KR101757195B1 - Stationary Auxiliary Arm Apparatus and Method Using In Uninterruptible Power Distribution Work - Google Patents

Abstract

The present invention relates to a fixed type fastener and method for use in uninterruptible power distribution, and more particularly, to a fixed type fastener made of an insulator under a pin rail or an internal lead of a distribution line, The present invention relates to a stationary type fastening apparatus and method for moving a railway track from a railway track to a stationary railway track using an apparatus or suspension connector, and to perform the desired electric equipment operation in an uninterrupted manner.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a stationary auxiliary apparatus and method for use in an uninterruptible power distribution system,

The present invention relates to a fixed type fastener and method for use in uninterruptible power distribution, and more particularly, to a fixed type fastener made of an insulator under a pin rail or an internal lead of a distribution line, The present invention relates to a stationary type fastening apparatus and method for moving a railway track from a railway track to a stationary railway track using an apparatus or suspension connector, and to perform the desired electric equipment operation in an uninterrupted manner.

Various tasks are carried out to manage electrical facilities in distribution lines.

Various works such as Wanchul and Jeonju construction, LP insulator replacement, Changju change, and 3 phase of 1 phase or 2 phase line are implemented. KEPCO, an electric company in Korea, does not carry out power outage to supply high quality electricity, The uninterruptible power supply method is being implemented to manage the electric facilities.

Conventionally, a direct live method has been used as a method of managing electric equipment from uninterrupted power lines to uninterruptible power lines. The direct live method is a method in which a plurality of rods made of an insulator are used to form a temporary lane, Move to the salary and perform the desired electrical equipment work.

The market leader is composed of inverted triangles. The wire is inserted into the wire holder fixed on the horizontal insulation barrel of the market in the pin rail, so that it is prevented from dropping. The wire binding on the upper part of the LP insulator is loosened, After moving the whole up to remove the track from the rail, perform the electric equipment work, and then move the entire temporary rail down to place the electric wire on the upper part of the LP insulator on the bare iron, bind the wire with the LP insulator, The construction will be terminated by removing Zhangzhou.

The above-mentioned direct live-line method requires a long time for the operation because of the complicated structure and operation of the apparatus. In order to return the wire to the horizontal rail by separating the wire from the rail, In the case of the unbalanced tension, such as the angle of the electric wire, the entire market should be moved up and down. In the process of moving the temporary market in the up and down direction, the market is easily rotated and the stability is deteriorated. There is a difficulty in.

Korean Patent No. 10-1344289 ', which is a partial improvement of the above-mentioned method, and' Korean Patent Registration No. 10-1254577 'Self-propelled barbed equipment for live-line work' Patent No. 10-1275111 discloses a method for replacing direct live distribution equipment for securing a double insulation space, a method of operating a distribution facility using live equipment, Korean Registered Patent No. 10-1473820, and Korean Utility Model Registration No. 10-2015-0087786, This method also has a problem that it is difficult to install the equipment if the electric equipment installed in the electric pole is long because of the long length of the insulating bar that constitutes the device and the unbalanced load during the vertical movement of the device, Since the vertical cutting bar must be subjected to high lateral loads, the surface of the vertical cutting bar is damaged, and the downward movement of the device is made by the own weight of the device and the electric equipment In case of high lateral tension, it may be difficult to move the mechanism downward, and conical structure in which the horizontal and vertical positions of the pole are different according to the position of the pole. , The problem of inconvenience that the high tension generated from the electric wire can not be applied to the horizontal insulation bar at the time of moving the power source and the load side insulator to the insulation bar on the brass rail, It still exists.

In addition, Korean Unexamined Patent Application No. 10-0558607 entitled " Uninterruptible power line method for single-phase and three-phase power distribution line and its wire line device " has been disclosed as a structure device constituting a temporary power line by fixing an insulating rod to a pole.

The above method is difficult to move upwards by separating the wires from the LP insulator when the existing long pole is the main pole, and when the pole is built-in, the pole has a conical structure having different thicknesses depending on the positions. There is a disadvantage that it is difficult to connect due to the change of the connection distance, and it is difficult to move the suspension of the suspending jig by overlapping the horizontal exfoliation bar and the existing wavy bar vertically and it is difficult to move the jumper line passing through the upper part of the barrel.

Korean Patent No. 10-1344289 (Dec. 17, 2013) Korean Patent No. 10-1254577 (Apr. 19, 2013) Korean Patent No. 10-1275111 (June 10, 2013) Korean Patent No. 10-1473820 (Dec. 11, 2014) Korean Patent Publication No. 10-2015-0087786 (Jul. 30, 2015) Korean Patent No. 10-0558607 (Mar. 2, 2006)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior arts, and it is an object of the present invention to provide an apparatus and a method for preventing unintentional power distribution, It can safely and easily move the wire up and down by using the wire moving mechanism without any difficulty even under the vertical load due to the weight of the electric equipment and adjust the connection bolts at both ends of the hanging insulator end connection in the built- By adjusting the connection distance of the suspending insulator, it is easy to move and connect the suspending insulator by loosening the tension of the line, and by connecting the suspending insulator of the power source and the load side directly to both ends of the suspending insulator connection, It is used for uninterruptible power distribution to reduce the burden on the horizontal rail To provide a value, and there is a method that purpose.

