KR100407376B1 - wire-changing device inside of electric pole and non-power-failure power distribution method - Google Patents

Abstract

The present invention in the replacement and relocation of the distribution line connected to each pole and change of transition site, by using the wire transfer mechanism installed in each pole without the use of a separate bypass cable to bypass the old and new wires The cable can be replaced uninterrupted by the sequential connection of electricity, and the electric pole can be replaced and the electric pole relocation and transition site change work. It relates to an uninterruptible power distribution method using a wire cable mechanism that has improved workability

Installation process of wire wire mechanism to install wire wire mechanism, wire wire process to move demolition wire to other place by wire wire mechanism and secure installation space for relocation wire, In the process of installing a new wire by the wire twisted wire mechanism, and the uninterrupted power distribution method using the wire pole wire mechanism that cuts electricity of the demolition wire without a power failure by a bypass by connecting the installation wire and the demolition wire,

Install the wire wiring mechanism on only one side and transfer only one wire to the other side, and then replace the wire by the uninterrupted power distribution method in which the corresponding replacement wire is delivered. By repeating the installation process of wire twisted wire harness which is utilized as a bypass wire, the installation wire installation process, the demolition wire removal process and the uninterrupted connection method by bypass,

When replacing and relocating new and old wires, it is possible to minimize the time and manpower required by installing and relocating a large number of wires. It is.

Description

Uninterruptible Power Distribution Method Using Wire-Wire Mechanism in Jeonju {wire-changing device inside of electric pole and non-power-failure power distribution method}

The present invention in the replacement and relocation of the distribution line connected to each pole and change of transition site, by using the wire transfer mechanism installed in each pole without the use of a separate bypass cable to bypass the old and new wires The cable can be replaced uninterrupted by the sequential connection of electricity, and the electric pole can be replaced, and the electric pole relocation and transition site change work can be done. And it relates to an uninterruptible power distribution method using a wire wire mechanism that can be moved to improve workability.

As the demand for electric power increases, electric power facilities have been expanded in response. As the demand level of electric power quality of electric power users increases, the momentary power failure is also subject to civil complaints. Increasingly, uninterrupted construction methods are being performed in which the construction is performed without disconnecting the power for high quality power supply during power distribution construction.

Existing uninterrupted power distribution works consist of a transformer transformer method, a bypass cable method, and a switchgear method for construction.Bypass cable method requires cables, switchgear, It must be equipped with a mobile transformer car, a live basket truck, and an air port for live work, and a bypass cable must be installed to bypass the supply of power, replace and relocate the distribution lines, and then remove the bypass cable again. It's done.

In addition, in order to reduce the capacity of the distribution line to 5,000 KVA or less, the distribution line having a capacity of more than 5,000 KVA is less than 5,000 KVA at the time of applying the existing bypass cable method. Wastes a lot of time and labor costs when switching power loads to other distribution lines, and there is a serious problem in the system operation of an effective distribution line, and in particular, uninterrupted work on upper distribution lines of two or more lines is needed. There is a problem that construction is impossible with the current uninterrupted construction method.

Therefore, a lot of construction manpower is required for the electric power distribution work, and a lot of special high voltage connection points are created to install the bypass cable, which is standardized at 50m, in the range of 200 ~ 300m. It is necessary to repeat the installation and dismantling frequently, which wastes a lot of labor costs and damages the bypass cable, which makes it a more dangerous threat, and if there is a safety accident or an unexpected power failure, to secure electricity quality at a high cost. Contrary to the purpose, more civil complaints, economic loss and casualties can be brought, as well as unstable operation of the distribution line system due to excessive load transfer work and the uninterruptible method work of the upper line of the distribution line of two or more lines.

In order to solve the problems described above, the inventors have secured a work space between new and old replacement wires and moving wires in Jeonju by using electric wire transfer mechanism and wire twisted wire mechanism in Jeonju, as in 2001 Patent Application No. 32587. The uninterrupted operation of two or more top distribution lines without changing the power load is provided by providing a method to replace and relocate new power lines with an uninterruptible uninterruptible electricity without the use of a separate bypass cable. It is a new technology that improves the power quality and also does not use the mobile transformer car method except for replacement of the transformer, and enables safe construction at low cost, and does not interfere with the pedestrian's walking or passing through the vehicle even when it is under construction. Electric wire transfer mechanism in an electric pole and uninterruptible power distribution using the same It has devised a method bar.

However, by using the electric wire transfer mechanism and wire twisted mechanism in the electric pole as above, it is possible to replace and relocate the old and new wires by separating the old and new wires and securing the working space between the new and old wires. silver,

It is a method of dismantling after installing the wire transfer device and twisted wire device for each wire to be replaced and relocated.However, the wire wire work is repeated in the process of replacing and rewiring a large number of wires with one wire. There was a problem that consumes a lot of time and manpower.

