KR102091059B1 - Connector for underground distribution line - Google Patents

Abstract

The present invention relates to a connector of an underground distribution cable comprising: a compression sleeve which is connected to a conductor exposed by a connection unit peeling an insulation sheath; and an insulation tube which covers the compression sleeve and the conductor. The present invention can sufficiently secure an electricity insulation for a connection part of a distribution cable, lifts and moves back and forth front and rear half pipes by means of an lifting means and back and forth moving means, tightens part of the connection part and the insulation sheath to fix the same, and maintains a state where the front and rear half pipes are inserted into a half sleeve type tray buried in a shelf to secure mechanical strengths for protecting the connection part from external vibrations or shocks. Accordingly, the present invention excludes limits of a connector installation as well as prevents a connection fault, an arc generation, damage of surrounding distribution cables caused by arc, breakdowns, serial arc generation, and blackouts and fire caused by the same, and simultaneously fixes and releases a plurality of distribution cables.

Description

Connection connector for underground distribution line

The present invention relates to a connection connector of an underground distribution line among technologies in the field of distribution, and more specifically, it is possible to sufficiently secure electrical insulation to the connection portion of the distribution cable and to protect the connection portion from external vibration or shock. Mechanical strength can be secured, and accordingly, it is possible to prevent a connection failure or arc, damage to the surrounding power distribution cable due to arcing, insulation breakdown, chain arcing, and power failure and fire. In addition, it is possible to exclude the limitation of the installation of the connection connector, and relates to a connection connector of an underground distribution line that allows fixing and release of a plurality of distribution cables at the same time.

In general, in order to supply power to electric power consumers in urban areas, overhead distribution line facilities using telephone poles installed on roadsides have been widely used, but these overhead distribution line facilities have been replaced with underground distribution line facilities for safety reasons and aesthetics of the city. have.

As shown in FIG. 11, such underground distribution line facilities are provided with a plurality of shelves 2 on both inner walls of an underground tunnel 1 buried in a concrete structure underground, and a plurality of shelves 2 on each floor. It is configured in such a way that the tray 3 is mounted to support the power distribution cable 4 for each tray 3.

In this underground distribution line facility, when the length of the underground tunnel 1 is shorter than the length of the unit cable used as the distribution cable 4, the distribution cable 4 is spread over the entire length of the underground tunnel 1. Although it can be composed of a cable, when the length of the underground tunnel 1 is longer than the length of the unit cable, the power distribution cable 4 is composed of two or more unit cables.

When two or more distribution cables 4 are composed of unit cables, the unit cables 4a and 4b must be electrically and mechanically connected to each other.

When connecting the conventional unit cables 4a and 4b electrically and mechanically, as shown in Fig. 12, the insulating coatings 5a and 5b of the unit cables 4a and 4b are peeled to expose the conductors 6a and 6b. Then, both conductors 6a, 6b are covered with a crimping sleeve 7 and the crimping sleeve 7 is crimped to both conductors 6a, 6b, so that both conductors 6a, 6b are crimped by the crimping sleeve 7 Electrically and mechanically connected, the crimp sleeve 7 is covered with an insulating material 8, and finally, an insulating tube 9 made of a thermoplastic resin is placed at the ends of the insulating material 8 and both insulating coatings 5a, 5b. A method of covering and applying heat so that the insulating tube 9 is in close contact with the insulating material 8 and the insulating films 5a and 5b on both sides is used.

However, in the connection method of the power distribution cable, as the connection part is covered with the insulating material 8 and the insulating tube 9, electrical insulation can be sufficiently secured, but in terms of mechanical strength, it is vulnerable to external vibrations or shocks, and the connection of the connection part is defective. There is a risk of occurrence, and if an arc occurs due to a connection failure, it will scatter around and damage the other power distribution cables (4) around it and the insulation will be destroyed, resulting in a series of arcs, resulting in a power outage or fire. There were several problems.