In order to accomplish the object of the present invention, there is provided a fixed type fastener for use in uninterruptible power distribution,

An armband (100) coupled to the outer circumferential surface of the electric pole (10) and configured to mate with the arm (200) on both sides;

A wire moving mechanism (500) composed of a circular cutting bar, vertically coupled to the circumferential surface of the arm (200), configured to receive a wire at an upper portion of the elevating part (710) and move up and down;

The fixing mechanism 920 is constituted so as to be connected to one side of the arm 200 and to be rotated at both ends to adjust the connection distance and to have a connecting bolt having a coupling ring on one side to directly connect the power source and the load- And a hanging insulator connector 900.

Further, in the fixed type welding method used in the uninterruptible power distribution work of the present invention,

A step S100 of installing a fixed type ranch ranch for coupling an armband 100 to the circumference of the electric pole 10 and coupling the arm 200 to both sides of the armband 100;

The electric wire moving mechanism 500 or the hanging insulator connector 900 is coupled to the arm 200 according to the type of the wire, and the electric wire moving mechanism 500 is connected to the electric wire using the crumb provided at the lower end The suspension connector 900 may be fixed to one surface of the arm 200 or may be fixed on the arm 200 by fitting the suspension connector 900 to the position of the suspending insulator and taking into account the connection distance between the power source and the load- A step S200 of installing a line moving mechanism in which the connection bolts at both ends of the hanging insulator connection are manipulated or installed so as to support the suspension insulator using a wire moving mechanism for a fixing mechanism;

The wire moving mechanism 500 is used to move the suspender insulator upward or to both ends of the hanging insulator connection opening so as to receive the wire in the elevating portion 710 formed at the upper portion of the wire moving mechanism, And the drive shaft 714 of the electric wire moving mechanism elevating portion is driven by the hydraulic wrench of the live wire working vehicle so that the elevating portion is moved upward along the side surface of the rack gear 600 coupled to the upper portion of the electric wire moving mechanism Or the tension applied to the suspension insulator is released by pulling the electric wires of the power source and the load side, and the suspension insulator is separated from the coarse iron to connect the two ends of the suspension insulator connection bolt 910 ), The tensioners are successively released from the tension and dismantled in order to connect the suspending insulators of the power source and the load side directly to the suspension insulator connection port 900, The wire moving mechanism 500 is fixed to one surface of the arm 200 in accordance with the position of the jumper wire passing through the upper portion and the jumper wire is separated from the LP insulator and supported by the wire moving mechanism 500, A line moving step (S300) of separating and moving the arm to the arm of the fastener;

A facility operation step (S400) for moving the line to the arm of the fixed type door through the line moving step (S300) and then performing a desired electric equipment operation;

A utilization mechanism and an insoluble facility dismantling step (S500) for reducing and dismounting the mechanisms used in the line moving step (S300) and the equipment working step (S400) in the order of installation and dismantling the electric pole and wire facilities unnecessary for the line configuration; Thereby solving the problems of the present invention.

The fixed type fastener and the method for uninterruptible power distribution according to the present invention having the above-described constitution and function can constitute a temporary fixed type simple structure for performing the electric equipment work in uninterrupted power distribution line, Moving the wire easily up and down with the moving mechanism and moving the suspending insulator connected to the power supply and the load side iron wire to both ends of the suspending insulator connection by using the two live wire inserters moves the tension insulator to the larger tension side, It is possible to enlarge the application point of the apparatus, shorten the working time, and provide the effect of stably performing the electric equipment work.

FIG. 1 is an overall block diagram of a fixed type fastener used in a fixed type fast clip method used in uninterruptible power distribution according to an embodiment of the present invention.
FIG. 2 is a view illustrating an armband of a stationary type fastener used in a fixed type fast clip method used in uninterruptible power distribution according to an embodiment of the present invention.
FIG. 3 is a structural view of a wire moving mechanism of a fixed type wire cutting device used in a fixed type wire cutting method for use in an uninterruptible power distribution according to an embodiment of the present invention, FIG. 3a is a detailed structural diagram of a lift portion, Arm coupling portion.
FIG. 4 is a view showing the construction of a hanging insulator connector of a fixed type fastener used in a fixed type fast clip method used in an uninterruptible power distribution according to an embodiment of the present invention.
FIG. 5 is a view illustrating the auxiliary arm of the stationary type fastener used in the fixed type fast clip method used in the uninterruptible power distribution according to the embodiment of the present invention.
FIG. 6 is a process diagram of a fixed type fast cutting method used in uninterruptible power distribution according to an embodiment of the present invention.

Hereinafter, a fixed type fastening device and a method for use in the uninterruptible power distribution according to the present invention will be described in detail.

FIG. 1 is an overall block diagram of a fixed type fastener used in a fixed type fast clip method used in uninterruptible power distribution according to an embodiment of the present invention.

