of the main body tube 10 ', and the fastening member inserted into the fastening hole portion is coupled to the waterproof projection 18' inserted into the waterproof groove 35 ', so that the operator disassembles the fastening member, so that the body tube Since the sensing tube 30 'can be easily separated from the upper surface of the 10', it is possible to easily store a separate cable inside the main tube 10 'or to replace the existing cable. The opening / closing door 12 'includes a first door 12a' rotatably installed at one upper end portion of the main body tube 10 'by a first hinge 14', and an upper end portion of the other side of the main body tube 10 '. A second door (12b ') that is rotatably installed by the first hinge (14') and is disposed to maintain a gap with an end of the first door (12a ') to form a through hole (16') do. As described above, since the ends of the first door 12a 'and the second door 12b' are formed to be spaced apart from each other, the first door 12a 'and the second door 12b' are closed even if the first door 12a 'and the second door 12b' are closed. A gap is formed between the end of the door 12a 'and the end of the second door 12b' to form the through hole 16 '.
In addition, since the through hole portion 16 'is disposed to face the power hole portion 32' formed on the bottom surface of the sensing tube 30 ', the power line 76' accommodated in the main body tube 10 'passes through the through hole portion ( 16 ') and the power hole portion 32' to be connected to the sound generator 72 'and the light source 74' installed on the bottom surface of the sensing tube 30 '. In addition, a rotation detection sensor for detecting whether the second hinge 36 'is rotated is installed in the second hinge 36' that connects the detection cover 38 'to the detection tube 30' to be rotatable. Accordingly, the second hinge 36 'is rotated when the fixing protrusion 52' is separated outward from the fixing groove 54 'by the excavation operation and the sensing cover 38' is opened by the elastic force of the elastic member 59 '. Therefore, the output signal is transmitted from the rotation sensor, and the power supplied along the power line 76 'is supplied to the sound generator 72' and the light source 74 ', and a warning sound is generated, and at the same time, the light is irradiated and the worker is protected. It is easy to recognize the location of the reclamation. As a result, when an external force is applied to the protection means by the excavation work of the ground, it is possible to provide a protection means for transmission and distribution underground cables for outputting an emergency signal so that an operator can recognize the location of the underground lines.
On the other hand, FIGS. 4 to 14 are schematic diagrams showing components according to FIG. 1. Referring to FIG. 4, the transmission and distribution electric wire protection means includes a mounting portion 40 on which the main body tube 10 'is mounted, and a side driving portion 511 through the mounting portion 40. Further comprising a binding module 41 for, the binding module 41 is provided to be adjustable in height to the base plate 60 and the base plate 60, which is connected to the side driving unit 511 through, the It includes a seating body 45 to which the mounting portion 40 is seated.
And a connecting pillar portion 50 for connecting the base plate 60 and the side driving portion 511, wherein the connecting pillar portion 50 is at least one pair of first provided on the side driving portion 511. Pillar driving unit 51, at least a pair of second pillar driving units 52 provided on the base plate 60, and provided between the first pillar driving unit 51 and the second pillar driving unit 52 And a support 53 that is a polygonal bar shape. Here, the method for allowing the first pillar driving part 51 and the second pillar driving part 52 to flow in the side driving part 511 and the base plate 60, respectively, is not limited to any particular method. Although not shown, for example, a method of forming a guide hole on the side driving part 511 and the base plate 60 so as to flow constantly along the guide hole may be applied.
The first pillar driving unit 51 is provided to be able to move in a sliding manner in a predetermined range from the side driving unit 511, and the second pillar driving unit 52 is the first pillar driving unit in the base plate 60. In response to (51) is provided to be able to move the position in a sliding manner in a predetermined range. The mounting portion 40 has recesses (SH) formed between the upper and lower ends, respectively, at both ends.
The support 53 is respectively inserted into the indentation grooves SH based on the positional movement of the first columnar driving unit 51 and the second columnar driving unit 52, and is inserted into the indentation groove SH Rotating in the circumferential direction based on the driving of at least one of the first pillar driving part 51 and the second connecting part to generate a fixed force for the mounting part 40.
The protection means further includes a reinforcement support module 70 for supporting and fixing the lower portion of the base plate 60 of the binding module 41. The reinforcement support module 70 includes a main body 71 and a first mounting module 61 provided in the main body 71 and inserted into the first mounting groove LH1 of the base plate 60. .
The first mounting groove (LH1), the first-first mounting space portion (LH11), and the first-first mounting space portion (LH11) stepped upward and the first 1-2 mounting space portion (LH12) to be expanded It is equipped with. The first mounting module 61 includes a first connecting member 611, a first driving body 612 provided on an upper end of the first connecting member 611, and the first driving body 612. It includes a first locking body 613 that flows to both sides.