As a prior art related to underground distribution line facilities, Korean Registered Patent No. 10-1178224 (announced on August 29, 2012) "Underground Distribution Cable Connection Bracket" (hereinafter referred to as "Prior Art 1") is a special high voltage buried underground. This is a ground wire connecting bracket for distribution that prevents the occurrence of short circuit, discharge, electric shock or power failure by electrically and stably fixing the cable that transmits and distributes electric power. It is inserted into one seating part and seated, and the bottom bracket part and the bottom bracket part that are electrically connected while being mechanically fixed by contacting the conductor of the special high voltage cable with a plurality of bottom protrusions are hinged with a hinge shaft and hinge shaft rod Rotate around and overlap the upper side of the lower bracket to keep the fastening state by being engaged with teeth of either fence. The underground cable for distribution and transmission of extra-high voltage from the basement is electrically connected to the conductor by connecting the conductor of the special high-voltage cable seated on the high seating part with a plurality of upper protrusions and mechanically fixing the upper bracket part. It discloses a technology that prevents the occurrence of an accidental power failure and prevents the need for urgent maintenance by safely connecting to prevent the occurrence of short circuit, discharge, electric shock, etc., and stably fixed mechanically.

However, the prior art 1 is composed of a lower bracket part having a plurality of lower protrusions and an upper bracket part having a plurality of upper protrusions so that the lower protrusion and the upper protrusion come into contact with the conductor of the distribution cable, and the lower bracket part and the upper bracket. Since the additional bottom protrusion and the bottom protrusion do not completely cover and are open, an arc is generated when a connection failure occurs in the connection part due to external vibration or impact, and the generated arc is scattered to the surroundings and affects other distribution cables in the vicinity. There is a problem in that a series of arcs are generated and a blackout and fire are caused.

In addition, as a prior art related to the underground distribution line facility, the Republic of Korea Patent No. 10-1583683 (Announced on Aug. 8, 2016) "A structure of a protective connection device for underground distribution lines" (hereinafter referred to as "prior art 2") is the first. And a first tray and a second tray that support the second unit distribution cable, respectively, and are installed spaced apart from the left and right corresponding to the lengths of the connection portions of the first and second unit distribution cables, and a pair of before and after wrapping the connection unit. First and second half pipes for insulation and reinforcement; A pair of clamps arranged on both front and rear sides of the connecting portion of the first and second unit distribution cables to open and close the reinforcing half pipe; And a rotational clamp mount mounted rotatably on the first and second trays to which the clamp is mounted. The first and second insulating and reinforcing half pipes made of an insulating material, including the pressure of the connecting portions of the first and second unit distribution cables, can further increase the insulating performance of the connecting portions, as well as the first and second 2 The clamp mechanism coupled to the insulation and reinforcement half pipe) is fixedly coupled to the first and second trays, so it is possible to mechanically stably and securely support the first and second unit distribution cables and their connections. It discloses a technology that prevents connection failure and arc generation by protecting the connection part from vibration and shock, and prevents arc scattering and chain arc generation.

However, in the prior art 2, it can be said that there is no difficulty in supporting one distribution cable on one shelf, but when supporting multiple distribution cables, the clamps interfere with each other, and accordingly, the connection part of the distribution cable There is a problem that interferes with the clamping, and the operation of clamping or unclamping the clamp by the handle lever of the clamp must be performed for each of the plurality of power distribution cables, which makes the operation cumbersome.

Republic of Korea Registered Patent No. 10-1178224 (announced on August 29, 2012) "Underground cable connection bracket for distribution" Republic of Korea Patent Registration No. 10-1583683 (2016.01.08. Announcement) "Protective connection device structure of underground distribution line"

Therefore, the object of the present invention is to ensure sufficient electrical insulation for the connection portion of the distribution cable, as well as to secure the mechanical strength to protect the connection portion from external vibration or shock, thereby generating a connection failure or arc. , It is possible to prevent damage to the surrounding power distribution cable due to arc generation, insulation breakdown, chain arc generation, and power outages and fires, as well as limit the installation of connection connectors, and remove multiple power distribution cables The purpose of the present invention is to provide a connector for connection to an underground power distribution line, so that both the fixing and the unfixing of the cable can be simultaneously performed.