As shown in Fig. 1, in the fixed type warping apparatus of the present invention,

An armband 100 coupled to the outer circumferential surface of the electric pole 10 and configured to be coupled to the arm 200 on both sides,

An arm 200 that can be engaged with one side of the armband 100 on the one side and the other side can engage with the extension arm and the arm tie,

An extension arm 400 configured to be engaged with the other side of the arm 200 and configured to extend a length of the arm 200 in a temporary construction,

A fixing device 255 is provided at both ends and is fixed to the lower side of the side wall of the wrought iron 40 and is coupled to the wire moving mechanism 500 or the wire moving mechanism tie 540 on the peripheral surface, The auxiliary arm 250,

An arm tie band 310 coupled to an outer circumferential surface of a lower electric pole 10 of the armband 100 and configured to couple with one side of the arm tie 300 on both sides,

An arm tie 300 for reinforcing the arm 200 at a portion where the arm tie band 310 is diagonally connected to one side of the arm 200 and the other side where the line is vertically angled and a high vertical load is applied, ),

A crumb 505 is provided at the lower end of the circular cutting bar 510 and is fixed to the circumferential surface of the arm 200. The rack gear 600 is coupled to the elevating portion 710, A groove 711 for accommodating electric wires at the upper part of the elevating part 710 and a lid 712 for preventing falling off and a fixing device are provided in the elevating part 710, A worm gear 715 to be engaged with the helical gear 713 and a drive shaft 714 to be coupled to the worm gear 715. The worm gear 715 is connected to the upper groove 711 of the lift part When the drive shaft 714 is driven by the hydraulic wrench of the live operation tool, the worm gear 715 and the helical gear 713 are operated to move the lifting portion 710 are moved up and down along the gear surface of the rack gear 600,

A wire moving mechanism tie 540 for reinforcing the wire moving mechanism by engaging one side of the wire moving mechanism 500 diagonally with one side of the arm 200 at a position where a lateral load is generated at a horizontal angle of the wire, ),

And a connecting bolt 910 having a coupling ring on one side thereof is formed to constitute a fixing mechanism 920. The connecting bolt 910 is coupled to one side of the arm 200, And a hanging insulator connection port (900) for directly connecting the plug connector (900).

FIG. 2 is a view illustrating an armband of a stationary type fastener used in a fixed type fast clip method used in uninterruptible power distribution according to an embodiment of the present invention.

The armband 100 shown in FIG. 2 is specifically disclosed in Korean Patent Application No. 10-2016-0037339 filed by the applicant of the present invention. In the present invention, the stationary type fastening device and the constituent means utilized in the method are briefly described Explain it.

The armband is configured to be coupled to the outer peripheral surface of the electric pole (10) and to be coupled to the arm (200) on both sides.

As shown in Fig. 2, the connecting grooves for connecting the arms are formed on both sides.

FIG. 3 is a structural view of a wire moving mechanism of a fixed type wire cutting device used in a fixed type wire cutting method for use in an uninterruptible power distribution according to an embodiment of the present invention, FIG. 3a is a detailed structural diagram of a lift portion, Arm coupling portion.

3 to 3B has been specifically disclosed in Korean Patent Application No. 10-2016-0037334 filed by the applicant of the present invention, and the present invention has a brief description .

3 and 3A, the elevating portion 710 of the wire moving mechanism will be described in detail. The elevating portion 710 includes a wire connecting groove 711 coupled to a wire at an upper portion thereof, a wire connecting groove 711 A cover 712 and a fixing device 712 which can cover and fix the wire coupling groove 711 so that the wire is not released when the wire is engaged with the wire coupling groove 711, A helical gear 713 meshing with the gear 600 and a worm gear 715 meshing with the helical gear 713. The driving shaft 714 coupled with the worm gear 715 and the elevating portion 710 And a coupling plate 716 coupled to the side surface of the rack gear 600 so as not to be separated from the coupling plate 716.

Therefore, when the drive shaft 714 is driven by the hydraulic wrench of the live wire work vehicle, the worm gear 715 and the helical gear 713 are rotated And the helical gear 713 meshes with the rack gear 600 and moves up and down along the side surface of the rack gear 600. [

Referring to FIGS. 3 and 3B, the crumb 505 will be described in detail. The cable moving mechanism 500 includes an arm coupling portion 530 configured to be vertically fastened to the circumferential surface of the arm 200, ,

And a rod coupling part 520 configured to be coupled to a lower end of the armoring rod 510 and one side of the arm coupling part 530.

The arm coupling portion 530 and the rod coupling portion 520 are defined as a crump 505.

The rod-engaging portion 520 includes a housing 521 having a gear-shaped gear surface 522 on an upper side thereof facing the one surface,

A first engaging portion 523 for engaging with a circular hole at the lower end of the bending bar 510 through the face of the housing 521 and functioning as a rotation axis when the bending bar 510 is bent,

And a second coupling unit configured to be coupled to a gear surface 522 formed on the upper side of the housing 521 through an elliptical hole at a lower end of the bending rod 510 and to adjust a bending angle of the bending rod 510, (524),

The other end of the second engaging portion 524 engages with the first engaging portion 523 and the other end of the second engaging portion 524 engages with the gear surface 522 of the rod engaging portion 520 And an elastic portion 526 that is configured not to be movable.