After the first drive body 612 reaches the first-2 mounting space portion LH12 via the first-first mounting space portion LH11, the first locking bodies 613 are both sides. It is driven so as to protrude to be seated on the first locking jaw portion P1 on the inner circumferential surface of the 1-2 mounting space portion LH12.
The first locking body 613 is seated on the first locking jaw portion P1, and rotates in the circumferential direction on the first driving body 612 to form an inner wall on the 1-2 mounting space LH12. It operates in a first operating state that is fixed to at least a part.
The first connecting member 611 flows backward to the main body 71 after the first operation state, thereby imparting a binding force between the base plate 60 and the main body 71.
The reinforcing support module 70 further includes a receptor 80 that accommodates at least a portion of the main body 71. The receptor 80 is provided so as to be able to rotate between the horizontal body and the vertical direction on one side of the lower body portion 81 and the lower body portion 81, which are in contact with the lower portion of the main body 71, A first rotating body portion 81 in contact with one side and a second rotating body portion 82 provided on the other side of the lower body portion 81 so as to be rotatable between a horizontal direction and a vertical direction, contacting the other side of the main body 71 ).
The first rotation body portion 81 is provided in the height direction, the first side projection body 822 formed in the main body 71, the first side projection body 822 to protrude to be inserted into the first The side driving body 821 and the second side driving provided on the height direction to protrude and insert the second side protruding body 824 into the second side mounting groove SH2 formed in the main body 71. A sieve 823 is provided.
The second rotating body portion 82 is provided on the height direction, the third side protruding body 832 to the third side mounting groove (SH3) formed in the main body 71 to protrude to be inserted into the third A side driving body 831 and a fourth side driving member provided on the height direction so as to protrude and insert the fourth side protruding body 834 into the fourth side mounting groove SH4 formed in the main body 71. A sieve 833 is provided.
A first stepped space portion RP1 is formed between the first rotating body portion 81 and the base plate 60. A second stepped space portion RP2 is formed between the second rotating body portion 82 and the base plate 60. The base plate 60, the first lower driving unit 62 that can flow in a sliding manner to the lower portion, protrudes from the first lower driving unit 62, enters the first stepped space unit RP1 and enters the main body ( 71) a first lower insert 63 to pressurize, a second lower driving part 64 that can flow in a sliding manner to the lower part, and the second stepped space part protruding from the second lower driving part 64 A second lower insert 65 is provided to enter (RP2) and pressurize the main body 71.
The base plate 60 includes a plurality of second mounting modules 72 which are provided at the bottom and inserted into the second mounting groove LH2 provided in a large number of the main body 71. The second mounting groove LH2 includes a 2-1 mounting space portion LH21 and a 2-2 mounting space portion LH22 that is stepped and expanded upwardly above the 2-1 mounting space portion LH21. It is equipped with. The second mounting module 72 includes a second connecting member 721, a second driving body 722 provided at a lower end of the second connecting member 721, and the second driving body 722. It includes a second locking body 723 flowing to both sides.
After the second drive body 722 reaches the second-2 mounting space portion LH22 via the 2-1 mounting space portion LH21, the second locking bodies 723 are both sides. It is driven so as to protrude to be seated on the second locking jaw portion P2 on the inner circumferential surface of the 2-2 mounting space portion LH22.
The second locking body 723 is seated on the second locking jaw portion P2, rotates in the circumferential direction on the second driving body 722, and the inner wall on the 2-2 mounting space portion LH22 It is operated in a second operation state that is closely fixed to at least a part. The second connecting member 721 flows backward to the main body 71 after the second operation state, thereby imparting a binding force between the base plate 60 and the main body 71.
The protection means, a pair of horizontal binding body drive unit 95 and the horizontal trigger body driving unit 95 provided on the outer circumferential surfaces of the first rotating body portion 81 and the second rotating body portion 83, respectively. ) Are interlocked with the left and right sides of the horizontal binding body 91 which is mounted to press and surround at least a portion of the outer peripheral surfaces of the first rotating body portion 81 and the main body 71 and the second rotating body portion 83. ), The first vertical binding body 92 which is provided on the front portion and the rear portion of the horizontal binding body 91, and is operated to press the upper portion of the base plate 60 downward,
It includes a second vertical binding body 93 that is provided on the front portion and the rear portion of the horizontal binding body 91, and is operated to press the lower portion of the lower body portion 81 upward. The horizontal binding body 91 is provided to be able to flow back and forth between the inner and outer sides of the horizontal binding body driving unit 95.