The present invention has been made to solve the above problems,

In the uninterruptible power distribution method using the electric wire inside the electric pole that cuts electricity of the demolition wire without a power failure by bypass by connecting the installation wire and the demolition wire, after installing the wire wire mechanism on only one side and moving only one wire to the other side The wires are replaced by the uninterrupted distribution method in which the corresponding wires are replaced, but the remaining wires are wired by using the twisted wires as bypass wires without any separate wires, and the wired wire mechanism installation process, the wire installation process, and the demolition wire By repeatedly performing the uninterruptible connection method by the demolition process and bypass, it is possible to replace and relocate a large number of wires by installing a single wire transfer mechanism and moving it by replacing wires and relocations. Provides uninterruptible power distribution method using electric wire turning mechanism in Jeonju to minimize time and manpower There is an object of the present invention.

1 is an explanatory diagram showing a step of installing a wire leading mechanism of the uninterruptible power distribution method of the present invention.

Figure 2 is an explanatory view of the wire transfer process by the wire transfer mechanism of the uninterruptible power distribution method of the present invention.

Figure 3 is a process explanatory diagram showing a state of installing the extension wire in the uninterruptible power distribution method of the present invention.

Figure 4 is a process explanatory diagram for connecting and connecting the old wire and the second wire to the operation line already wired by the wire transfer mechanism of the uninterruptible power distribution method of the present invention.

5 is a process explanatory diagram for connecting and connecting the oral wire that is already wired by the wire transfer mechanism of the uninterruptible power distribution method of the present invention and the third operation line.

Figure 6 is an embodiment of the wire twist mechanism for the human and internal column used in the present invention

Figure 7 is an embodiment of a pin length casting wire twist mechanism used in the present invention

Figure 8 is an embodiment of the wire extension mechanism for the complete extension used in the present invention

<Description of Symbols for Main Parts of Drawings>

1: Completion 2: Wire conductor for pin head

3: Wire conductor for interior and human race

4: demolition wire 5: extension wire

6: Oral wire 7: Complete wire extension mechanism

Hereinafter, the technical means for achieving the above object will be described in detail by the embodiment of the accompanying drawings.

The electric power distribution method according to the uninterrupted electric field method of the present invention is a new technology using only the wire wire mechanism without using the bypass cable method, which is a temporary transmission method, and at this time, the mechanism to wire the electric wire in the electric pole is fixed with a supporting plate for fixing the key to the finish. Arm fasteners, shaft rods, etc. for the arm body to be rotated and stretched by laying the bolt fastening means made of bolts, the wire lead means made of the wire transfer roller and the arm body, the auxiliary arm for extension of the wire, and the wire lead means made of the wire lead fixing means. It consists of a shaft pipe, a shaft support clamp, and an axis rotation means which becomes a position fixing tool.

Looking specifically at the wire wire structure configured in this way,

Fig. 6 is an embodiment of the wire leading mechanism 3 for the purpose of being installed in the human and built stocks with suspension insulators.

The c-shaped support plates 11 and 11 'of the fastening means 10 are formed on both sides, and the fixing bolt 12 is screwed into the lower side thereof.

The wire wire means 20 is provided with rollers 21 and 21 'that one side can be deployed on the upper ends of the arm bodies 23 and 23' of insulating material formed in two stages of adjustable length, and the upper and lower arm bodies 23 are provided. (23 ') of the coupling portion is formed by the height adjustment clamp 24, the side of the height adjustment clamp 24 to form a live-rotaenger ring (22, 22').

The shaft rotation means 30 weld-forms the shaft rod 32 on both sides of the cylindrical arm fixture 31 in which the clamp 31c was formed, and the shaft pipe 33 in which the spline 33s was formed in the inner surface, This is to be inserted into the shaft support clamp 34 is formed coupled to the upper portion of the support plate (11) (11 '), the position pipe (35) formed with the spline (35s) and the flange (35f) on the outer peripheral surface on the shaft pipe 33 side To be inserted, the position fixing tool support means (11s) and the position fixing tool safety pin (11b) is installed on the side of the support plate (11).

7 is an embodiment of the wire twist mechanism 2 for the purpose of being used for pin lengths.

The c-shaped support plate 11 of the fastening means 10 is formed on only one side, and the axial rotation means 30 formed on the upper portion thereof has a spring rotatable for a predetermined period by the stopper 37 in the shaft support portion 36. The rod 38 is inserted, and the clamp 39 with the pad 39p for coupling the arm body 23 of the insulating material is attached to the tip thereof.

FIG. 8 is an embodiment view of the wire twist mechanism 7 with an auxiliary arm extending outward to use the wire twist mechanism outside.