The present invention devised in order to achieve the above object is a crimping sleeve for connecting the exposed conductors (12, 22) by peeling the insulating coating (11, 21) of the left and right power distribution cables (10, 20) adjacent to each other. (110), the crimp sleeve 110 and the conductors (12, 22) including the insulating tube 120 surrounding the connecting portion 100 and the insulating coating (11, 21) so as to be fixed and unfixed In one thing,

A shelf 200 installed on both inner walls of the underground tunnel; Left and right trays 310 and 320 installed on the shelf 200 to support the left and right power distribution cables 10 and 20, and a central tray 330 supporting the connection part 100; A fastener 400 for tightening the connection part 100; A lifting plate 500 installed under the shelf 200; A lifting guide means (600) for guiding the lifting plate (500) to the shelf (200) to be elevated; An elevating means 700 for elevating the elevating plate 500; Front and rear guide means 800 for guiding the fastener 400 back and forth; It includes; before and after moving means 900 for moving the fastener 400 back and forth;

The shelf 200 has left and right tray fixing grooves 210 and 220 into which the left and right trays 310 and 320 are inserted and fixed, and a central tray fixing groove 230 into which the central tray 330 is inserted and fixed. Is formed,

The left and right trays 310 and 320 and the center tray 330 are formed of an insulating material, and have an inner diameter corresponding to the outer diameters of the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20, and a top surface. It is formed in the form of an open half sleeve, and is inserted and fixed into the left and right tray fixing grooves 210 and 220 and the central tray fixing groove 230,

A plurality of guide grooves 231 and 331 are formed in the central tray fixing groove 230 and the central tray 330,

The fastener 400 is formed integrally with the front and rear halfpipes 410, 420 and the lower half of the outer circumferential surface of the front halfpipe 410, which can be inserted into the center tray 330 and extend downward. The front left arm 411, the front right arm 412, the front center arm 413, and the lower half of the outer circumferential surface of the rear half pipe 420 are integrally installed to be movable back and forth along the guide grooves 231 and 331. It is formed and extends downward and comprises a rear left arm 421, a rear right arm 422, and a rear center arm 423, which are installed to be movable back and forth along the guide grooves 231 and 331,

The elevating guide means 600 is formed at four corners of the elevating plate 500 and a plurality of elevating guide rods 610 having an upper end fixed to the shelf 200 and extending downward, and the elevating guide rod 610 ) Comprises a lifting guide hole 620 through which the escape guide 630 is coupled to the lower end of the lifting guide bar 610,

The lifting means 700 is installed to be vertically mounted on the pair of linear actuator bodies 710 and vertically installed on the lower surface of the center of the lifting plate 500, and the lifting plates 500 ), The upper end is fixed to the lower surface of the shelf 200, and includes a lifting rod 720 and a through hole 730 formed in the lifting plate 500 and through which the lifting rod 720 penetrates. And

The front-rear guide means 800 is formed on the front and rear guide rods 810 and both front and rear guide arms 810, which are fixed to the front and rear ends of the upper and lower surfaces of the lift plate 500, and the front and rear center arms 423 and the front and rear sides. It comprises a front and rear guide hole 820 through which the guide rod 810 penetrates,

The front-rear moving means 900 is mounted on the lower surface of the hoist plate 500 and is capable of forward-reverse rotation, a front driving motor 910, and a power mechanism 920 coupled to the front driving motor 910, and A driving screw 930 for the front coupled to the output of the transmission mechanism 920, and a screw hole 940 for the front formed on the front left arm 411 and screwed to the driving screw 930 for the front. , The rear drive motor 950 mounted on the lower surface of the hoist plate 500 and capable of forward and reverse rotation, and a power mechanism 960 coupled to the rear drive motor 950 and the output of the power mechanism 960 It is configured to include a rear driving screw 970 coupled to a portion and a rear screw hole 980 formed on the rear right arm 422 and screwed to the rear driving screw 970,

The front right arm 412 is formed with a screw passing hole 991 through which the rear driving screw 970 passes, and the rear left arm 421 has a screw passing hole through which the front driving screw 930 passes ( It provides a connection connector of the underground distribution line, characterized in that 992) is formed.