<How to install protection means for transmission and distribution lines>
The method of installing the underground wire protection means for distribution based on the above-mentioned contents forms a space in which a plurality of cables are accommodated, the upper surface is opened, and an opening / closing door 12 'is installed to open and close the upper portion, and the opening / closing door ( 12 ') providing a body tube 10' provided with a waterproof projection 18 '; The waterproof projection (18 ') is formed on the bottom surface of the waterproof groove (35') is inserted, a separate space is formed to open the upper portion, a plurality of detection covers are installed to open and close the detection tube (30 ') to obtain a step Includes. The underground electric wire protection means for power distribution includes a plurality of side driving parts 511 provided on both side surfaces of the main body tube 10 '; A mounting portion 40 through which the main body tube 10 'is mounted; And a binding module 41 for binding to the side driving part 511 by mounting the mounting part 40. The binding module 41 is provided with a base plate 60 interlocked with the side driving unit 511 and a height adjustable on the base plate 60, and a seating body 45 on which the mounting portion 40 is seated ).
15 to 18, the base plate 60 is provided below and further includes an auxiliary support module for alleviating the work impact of the base plate 60, and the auxiliary support module is a first auxiliary corresponding to each other. It includes a support module 110 and a second auxiliary support module 210.
The first auxiliary support module 110 includes a lower first base 111 and a first support portion 106 positioned on the first base and installed to support a lower portion of the base plate 60, and It is provided on the first base 111, the first lower holding portion 105 for holding the first area portion in the height direction of the first support portion 106, and is provided on the first base 111, the first And a first upper holding portion 107 for holding the upper second region portion of the support portion 106.
The first support portion 106 includes a first main body 113 provided on the first base 111, a first extension portion 114 provided on an upper portion of the first main body 113, The first main body is provided so as to extend upward from the first main body 113 and a pair of first fluids 115 respectively provided on both sides of the first extension part 114, the first extension It includes a first pillar portion 116 that interpolates and passes through the portion 114 and contacts the base plate 60.
The first lower holding part 105 is a pair of first-first vertical support parts 112 provided upwardly from the pair of first-first driving means 120 provided in the first base 111, respectively. ), And the first-first horizontal support 117 horizontally installed from the first-first vertical support 112 to the first pillar 116, and the first-first horizontal support 117. It is provided at each end of the includes a first gripping portion 118 for gripping the first pillar portion 116, the first-1-1 vertical support 112 is the first gripping portion 118 to the In a state where the first pillar portion 116 is held, it flows in a predetermined range from the first-first driving means 120 to the lower portion.
If the first fluid 115 is provided in a state in which the first gripping portions 118 are seated on the first extension portion 114, the first gripping portion seated on the first extension portion 114 is provided. Each of the two sides of (118) is pressed, and the first extension portion (114) is provided with a first shape detection unit (119) to detect the degree of misalignment of the first gripping portions (118) on the upper portion. The status of the first gripping unit 118 is checked by transmitting the status information value according to the outside.
The first upper holding unit 107 includes a first-2 vertical support unit 122 provided upwardly from each of the pair of first-2 driving means 121 provided in the first base 111, And a first connector 123 provided through the first pillar portion 116 between the 1-2 vertical supports 122.
The first-2 vertical support parts 122 flow a predetermined range from the first-2 driving means 121 to the bottom, and the first pillar part 116 via the square bar-shaped first connecting body 123 ).
The first connecting body 123 is vertically rotated between the 1-2 vertical supports 122, and the first gripping part 118 is connected to one of the 1-1 horizontal supports 117. The first pillar with the first-first gripping body part 118a which is directly interlocked, and the first-first pressure protruding part 118b provided on both sides of the first-first gripping body part 118a and provided to flow back and forth. A pair of 1-1 pressing body parts 118c for pressing a part of the part 116, and a 1-2 gripping body part 119a directly interlocked with the other of the 1-1 horizontal support parts 117 ), A pair of pressing portions of the first pillar portion 116 with the first-2 pressing protrusions 119b provided on both sides of the 1-2 gripping body portion 119a and provided for advancing and retreating. It includes a first-2 pressing body portion (119c).
Before the first-first pressing protrusion 118b is pressed, the first-first gripping body portion 118a is vertically positioned to guide the up-and-down flow of the first pillar 116 and rotated vertically. One guide rotating body 118a1 is provided. Prior to the pressing of the first and second pressing protrusions 119b, the first and second gripping body portions 119a are vertically positioned to guide the vertical flow of the first pillar portion 116 and rotated vertically. 2, the guide rotating body (119a1) is provided.
In the first guide rotating body 118a1, when the first-first pressure protruding portion 118b performs a pressing operation against the first pillar portion 116, the first pillar portion 116 is rotated through vertical rotation. ). The second guide rotating body (119a1),
When the first-2 pressing protrusion 119b performs a pressing operation on the first pillar portion 116, the guide to the first pillar portion 116 is restricted through vertical rotation. A first base extension 124 is provided below the first base 111 of the first auxiliary support module 110.