Therefore, the crumb 505 couples the pebble bar 510 to one side of the arm 200, the pebble bar 510 refracts the first engaging part 523 about the axis, (524) is coupled to the gear surface (522) of the housing (521) to adjust the refraction angle of the cutting bar (510).

FIG. 4 is a view showing the construction of a hanging insulator connector of a fixed type fastener used in a fixed type fast clip method used in an uninterruptible power distribution according to an embodiment of the present invention.

4 is specifically disclosed in Korean Patent Application No. 10-2016-0037353 filed by the applicant of the present application. In the present invention, in order to briefly explain the constituent means used in the fixed type fastener and the method, do.

The suspension connector 900 comprises a fixing mechanism 920 and a connection bolt 910 coupled to one side of the arm 200 and rotated at both ends to adjust a connection distance and having a coupling ring on one side thereof The coupling between the fixing mechanism 920 and the suspension connector 900 is such that the suspension connector 900 is free to move so as to move according to the magnitude of the line tension when engaged with the power source and the load side suspension insulator.

Therefore, by adjusting the connection distance between the power source and the load-side suspending insulator by turning the connecting bolt 910 at both ends of the suspending insulator connection, the magnitude of the line tension can be adjusted and the connection between both ends and the power and load- The suspension connector 900 moves along with the track so that the tension of the line is balanced so that the high tension of the wire is not applied to the arm.

FIG. 5 is a view illustrating the auxiliary arm of the stationary type fastener used in the fixed type fast clip method used in the uninterruptible power distribution according to the embodiment of the present invention.

As shown in FIG. 5, the auxiliary arm 250 includes fixing devices 255 at both ends thereof. The auxiliary arm 250 is fixed to the lower side of the wrought iron 40 using a fixing device as shown in FIG. 1 And acts as the arm 200 when it is combined with the wire moving mechanism 500 or the wire moving mechanism tie 540 on the circumferential surface to conveniently use the wire when moving the wire individually in the LP inserting operation or the like do.

FIG. 6 is a process diagram of a fixed type fast cutting method used in uninterruptible power distribution according to an embodiment of the present invention.

1 to 5, the constituent means for carrying out the fixed type complete method of the present invention has been described.

 The following will specifically describe the fixed type laminating method of the present invention with reference to Fig.

That is, the fixed type cutting method of the present invention is roughly composed of a step S100 of installing a fixed type ranching ranch; Installing a line moving mechanism (S200); A line moving step S300; Equipment operation step (S400); A utilization mechanism and an insoluble facility dismantling step (S500).

In the step S100, the armband 100 is coupled to the circumferential surface of the electric pole 10, and the arm 200 is coupled to both sides of the armband 100.

The arm tie band 310 is coupled to the circumferential surface of the lower electric pole 10 of the armband 100 according to the conditions of the site and the work contents of the arm base 100. One side of the arm 200 and one side of the arm tie band 310 And an arm tie 300 for reinforcing the arm 200 can be coupled.

The length of the arm 200 may be extended by coupling one side of the arm 200 and one side of the extension arm 400. When a new insertion pole is installed between the former and the latter, And the arm 200 is installed on the newly installed electric pole.

On the other hand, when replacing the LP insulator, the auxiliary arm 250 is fixed to the lower side of the bottom rail in place of the arm.

In the step S200 of installing the line moving mechanism, the wire moving mechanism 500 or the hanging insulator connector 900 is coupled to the arm 200 according to the type of the line.

At this time, the wire moving mechanism 500 is fixed to one surface of the arm 200 according to the position of the electric wire using the crumb 505 provided at the lower end, or the fixing mechanism 920 of the hanging- The connecting bolt 910 at both ends of the hanging insulator connector can be operated in consideration of the connection distance between the power source and the load-side suspending insulator by fitting the suspending insulator connecting fitting 900 to the position of the suspending insulator, And is configured to support the suspending jig connector 900 by using the wire moving mechanism 500 as a substitute for the fixing mechanism 920.

That is, in the case of the pin shaft, the wire moving mechanism is used, while in the case of the built-in connector, the suspension connector or wire moving mechanism is used.

Thereafter, in the line moving step S300, the wire moving mechanism 500 is used to move the wire suspensions upward or to both ends of the suspension connector.

At this time, the electric wire is received in the groove 711 provided in the upper part of the elevating part 710 formed in the electric wire moving mechanism to prevent the electric wire from falling off, and the binding binding between the electric wire and the LP insulator is released, Is driven by the hydraulic wrench of the live operation vehicle to move the elevating portion 710 upward along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism.

Or the two live wire brackets are connected to the power and load side wire rods 40 and the electric wires for the power source and the load side are pulled to release the tension applied to the hanging insulators and the hanging insulators are separated from the wire rods, And then the suspension connector 900 is connected directly to the suspending insulator of the power source and the load side and the electric wire moving mechanism 500 is moved to the position of the jumper wire passing through the upper portion of the wire harness And the jumper wire is separated from the LP insulator and supported by the wire moving mechanism 500 so that the existing wire is separated from the wire and moved to the arm of the fastener.