According to the connection connector of the underground distribution line of the present invention, the connection part is formed of a crimp sleeve for connecting an exposed conductor by peeling off an insulating coating, and an insulating tube surrounding the crimp sleeve and the conductor to sufficiently provide electrical insulation for the connection portion of the distribution cable. It can be secured, and the front and rear half pipes are moved up and down and moved back and forth by means of a lifting means and a front and rear moving means to tighten and fix a part of the connection part and the insulating coating, and a half sleeve type in which the front and rear half pipes are embedded in a shelf. By keeping it inserted in the tray, it is possible to secure mechanical strength to protect the connection from external vibrations or shocks. Accordingly, connection failure, arcing, damage to surrounding distribution cables due to arcing, and insulation breakdown , To prevent the occurrence of chained arcs and power outages and fires. In addition, the installation restrictions of the connection connector can be excluded, and fixing and unfixing of a plurality of power distribution cables can be simultaneously performed.

1 to 10 show a preferred embodiment of the connection connector to the underground distribution line according to the present invention,
1 is a perspective view showing a fixed state of the distribution cable,
Figure 2 is a perspective view showing a fixed state of the distribution cable,
Figure 3 is an exploded perspective view,
Figure 4 is a partial cut-away perspective view showing the connection structure of the distribution cable,
Figure 5 is a longitudinal side view showing a fixed state of the distribution cable,
Figure 6 is a longitudinal cross-sectional side view showing a fixed state of the distribution cable,
7 is a cross-sectional view taken along line AA of FIG. 4,
Figure 8 is a cross-sectional view taken along line BB of Figure 5,
Figure 9 is a cross-sectional view showing a state that the lifting plate is lowered,
Figure 10 is a cross-sectional view showing a state that the lifting plate is elevated,
11 is a longitudinal sectional view showing a conventional underground distribution line facility,
12 is a longitudinal sectional view showing a structure of a connection portion of a conventional distribution cable.

Hereinafter, the connection connector of the underground distribution line according to the present invention will be described in detail according to a preferred embodiment illustrated in the accompanying drawings.

1 to 10 show a preferred embodiment of the connection connector to the underground distribution line according to the present invention.

In the following description, the illustration of the underground tunnel is omitted, and only one side of the shelves symmetrically installed on both inner walls of the underground tunnel is illustrated and described.

The connection connectors of the underground distribution line according to the present embodiment are exposed by partially peeling the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20 adjacent to each other, as shown in FIGS. 1 to 10. A connection part 100 connecting the conductors 12 and 22 and a part of the insulating coatings 11 and 21 to be fixed and unfixed, a shelf 200 installed on both inner walls of the underground tunnel; Left and right trays 310 and 320 installed on the shelf 200 to support the left and right power distribution cables 10 and 20, and a central tray 330 supporting the connection part 100; A fastener 400 for tightening the connection part 100; A lifting plate 500 installed under the shelf 200; A lifting guide means (600) for guiding the lifting plate (500) to the shelf (200) to be elevated; An elevating means 700 for elevating the elevating plate 500; Front and rear guide means 800 for guiding the fastener 400 back and forth; It includes; before and after moving means 900 for moving the fastener 400 back and forth.

As shown in Fig. 4, the connection part 100 is a crimping sleeve for connecting the exposed conductors 12 and 22 by peeling off the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20 ( 110), the compression sleeve 110 and the conductors (12, 22) is composed of an insulating tube 120.

The crimp sleeve 110 is formed of a conductive material in the form of a sleeve, and the left and right distribution cables (crimped to the conductors 12 and 22) using a crimp tool (not shown) in a state surrounding the conductors 12 and 22 ( 10, 20) are configured to electrically connect the conductors 12, 22.

The insulating tube 120 is formed of an insulating material, such as insulating coating (11, 21), and is composed of a form surrounding the entire compression sleeve 110 and a portion of the conductors (12, 22).

The shelf 200 is installed on both inner walls of the underground tunnel made of a concrete structure as in the prior art. In the drawing, only the one side shelf is shown, and it will be understood that the shelf 200 is symmetrically installed with respect to the underground tunnel.