A second base extension portion 224 is provided below the second base 211 provided in the second auxiliary support module 210 to correspond to the first base 111, and the titanium cutting processing system includes: The first auxiliary support module 110 and the second auxiliary support module 210 further comprises a receiving module 220 for receiving.
A first base extension 124 is provided below the first base 111, a second base extension 224 is provided below the second base 211, and the accommodation module 220 is provided. Silver, a receptor base portion 221, a first guard panel portion 222 provided on one side of the receptor base portion 221, and a second guard panel portion provided on the other side of the receptor base portion 221 ( 223) and a central compartment 224 provided in the central portion of the receptor base portion 221.
The first base extension portion 124 is accommodated in a first space portion SP1 between the first guard panel portion 222 and the central compartment 224, and the second base extension portion 224 is The second guard panel portion 223 is accommodated in the second space portion SP2 between the central compartment 224, and the first guard panel portion 222 is the first base extension portion 124 Fix it inward. The second guard panel portion 223 pressurizes and secures the second base extension portion 224 to the inside, and allows the upper and lower flows through the interlocking member 225 to the upper portion of the central compartment 224. A finishing body 226 having a predetermined thickness interlocked is provided, and the first locking jaw portion LP1 on one side of the first base extension portion 124 is seated on the central compartment 224.
The second locking jaw portion LP2 on one side of the second base extension portion 224 is seated on the central compartment 224, and the finishing body 226 is moved from the top to the bottom on the central compartment 224. It is driven to press the first locking jaw portion LP1 and the second locking jaw portion LP2.
The closing body 226 includes a first entry body T1 mounted as the first locking jaw portion LP1 and a second entry body T2 mounted as the second locking jaw portion LP2 at the bottom. do. Wherein the first entry body (T1) is mounted on the first locking jaw portion (LP1), the second entry body is mounted on the second entry body (T2) in the state through the interlocking member 225, the receptor It rotates in the circumferential direction from the base portion 221 and generates a fixed force.
Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

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10 ': Body tube
12 ': Opening and closing door
14 ': 1st hinge
16 ': through hole
18 ': Waterproof projection
30 ': Detection tube
32 ': Power hole
35 ': Waterproof groove

Claims (5)

As a method for installing transmission line protection means,
A space for receiving a plurality of cables is formed, the upper surface is opened, and an opening / closing door 12 'is installed to open and close the upper portion, and a main body tube 10' provided with the opening / closing door 12 'and a waterproof projection 18' is provided. To do;
Obtaining a detection tube (30 ') formed on the bottom surface of the waterproof groove (18') inserted into the waterproof projection (18 '), a separate space is formed to open the upper portion, and a plurality of detection covers are installed to be opened and closed; And
And a light source for irradiating light when the detection cover is opened, and an output unit 70 'composed of a sound generator that outputs a warning sound when the detection cover is opened.
The transmission line protection means,
A plurality of side driving parts 511 provided on both side surfaces of the main body tube 10 ';
A mounting portion 40 through which the main body tube 10 'is mounted; And
It includes a binding module 41 for binding to the side driving portion 511 by mounting the mounting portion 40,
The binding module 41,
It includes a base plate 60 interlocked with the side driving unit 511, and a seating body 45 on which the height of the base plate 60 is adjustable, and the mounting portion 40 is seated,
It includes a connecting column 50 for connecting the base plate 60 and the side driving unit 511,
The connecting pillar portion 50,
At least one pair of the first pillar driving unit 51 provided in the side driving unit 511,
At least one pair of second pillar driving parts 52 provided on the base plate 60,
It includes a support 53 that is a polygonal bar shape provided between the first pillar driving unit 51 and the second pillar driving unit 52,
The first pillar driving unit 51 is provided to be able to move in a sliding manner in a predetermined range from the side driving unit 511,
The second pillar driving part 52 is provided to be able to move in a sliding manner in a predetermined range corresponding to the first pillar driving part 51 in the base plate 60,
The mounting portion 40 is formed in the recess (SH) between the upper and lower ends, respectively, at both ends,
The support 53,
Based on the positional movement of the first pillar driving part 51 and the second pillar driving part 52, they are respectively inserted into the indentation grooves SH,
In the state inserted into the recess (SH), rotates in the circumferential direction based on driving of at least one of the first pillar driving part 51 and the second connecting part to generate a fixed force for the mounting part 40, ,
The transmission line protection means,
Further comprising a reinforcement support module 70 for supporting and fixing the lower portion of the base plate 60 of the binding module 41,
The reinforcing support module 70 is
Body (71),
It is provided on the main body 71, and includes a first mounting module 61 that is inserted into the first mounting groove (LH1) of the base plate 60,
The first mounting groove (LH1),
Installation of a protection means for a transmission line provided with a first-first mounting space part (LH11) and a first-second mounting space part (LH12) stepped and expanded upwardly above the first-first mounting space part (LH11). Way. delete delete delete delete

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