That is, in the case of the pin shaft, the electric wire is moved upward by the wire moving mechanism, and in the case of the built-in case, the suspender insulator is moved to both ends of the suspension connector.

Hereinafter, the facility operation step (S400) is a process in which a desired electric equipment operation is performed after the line is moved to the arm of the fixed type door via the line moving step.

Examples of the desired electrical equipment work include replacing a full iron wire, replacing a LP insulator, changing a long wire, changing a wire, upgrading a pole, installing a new pole, and installing a switch.

This will be described in more detail below.

The utilization mechanism and the insoluble facility dismantling step S500 may be performed by using the mechanism used in the line moving step S300 and the facility operation step S400, for example, a wire moving mechanism, an auxiliary arm, An arm tie band, a wire moving mechanism tie, a suspension connector, and an extension arm.

At this time, the mechanism used is reduced and removed in the reverse order of the installation, and equipment such as poles and wires unnecessary for line configuration is removed.

The following is a detailed description of the work to be carried out according to the desired electrical equipment work.

In a case where the desired electric equipment operation is a full iron replacement in the above-mentioned facility operation step (S400), it includes a full iron and an insulator replacement step (S410) and a line returning step (S411).

Specifically, when the existing wire rod and the insulator are removed and a new wire rod and insulator are installed (S410), when the existing wire rod constitutes the pin rail, the driving shaft 714 of the wire moving mechanism elevating portion is driven, The elevating portion 710 is moved downward along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism and the electric wire is bound to the LP insulator and the bind.

Alternatively, when the existing bare iron constitutes the built-in bare wire, it is connected to the newly installed power source and the load side bare iron by using the two live wire brackets, and the power and the load side wire are pulled to release the tension applied to the hanging bracket, The jumper wires are disconnected from the both ends and connected to the power source and the load side brass rods by the shackles. Then, the jumper wires are removed and the jumper wires passing through the upper side of the brass rods are separated from the wire rope mechanism 500, (Step S411).

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

Meanwhile, in the above-mentioned facility operation step (S400), if the electrical equipment operation is LP insulator replacement, the LP insulator replacement step (S420) and the line returning step (S421) are performed.

Specifically, after the existing LP insulator is removed and a new LP insulator is installed (S420), the driving shaft 714 of the wire moving mechanism elevating portion 710 is driven to move the elevating portion 710, which receives the electric wire to the upper portion, Moves downward along the side of the rack gear 600 coupled to the upper part of the mechanism, and binds and binds the electric wire with the LP insulator (S421).

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

If the electrical equipment operation is a long-term change in the facility operation step (S400), the full-bar replacement step S430, the hanging insulator installation step S431, the wire downward movement step S432, Step S433 is performed.

Specifically, after the existing bare iron and LP bare iron are removed and the double bare iron is installed (S430), the suspension is connected to the newly installed power source and the load side bare iron using the shackle (S431).

Thereafter, the driving shaft 714 of the wire moving mechanism elevating and lowering unit 710 is driven to move the elevating unit 710, which receives the electric wire at the upper portion, downward along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism (S432). Then, the two live wires are connected to the newly installed power source and the load side brass, and the power and load side wires are pulled. By using the bypass jumper cable, the wires on the wire moving mechanism elevator 710 and the parallel circuit , Cut off the power supply and the load side cable considering the connection distance of the suspending insulator, peel off the cover, connect the dead and krampro suspender insulator with the electric wire, remove the device, connect the electric power and the load side electric wire with jumper wire, A bypass jumper and a parallel circuit are formed.

Then, the jumper wire passing through the upper portion of the solid iron is subjected to a process of installing a LP insulator, binding and supporting the same, and separating the bypass jumper (S433).

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

If the electric equipment operation is a three-phase operation of the one-phase or two-phase line in the facility operation step (S400), the step of replacing the coarse iron and the insulator (S440), the step of establishing a superstructure (S441) S442).

Specifically, after removing the existing wire rods and insulators and installing new wire rods and insulators (S440), an increasing one-phase or two-phase wire is installed on the new wire rods, and the wire is bound to the upper portion of the LP insulator (S441), and an increasing phase is established.

Thereafter, the driving shaft 714 of the wire moving mechanism elevating and lowering unit 710 is driven to move the elevating unit 710, which receives the electric wire at the upper portion, downward along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism Bind the wires to the LP insulator and the bind,

Alternatively, the two live wires are connected to the newly installed power source and the load side iron wire, and the electric power and the wires on the load side are pulled to release the tension applied to the suspending insulator, and the suspender insulator is separated from both ends of the suspending insulator connection hole 900, And the jumper wire passing through the upper portion of the wire is separated from the wire moving mechanism 500 and bound to the LP insulator and bound to be supported (S442).

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

If the electrical equipment operation is the electric pole change, the electric pole installation step S450, the complete wire / insulator removal and installation step S451, the line installation and movement step S452, .

Specifically, in consideration of the electric line, a new electric pole is installed near the existing electric pole (S450), and the electric pole and the insulator installed in the existing electric pole are removed, and the electric pole and the insulator are installed (S451).