The shelf 200 has left and right tray fixing grooves 210 and 220 into which the left and right trays 310 and 320 are inserted and fixed, and a central tray fixing groove 230 into which the central tray 330 is inserted and fixed. It is formed.

The left and right trays 310 and 320 and the center tray 330 are formed of an insulating material, and have an inner diameter corresponding to the outer diameters of the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20, and a top surface. It is formed in the form of an open half sleeve, and is to be embedded in the process of constructing the shelf 200 into a concrete structure, or inserted into the left and right tray fixing grooves 210 and 220 and the central tray fixing groove 230 for adhesive It can also be adhered by.

A plurality of guide grooves 231 and 331 are formed in the central tray fixing groove 230 and the central tray 330.

The fastener 400 is formed integrally with the front and rear halfpipes 410, 420 and the lower half of the outer circumferential surface of the front halfpipe 410, which can be inserted into the center tray 330 and extend downward. The front left arm 411, the front right arm 412, the front center arm 413, and the lower half of the outer circumferential surface of the rear half pipe 420 are integrally installed to be movable back and forth along the guide grooves 231 and 331. It is formed and extends downward and includes a rear left arm 421, a rear right arm 422, and a rear center arm 423, which are installed to be movable back and forth along the guide grooves 231 and 331.

The elevating guide means 600 is formed at four corners of the elevating plate 500 and a plurality of elevating guide rods 610 having an upper end fixed to the shelf 200 and extending downward, and the elevating guide rod 610 ) Comprises a lift guide hole 620 through which the escape guide piece 630 is coupled to the lower end of the lift guide rod 610.

The lifting guide rod 610 is fixed to the shelf 200 by laying the top on the shelf 200, or through the upper portion of the shelf 200 to protrude from the upper surface of the shelf 200 and then top A screw part (not shown) may be formed on the shelf 200 by fastening a nut (not shown) to the screw part.

The departure preventing piece 630 is for preventing the lifting plate 500 from being separated from the lifting guide bar 610, forming a screw portion (not shown) at the lower end of the lifting guide bar 610, the departure preventing piece By forming a screw hole (not shown) in 630, the screw part hole can be coupled to the lower end of the lifting guide bar 610 by fastening the screw part.

The lifting means 700 is installed to be vertically mounted on the pair of linear actuator bodies 710 and vertically installed on the lower surface of the center of the lifting plate 500, and the lifting plates 500 It includes a lifting rod 720 through which the top is fixed to the lower surface of the shelf 200.

A solenoid may be used as the linear actuator, and the lifting rod 720 is provided with a flange (not shown) at the top and is embedded in the shelf 200 to penetrate the anchor bolt (not shown) projecting downward and anchoring the flange. It can be fixed to the lower surface of the shelf 200 by fastening a nut (not shown) to the bolt.

The solenoid is used in the form that the lifting rod 720 rises when power is applied, and when the power is cut, the lifting rod 720 descends by its own recovery spring (not shown).

A through hole 730 through which the lifting rod 720 passes is formed in the lifting plate 500.

The front-rear guide means 800 is formed on the front and rear guide rods 810 and both front and rear guide arms 810, which are fixed to the front and rear ends of the upper and lower surfaces of the lift plate 500, and the front and rear center arms 423 and the front and rear sides. It comprises a front and rear guide hole 820 through which the guide rod 810 penetrates.

The front and rear guide rods 810 may be fixed to the front and rear ends of the upper and lower surfaces of the lifting plate 500 to fix both ends to the support piece 830 protruding upward.

The front-rear moving means 900 includes a front driving motor 910 mounted on a lower surface of the hoisting plate 500, a power driving mechanism 920 coupled to the front driving motor 910, and the power driving mechanism ( A driving screw 930 for the front coupled to the output of the 920, a screw hole 940 for the front formed on the front left arm 411 and screwed to the driving screw 930 for the front, the win The driving motor 950 for the rear mounted on the lower surface of the steel plate 500, the transmission mechanism 960 coupled to the driving motor 950 for the rear, and the rear coupling coupled to the output of the transmission mechanism 960. It is formed on the driving screw 970 and the rear screw hole 980 formed on the rear right arm 422 and screwed to the rear driving screw 970.