The wire extension mechanism 7 for the extension is composed of a coupling portion consisting of a support plate 41, an insertion hole 42, and a pinning pin 45, 45 'for the completion of the support plate; The extension arm 43 is made of an insulating material having the insulator hole 46 formed therein.

The uninterruptible power distribution method of the present invention using the wire wire mechanism as described above will be described as follows.

To summarize the distribution method first, as shown in Fig. 1, the wire lead for installing the wire lead mechanisms (2) and (3) for the human lead and the built pin for the human race and the pin rod, respectively, as shown in FIG. Equipment installation process,

As shown in FIG. 2, the wire transfer process for moving the demolition wire 4 to the space 1 and the space for extending the wire by means of the wire transfer mechanism 2 to secure an installation space for replacement and relocation wires; ,

To protect live wires of wires that have been wired and to install wire stranding mechanisms on top of LP insulators;

As shown in FIG. 3, a wire installation process for installing a new extension wire 5 by performing a twisted pair of wires and a long wire in a wire installation space secured and secured to a wire installation space and an LP insulator.

In the uninterruptible power distribution method using a wire transfer mechanism that cuts electricity of the demolition wire 4 without a power failure by a bypass by connecting the installation wire and the demolition wire 4,

Install the wire lead mechanism (2) on only one side and transfer only one wire to the other side, and then replace the wire by the uninterruptible power distribution method in which the corresponding replacement wire was posted.

As shown in FIGS. 4 and 5, the remaining replacement wires are wired wire mechanism installation process, installation wire installation process, and demolition wire dismantling process, which are made by using a twisted-pair wire that is electric without bypass wire wire process as a bypass wire. After repeatedly performing the uninterruptible connection method by the bypass, the demolition wire (4) used as a bypass line is to be removed.

Such a process will be described in detail by way of examples.

First, the complete wire extension mechanism (7) and the wire extension mechanism (7) for internal extension and humanity stock or pin length wire wire extension mechanism (2) if jumper wire treatment is required. Install the wire extension mechanism (7) and the wire extension mechanism (2) for the pin extension in the pin holder and transfer the demolition wire (4) to one side to secure the installation space for the new wire (5). Install new wires.

After the installation of the new wire is completed, the live wire demolition wire, which is still alive, and the new wire are connected to each other and bypassed. If a branch line or a transformer is installed between them, it is connected to the new wire. By uninterrupted power supply, the uninterrupted supply process of the branch line and the transformer is performed by using jumper bypass cable and COS bypass cable.

When the preparation is completed as described above, the uninterruptible electrical separation process of the first wire that completely disconnects the demolition wire 4 from the power source and cuts off the electricity is completed.

When the replacement of the first wire is completed, the demolition wire wired by the wire transfer mechanism is connected to the next wire to be bypassed, and the replacement of the old wire with the extension wire is repeated.

After replacing a plurality of wires using the demolition wire first wired by the wire transfer mechanism as described above, the demolition wire is demolished, and the wire transfer mechanisms installed in Jeonju are removed to replace the uninterrupted wire and replace the pole. And Jeonju relocation and transition site construction work are all completed.

As described above, in the present invention, in the replacement and relocation of the distribution lines connected to each pole, and the change of the transition site, the wires to be replaced and relocated in the live state are moved by using the wire transfer mechanism in the pole, and the new wire is replaced in place. After the installation, bypass current is required without the need for a separate bypass cable, so it is very safe and simple to carry out wire replacement, electric pole replacement, electric pole relocation and transit change work in uninterrupted state. It is possible to operate the system efficiently and stably by not overloading the large-capacity distribution line, and to perform uninterrupted work on the upper line of two or more distribution lines. In addition, it is possible to apply mobile transformer vehicles only when necessary, such as transformer replacement work. While the construction cost has been drastically reduced, the civil complaints can be minimized by not disturbing pedestrians or passing vehicles due to the installation of cables, as well as the replacement of multiple wires by installing a single wire transfer mechanism and wire transfer work. By enabling relocation, it has the effect of minimizing the consumption of work time and manpower.

Claims (1)

Wire wire mechanism installation process for installing wire wire mechanism, Wire transfer process to move the demolition wire to another place by wire transfer mechanism to secure the space for replacement and relocation wire; Wire twisted pair installation process, Process of installing new electric wire by electric wire twisted mechanism, In the uninterruptible power distribution method using the electric wire in the electric pole that cuts electricity of the demolition wire without a power failure by a bypass by connecting the installation wire and the demolition wire, Install the wire lead mechanism on only one side and transfer only one wire to the other side, and then replace the wire by the uninterruptible power distribution method that posted the corresponding replacement wire, The remaining replacement wires are wired wire mechanism installation process, electric wire installation process, demolition wire demolition process, and uninterrupted power by bypass. Uninterruptible power distribution method using electric wire turning mechanism in the electric pole characterized by performing the connection method repeatedly.