When the existing electric pole is a pin fence body, the driving shaft 714 of the wire moving mechanism elevating portion 710 is driven to move the elevating portion 710, which receives the electric wire, to the rack gear 600 coupled to the upper portion of the wire moving mechanism, And it is possible to bind and support the LP insulator and the bind which are provided on the bare iron of the electric pole in which the electric wire is installed,

Or, if the existing electric pole is the built-in electric pole, a new railway line is to be established between the span of the newly installed electric pole and the two live wire rods are connected to the power pole of the new pole and the load side pole of the new pole. Considering the installation of the electric wire in the new electric pole, it is necessary to construct a parallel circuit by connecting the existing electric wire and the electric wire of the newly created section with the bypass jumper, and consider the distance to be connected to the suspender insulator and the length of the jumper wire, Cut off the jacket and connect it to the Dead and Krampro Suspension Insulator, demolish the jumper, connect the jumper wire to the newly installed line, construct a parallel circuit with the bypass jumper, and connect the jumper wire to the LP And the bypass jumpers are separated from each other (S452).

In the case of a built-in main span, the span where the new span is longer than the existing span is installed with the electric wire, and the span which is shortened is installed with the built-in electric wire using the existing electric wire. will be.

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

Meanwhile, in the above-described facility operation step (S400), if the electrical equipment operation is to install an introductory electric pole, it is subjected to a full iron and insulator installation step (S460) and a wire downward movement and installation step (S461).

More specifically, after the wire and the insulator are installed on the pre-installed electric pole (S460), the drive shaft 714 of the wire moving mechanism elevating portion is driven to move the elevating portion 710, which receives the electric wire to the upper portion, The electric wire is supported by the LP insulator and the bind provided on the bare iron of the newly introduced electric pole,

Alternatively, in the case where the introductory electric pole is the built-in electric pole, two parallel electric wire lines are connected to the power source and the load side electric wire of the rechargeable electric pole to pull the electric wires from both sides and the bypass jumper is connected to the power source and the load side electric wire to constitute a parallel circuit, , Cut off the wire, peel off the cover and connect it to the dead and krampro suspender, remove the jumper, connect the power supply and the load side wire to the jumper wire to construct the bypass jumper and the parallel circuit, The jumper wire passing through the upper portion is bound and supported by the LP insulator and the binders, and the bypass jumper is separated (S461).

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

Meanwhile, if it is desired to additionally install an additional switch after the built-in wire installation step (S433) in the facility operation step (S400), the switch installation step S433a and the switch connection lead connection step S433b are performed.

Specifically, instead of disconnecting the bypass jumper by connecting the power source and the load side wire with a jumper wire, an opening and closing device is installed on the electric pole under the built-in tread (S433a), and then the primary side and the secondary side The lead wire is connected and the switch is turned on to form a parallel circuit with the bypass jumper and the bypass jumper is separated (S433b).

Here, in the case where the breaker is installed after the break-in electric pole is newly installed, in the downward movement and installation step S461, the power source and the load side wire are connected by the jumper wire and the bypass jumper is removed, , And an opening and closing lead connecting step (S433b).

Thereafter, the use mechanism and the insoluble facility dismantling step (S500) are performed to complete the work.

In the present invention, the post-finishing step such as the preliminary preparation step such as field surveys, safety meetings, start-up reports, and charging parts protection for uninterruptible power distribution works, demolition of protective equipment, and completion report are general steps, Will be carried on the bucket of the live car.

In addition, the process of this method may be applied by changing the order of some processes according to the contents of the corresponding construction.

This method can securely and easily move the wire by using the wire moving mechanism without any difficulty to the horizontal tension generated in the line, It is easy to move the suspension by loosening the tension of the line by adjusting the connection distance of the hanging insulator connection at the internal point where high tension is generated according to the line.

In addition, by connecting the suspending insulator of the power source and the load side directly to both ends of the suspending insulator connection, the tension of the line is prevented from being applied to the arm.

Therefore, the present fixed type fastening apparatus and method can expand the application point of the apparatus, shorten the working time, and provide the effect of stably performing the electric equipment operation.

The contents not described in the drawings should be understood by those skilled in the art based on the above description and should be included in the right of the present invention without being shown in the drawings.

It will be appreciated by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is to be understood, therefore, that the embodiments described above are to be considered in all respects as illustrative and not restrictive.

It is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. .

10: Electric pole
100: Armband
200: Cancer
500: wire moving mechanism
600: Rack gear
710:
900: Suspension connector

Claims (9)