The front and rear driving motors 910 and 950 are used to be capable of rotating in the reverse direction, and the transmission mechanisms 920 and 960 are coupled to the motor shafts of the front and rear driving motors 910 and 950, and the inside of the case A gear train equipped with a gear train may be used.

In addition, a screw passage hole 991 through which a rear driving screw 970 passes is formed in the front right arm 412, and a screw passing hole through which a driving screw 930 for the front passes passes in the rear left arm 421. (992) is formed.

The inner diameters of the screw passing holes 991 and 992 are formed to be larger than the outer diameters of the driving screws 970 and 930 so as not to interfere with each other.

The driving screw 970 and the screw passing hole 991 serve as a front-rear direction guide for the front right arm 412, and the driving screw 930 and the screw passing hole 992 are connected to the rear left arm 421. It will serve as a guide for forward and backward directions to Korea.

Hereinafter, the process of fixing the left and right distribution cables 10 and 20 by the connection connector of the underground distribution line according to the present invention will be described.

[Operation guide operation of lift plate]

The lifting plate 500 is formed at four corners of the plurality of lifting guide bars 610 fixed to the shelf 200 and the lifting plate 500, and the lifting guide holes 620 through which the lifting guide bars 610 penetrate. It is guided to ascend.

In addition, since the lower end of the lifting guide rod 610 is coupled to the departure preventing piece 630, the lifting plate 500 does not deviate downward from the lifting guide rod 610.

[Operation of front and rear half pipes]

When power is applied to the linear actuator body 710 mounted on the lower surface of the hoist plate 500, the hoist rod 720 rises. Since the upper end of the hoist rod 720 is fixed to the shelf 200, the linear actuator body 710 is relatively lowered, and accordingly, the lift plate 500 on which the linear actuator body 710 is mounted is lowered.

At this time, since the front and rear guide rods 810 fixed to the lift plate 500 penetrate the front and rear guide holes 820 formed in the front and rear center arms 413 and 423 of the front and rear half pipes 410 and 420. The front and rear half pipes 410 and 420 are elevated together with the lifting plate 500.

[Operation of front and rear half pipes in front and rear direction]

The front left arm 411 and front right arm 412 and front center arm 413 of the front half pipe 410, the rear left arm 421 and rear right arm 422 of the rear half pipe 420, and The rear center arm 423 is guided in the front-rear direction along the plurality of guide grooves 231 formed in the central tray fixing groove 230 and the plurality of guide grooves 331 formed in the central tray 330, and the lifting plate 500 ) The front and rear guide rods 810 are fixed to both front and rear ends of the upper surface, and are formed on the front center arm 413 and the rear center arm 423 to the front and rear guide holes 820 through which the front and rear guide rods 810 penetrate. Is guided forward and backward.

[Operation of the front and rear half pipes in the front-rear direction]

When the driving screw 930 for the front is rotated clockwise or counterclockwise by the driving motor 910 and the power mechanism 920 mounted on the lower surface of the hoist plate 500, the driving screw for the front 930 ) And the front left arm 411 and the front halfpipe 410 are moved forward or rearward by the screw action of the front screw hole 940 formed in the front left arm 411.

When the driving screw 970 for the rear is rotated clockwise or counterclockwise by the driving motor 950 and the power mechanism 960 mounted on the lower surface of the hoist plate 500, the driving screw for the rear 970 ) And the rear right arm 422 and the rear halfpipe 420 are moved forward or rearward by the screw action of the rear screw hole 980 formed in the rear right arm 422.

Here, the front driving motor 910 and the rear driving motor 950 are configured to be operated in opposite directions, so that the front half pipe 410 by the front driving screw 930 and the front screw hole 940 is constructed. The moving direction and the moving direction of the rear half pipe 420 by the driving screw 970 for the rear and the screw hole 980 for the rear are made to be opposite to each other.

[Left and right distribution cable release operation]

1 and 4, the front half pipe 410 moves to the rear and the rear half pipe 420 moves to the front, so that the front and rear half pipes 410 and 420 are connected to the connection part 100 and the insulating coating 11 and 21. ) Is fixed by tightening a part, and the lower half of the front and rear half pipes 410 and 420 are inserted into the central tray 330.

In this state, the front and rear half pipes 410 and 420 are caught in the central tray 330 and cannot move in the front-rear direction.

In this state, when the lift plate 500 and the front and rear half pipes 410 and 420 are raised according to the above-described lifting operation, the front and rear half pipes 410 and 420 are separated from the central tray 330 upwards. It is in a state that can be moved in the front-rear direction.

Subsequently, the front half pipe 410 moves forward and the rear half pipe 420 moves rearward according to the aforementioned front-rear guide operation and front-rear move operation, and the front half pipe 410 and the rear half pipe ( As 420) is opened, fixing of the left and right power distribution cables 10 and 20 fixed between them is released (see FIGS. 2 and 5).

[Fixed operation of left and right power distribution cables]

2 and 5, the front and rear halfpipes 410 and 420 rise, the front halfpipe 410 moves forward, and the rear halfpipe 420 moves rearward, resulting in left and right power distribution cables. When the fixing for (10, 20) is released, the front half pipe 410 moves rearward and the rear half pipe 420 moves forward according to the above-described front-rear movement operation. The pipes 410 and 420 are fixed by tightening a part of the connection portions 100 and the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20.

In this state, when the front and rear half pipes 410 and 420 descend according to the above-described lifting operation, a part of the connection portion 100 and the insulating coating 11 and 21 of the left and right distribution cables 10 and 20 are cut off. The fixing operation is completed while the lower half of the front and rear half pipes 410 and 420 being tightened is inserted into the central tray 330 to be unable to move in the front-rear direction.

The solenoid used as the linear actuator can be supplied with power from a conventional power supply (not shown) installed on the bottom surface of the shelf 200, and lifted by operating a switch installed on the inside surface of the shelf 200. It can be configured to work.

The front and rear drive motors 910 and 950 may be supplied with power from a power supply device (not shown) installed on the bottom surface of the shelf 200 and operate a switch installed on the inside surface of the shelf 200. It can be configured to rotate forward or reverse.

In addition, a switch for lifting operation and a switch for moving forward / backward movement may be installed to configure the lifting operation and the forward / backward movement operation by operating these switches, and the control box and a single switch may be used to operate the switch in a fixed release operation direction. When the lift operation is made first, then the front-rear movement operation is performed, and when the switch is operated in the fixed operation direction, the front-rear movement operation is made first, and then the downward operation is performed, so that the unlocking operation and the fixed operation are performed in one operation. You can also make it more convenient to use.

Since the power supply, the switch, and the control box can be solved by conventional techniques, a detailed illustration and description thereof will be omitted.

The embodiments described above are not intended to limit the technical spirit and scope of the present invention, but to explain the scope of the technical spirit of the present invention by the above-described embodiments, and are generally limited in the technical field to which the present invention pertains. Anyone who has the knowledge of will be able to make various modifications and variations without departing from the technical spirit and scope of the present invention, and such modifications and modifications should be interpreted as belonging to the scope of the present invention.

100: connection part 200: shelf
210: left tray fixing groove 220: right tray fixing groove
230: center tray fixing groove 310: left tray
320: Right tray 330: Center tray
400: fastener 410: front half pipe
420: rear half pipe 500: lifting plate
500: lifting guide means 610: lifting guide rod
620 Elevator Information Hall 630: Departure Prevention
700: elevating means 710: linear actuator body
720: lifting rod 730: through hole
800: front and rear guide means 810: front and rear guide rods
820: front and rear guide hall 900: front and rear moving means
910: front drive motor 920: transmission mechanism
930: front drive screw 940: front screw hole
950: rear drive motor 960: power mechanism
970: rear drive screw 980: rear screw hole

Claims (1)