In the fixed type seamless method used for uninterruptible power distribution,
A step S100 of installing a fixed type ranch ranch for coupling an armband 100 to the circumference of the electric pole 10 and coupling the arm 200 to both sides of the armband 100;
Depending on the type of line,
A crumb 505 is provided at the lower end of the circular cutting bar 510 and is fixed to the circumferential surface of the arm 200. The rack gear 600 is coupled to the elevating portion 710, A groove 711 for accommodating electric wires at the upper part of the elevating part 710 and a lid 712 for preventing falling off and a fixing device are provided in the elevating part 710, A worm gear 715 to be engaged with the helical gear 713 and a drive shaft 714 to be coupled to the worm gear 715. The worm gear 715 is connected to the upper groove 711 of the lift part When the drive shaft 714 is driven by the hydraulic wrench of the live operation tool, the worm gear 715 and the helical gear 713 are operated to move the lifting portion 710 are moved up and down along the gear surface of the rack gear 600,
And a connecting bolt 910 having a coupling ring on one side thereof is formed to constitute a fixing mechanism 920. The connecting bolt 910 is coupled to one side of the arm 200, And a suspension connector 900 directly connected to the suspension connector 900,
The wire moving mechanism 500 may be fixed to one surface of the arm 200 by using a crumb provided at the lower end of the wire to match the position of the electric wire or the suspension connector 900 may be fixed to a position The connection bolts on both ends of the suspension connector are operated in consideration of the connection distance between the power source and the load-side suspending insulator, or the suspension connector 900 (S200);
The wire moving mechanism 500 is used to move the suspender insulator upward or to both ends of the hanging insulator connection opening so as to receive the wire in the elevating portion 710 formed at the upper portion of the wire moving mechanism, And the drive shaft 714 of the electric wire moving mechanism elevating portion is driven by the hydraulic wrench of the live wire working vehicle so that the elevating portion is moved upward along the side surface of the rack gear 600 coupled to the upper portion of the electric wire moving mechanism Or the tension applied to the suspension insulator is released by pulling the electric wires of the power source and the load side, and the suspension insulator is separated from the coarse iron to connect the two ends of the suspension insulator connection bolt 910 ), The tensioners are successively released from the tension and dismantled in order to connect the suspending insulators of the power source and the load side directly to the suspension insulator connection port 900, The wire moving mechanism 500 is fixed to one surface of the arm 200 in accordance with the position of the jumper wire passing through the upper portion and the jumper wire is separated from the LP insulator and supported by the wire moving mechanism 500, A line moving step (S300) of separating and moving the arm to the arm of the fastener;
A facility operation step (S400) for moving the line to the arm of the fixed type door through the line moving step (S300) and then performing a desired electric equipment operation;
A utilization mechanism and an insoluble facility dismantling step (S500) for reducing and dismounting the mechanisms used in the line moving step (S300) and the equipment working step (S400) in the order of installation and dismantling the electric pole and wire facilities unnecessary for the line configuration; Wherein the unloading and unloading operation is performed by the unloading operation.
[Claim 2 is abandoned upon payment of the registration fee.] The method according to claim 1,
In the facility operation step (S400)
If the electrical equipment operation is a full replacement,
(Step S410) of removing the existing full iron and the insulator and installing a new full iron and the insulator,
The driving shaft 714 of the wire moving mechanism elevating portion is driven to move the elevating portion 710 which receives the electric wire to the upper portion along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism Moves the wires downward, binds the wires with the LP insulator and binds them,
Alternatively, in the case where the existing solid wire constitutes the built-in wire, the two live wire wires are connected to the newly installed power source and the load side barb, and the electric power and the wire on the load side are pulled to release the tension applied to the suspension insulator, And the jumper wire passing through the upper part of the solid iron wire is separated from the wire moving mechanism 500 and bound to the LP insulator and bound to be supported (S411), wherein the line restoring step (S411) includes a line returning step (S411).
[Claim 3 is abandoned upon payment of the registration fee.] The method according to claim 1,
In the facility operation step (S400)
If the electrical equipment operation is a LP insulator replacement,
Replacing the LP insulator (S420) for removing the existing LP insulator and installing a new LP insulator,
The driving shaft 714 of the electric wire moving mechanism elevating portion is driven to move the elevating portion 710 accommodating the electric wire in the upper portion downward along the side surface of the rack gear 600 coupled to the upper portion of the electric wire moving mechanism, (S421) for restraining and supporting the cable to the uninterrupted power distribution work. [Claim 4 is abandoned upon payment of the registration fee.] The method according to claim 1,
In the facility operation step (S400)
If the electrical equipment operation is a long-term change,
(S430) of replacing the existing bare iron and the LP insulator and installing the double bare iron,
A suspender insulator installation step (S431) for connecting the suspending insulator to the newly installed power source and the load side brass using a shackle,
A wire downward moving step S432 for moving the elevating portion 710, which receives the wire at the upper portion by driving the drive shaft 714 of the wire moving mechanism elevating portion, downward along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism, )Wow,
The two live wire harnesses are connected to the newly installed power source and the load side brass wire to pull the electric wires of the power source and the load side and to constitute a parallel circuit with electric wires on the wire moving mechanism elevator 710 by using the bypass jumper, Considering the connection distance, cut off the power supply and load side wires, peel off the cover, connect the dead and crumpler suspender insulator and wire, demolish the equipment, connect the power supply and load side wires to the jumper wire and configure the bypass jumper and the parallel circuit. And a built-in electric wire installation step (S433) of installing a jumper wire passing through the upper part of the solid iron bar to install and retain the LP insulator, bind the same, and separate the bypass jumper Fixed - type unloading method.