The crimping sleeve 110 for connecting the exposed conductors 12 and 22 by peeling the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20 adjacent to each other, and the crimping sleeve 110 and the conductors In the connection part 100 including the insulating tube 120 surrounding the (12, 22) and a part of the insulating coating (11, 21) can be fixed and unfixed,
A shelf 200 which is installed on both inner walls of the underground tunnel and on which the left and right tray fixing grooves 210 and 220 and the central tray fixing groove 230 are formed;
Inserted into the left and right tray fixing grooves 210 and 220, the left and right trays 310 and 320 supporting the left and right distribution cables 10 and 20, and the center tray fixing groove 230 A central tray 330 which supports the connection part 100;
A fastener 400 which is installed at the front and rear sides of the connecting portion 100 and is provided with front and rear half pipes 410 and 420, respectively, which are opened at the rear and front sides, to tighten the connecting portion 100;
A lifting plate 500 installed under the shelf 200;
A lifting guide means (600) for guiding the lifting plate (500) to the shelf (200) to be elevated;
An elevating means 700 for elevating the elevating plate 500;
Front and rear guide means 800 for guiding the fastener 400 back and forth;
It includes; before and after moving means 900 for moving the fastener 400 back and forth;
The left and right trays 310 and 320 and the center tray 330 are formed of an insulating material,
The left and right trays 310 and 320 and the center tray 330 are formed in an open half sleeve shape,
Has inner diameters corresponding to outer diameters of the insulating coatings 11 and 21 of the left and right distribution cables 10 and 20,
The center tray 330 is formed so that the lower half of the front and rear half pipes 410 and 420 can be inserted,
A plurality of guide grooves 231 and 331 are formed in the central tray fixing groove 230 and the central tray 330,
The fastener 400 is formed integrally with the lower half of the outer circumferential surface of the front half pipe 410 and extends downward, and the front left arm 411 and the front are installed to be movable back and forth along the guide grooves 231 and 331. The right arm 412, the front center arm 413, and the rear half pipe 420 are formed integrally with the lower half of the outer circumferential surface and extend downward, and are installed to be movable back and forth along the guide grooves 231 and 331. It comprises a left arm 421, the rear right arm 422 and the rear center arm 423,
The elevating guide means 600 is formed at four corners of the elevating plate 500 and a plurality of elevating guide rods 610 having an upper end fixed to the shelf 200 and extending downward, and the elevating guide rod 610 ) Comprises a lifting guide hole 620 through which the penetration guide piece 630 is coupled, and a departure preventing piece 630 coupled to the lower end of the lifting guide bar 610,
The lifting means 700 is installed to be vertically mounted on the pair of linear actuator bodies 710 and vertically installed on the lower surface of the center of the lifting plate 500, and the lifting plates 500 ), The upper end is fixed to the lower surface of the shelf 200, and includes a lifting rod 720 and a through hole 730 formed in the lifting plate 500 and through which the lifting rod 720 penetrates. And
The front-rear guide means 800 is formed on the front and rear guide rods 810 and both front and rear guide arms 810, which are fixed to the front and rear ends of the upper and lower surfaces of the lift plate 500, and the front and rear center arms 423 and the front and rear sides. It comprises a front and rear guide hole 820 through which the guide rod 810 penetrates,
The front-rear moving means 900 is mounted on the lower surface of the hoist plate 500 and is capable of forward-reverse rotation, a front driving motor 910, and a power mechanism 920 coupled to the front driving motor 910, and A driving screw 930 for the front coupled to the output of the transmission mechanism 920, a screw hole 940 for the front formed on the front left arm 411 and screwed to the driving screw 930 for the front. , The rear drive motor 950 mounted on the lower surface of the hoist plate 500 and capable of forward and reverse rotation, and a power mechanism 960 coupled to the rear drive motor 950 and the output of the power mechanism 960 It is configured to include a rear driving screw 970 coupled to a portion and a rear screw hole 980 formed on the rear right arm 422 and screwed to the rear driving screw 970,
The front right arm 412 is formed with a screw passing hole 991 through which the rear driving screw 970 passes, and the rear left arm 421 has a screw passing hole through which the front driving screw 930 passes ( 992) connection connector of the underground distribution line, characterized in that formed.

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