[Claim 5 is abandoned upon payment of registration fee.] The method according to claim 1,
In the facility operation step (S400)
If the electrical equipment operation is a three-phase conversion of one-phase or two-phase line,
(Step S440) of removing the existing wrought iron and the insulator and installing new wrought iron and insulators,
(S441) in which a wire is connected to an upper portion of the LP insulator by a binding or connected to a suspending insulator,
The driving shaft 714 of the electric wire moving mechanism elevating portion is driven to move the elevating portion 710 accommodating the electric wire in the upper portion downward along the side surface of the rack gear 600 coupled to the upper portion of the electric wire moving mechanism, Respectively,
Alternatively, the two live wires are connected to the newly installed power source and the load side iron wire, and the electric power and the wires on the load side are pulled to release the tension applied to the suspending insulator, and the suspender insulator is separated from both ends of the suspending insulator connection hole 900, And a line returning step (S442) of separating the jumper wire passing through the upper part of the wire rods from the wire moving mechanism (500) and binding and binding the LP insulator and the bind wire Wherein the unloading operation is performed in the uninterruptible power distribution system.
[Claim 6 is abandoned due to the registration fee.] The method according to claim 1,
In the facility operation step (S400)
If the electrical equipment work is a pole change,
(S450) in which a new electric pole is installed near the existing electric pole in consideration of the electric line,
(S451), which is used to remove the brass and insulators installed on the existing electric pole and install the brass and insulators on the newly installed electric pole,
The driving shaft 714 of the wire moving mechanism elevating portion is driven to move the elevating portion 710 accommodating the electric wire to the upper portion along the side of the rack gear 600 coupled to the upper portion of the wire moving mechanism And the wires are connected and held together by the LP insulator and the bind which are installed on the bare iron of the electric pole newly installed,
Or, if the existing electric pole is the built-in electric pole, a new railway line is to be established between the span of the newly installed electric pole and the two live wire rods are connected to the power pole of the new pole and the load side pole of the new pole. Considering the installation of the electric wire in the new electric pole, it is necessary to construct a parallel circuit by connecting the existing electric wire and the electric wire of the newly created section with the bypass jumper, and consider the distance to be connected to the suspender insulator and the length of the jumper wire, Cut off the cover and connect it to the Dead and Krampro Suspension Insulator. Then remove the connector and connect the jumper wire to the newly installed line to form a parallel circuit with the bypass jumper. (S452) of binding and supporting the LP insulator and the bind and separating the bypass jumper. This is a fixed type fastening method used for uninterrupted power distribution works.
[7] has been abandoned due to the registration fee. The method according to claim 1,
In the facility operation step (S400)
If the electrical equipment work is newly established,
(S460) in which a wire and an insulator are installed in a preform newly installed in advance,
The driving shaft 714 of the wire moving mechanism elevating portion is driven to move the elevating portion 710 accommodating the electric wire in the upper portion downward along the side surface of the rack gear 600 coupled to the upper portion of the wire moving mechanism, It is supported by binding with LP insulator and bind which are installed on the pole of the pole,
Alternatively, in the case where the induction pole is the built-in coil, the two live wire coils are connected to the power source and the load coils to pull the coils on both sides, and the bypass jumper is connected to the power coils and the load coils of the coils, , Cut off the wire, peel off the cover and connect it to the dead and krampro suspender, remove the jumper, connect the power supply and the load side wire to the jumper wire to construct the bypass jumper and the parallel circuit, (S461) of binding and jumpering the jumper wire passing through the upper portion to the LP insulator and binding and separating the bypass jumper (S461). [8] has been abandoned due to the registration fee. 5. The method of claim 4,
In the built-in wire installation step (S433) of the facility operation step (S400)
In the case where the electrical equipment operation is followed by a change of state,
(S433a) for connecting the power source and the load-side wire with a jumper wire and installing an opening / closing device on a pole below the built-
(S433b) connecting the primary and secondary lead wires of the power source and the load side wire to the switch, constituting a parallel circuit with the bypass jumper by putting the switch, and disconnecting the bypass jumper This is a fixed method for uninterrupted power distribution.
A fixed type fastener for use in uninterruptible power distribution,
An armband (100) coupled to the outer circumferential surface of the electric pole (10) and configured to mate with the arm (200) on both sides;
A crumb 505 is provided at the lower end of the circular cutting bar 510 and is fixed to the circumferential surface of the arm 200. The rack gear 600 is coupled to the elevating portion 710, A groove 711 for accommodating electric wires at the upper part of the elevating part 710 and a lid 712 for preventing falling off and a fixing device are provided in the elevating part 710, A worm gear 715 to be engaged with the helical gear 713 and a drive shaft 714 to be coupled to the worm gear 715. The worm gear 715 is connected to the upper groove 711 of the lift part When the drive shaft 714 is driven by the hydraulic wrench of the live operation tool, the worm gear 715 and the helical gear 713 are operated to move the lifting portion 710) is moved up and down along the gear surface of the rack gear (600);
The fixing mechanism 920 is constituted so as to be connected to one side of the arm 200 and to be rotated at both ends to adjust the connection distance and to have a connecting bolt having a coupling ring on one side to directly connect the power source and the load- And a hanging insulator connection port (900). The stationary type fastening apparatus used in the uninterruptible power distribution work.

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