KR101344289B1 - The pole fittings changing method use lifting apparatus - Google Patents

Abstract

The present invention relates to a method for replacing the distribution line of the distribution line using the elevating drive device, the method is to drive by the operation unit for lifting up and down by the mechanical operation of the movable wood consisting of horizontal and vertical rods and supporting rods on which the wires are mounted A first step of installing in Jeonju using the Jeonju Government; A second step of elevating the horizontal bar of the loose wood so as to be positioned in line with the existing pinned iron by mechanical operation of the moving part, and transferring the wire fixed to the existing pinned iron to the loose wood; A third step of elevating the horizontal bar of the loose wood to an upper side of the pinned iron pre-installed on the pole by mechanical operation of the operating unit; A fourth step of withdrawing the existing pinwan iron from the pole; A fifth step of securing a space for installing a new built-in iron by lowering the horizontal bar of the wooden member to a lower side than the position of the pin-iron which is pre-installed on the pole by mechanical operation of the operating unit; A sixth step of installing a new built-in iron and suspension insulator in Jeonju by using the space secured by the fifth step; A seventh step of elevating the horizontal bar of the loose wood so that the horizontal line of the loose wood is in line with the new built-in iron installed on the pole by mechanical operation of the loose wood and transferring the wire fixed to the loose wood to the suspension insulator of the new built-in iron; And an eighth step of withdrawing the elevating driving device including the loose wood from the electric pole.

Description

The pole fittings changing method use lifting apparatus

The present invention relates to a method for replacing the jangju using a lift drive device, more specifically, it is possible to ensure the simplicity of the operation, the need for a lot of manpower and vehicles can be secured economical according to cost reduction, the operation is faster The present invention relates to a method for replacing a boat owner with a lifting drive system that is made safe and can increase work efficiency even further.

In general, a three-phase electric wire is fixed and insulated on the insulator of a wrought iron by installing a wrought iron with insulators at the upper end of the pole in a horizontal direction, and changing the pole for replacing poles and changing angular poles at the construction site of KEPCO. (Replace pin pin and built-in pin) and replace corrosive finish (complete iron), and replace LP insulator, install a loose wood in Jeonju, transfer the high voltage wire to the loose wood, and lift the loose wood to secure work space. To make it work.

In general, as for the loose wood, as shown in FIG. 1, a horizontal stand 121 including an insulator 123 is installed at an upper end of the vertical stand 122, and the vertical stand 122 and the horizontal stand 121 are provided. A pair of support rods 124 are installed between the lower ends of both sides of the horizontal bar 121 by the support rods 124. The loose wood 120 configured as described above is fixed to and installed on the pole by the clamp device 130, and the clamp device 130 includes a pair of the pole clamp 130b and the loose neck clamp 130a, and a bolt Or tighten or loosen using a chain band or the like is configured to fix or release the pole and the loose neck.

On the other hand, conventionally, as the use of the wood for the replacement of the pole, if you explain step by step how to change the pole, that is, the pin-wan iron to the built-in iron as an example (see Fig. 6).

In the first step, after using the clamp device 130 to install the loose wood 120 to the pole 100, the wires of the existing pin-shaped iron 110 is transferred to the loose wood 120.

In the second step, the loose neck clamp 130a is released from the fixed neck 120 in a state in which the one end is fixed to the loose neck 120 and a wire connected to a pulley (not shown) is connected by a worker on the ground. Pull up the elbow neck 120, and then tighten the armchair clamp 130a to fix it again.

After the withdrawal of the existing pinned iron 110 through the space secured by the third and second stages, new built-in iron and the suspension insulator are installed.

In the fourth step, the worker loosens the clamp (130a) in the state in which the one side end is fixed to the loose neck 120 and the wire (not shown) connected to the pulley in the state of releasing the fixing to the loose neck 120 Loosen the wires of the loose wood descends the loose wood 120 adjacent to the new built-in iron. Then tighten the loose neck clamp (130a) is fixed to the electric pole 100, wherein the loose neck 120 is moved up and down in accordance with the upper and lower loose neck clamp (130a) when moving up and down Limited.

As shown in FIG. 2, as shown in FIG. 2, the two wires 200 are transferred to the lower side through the outside of the built-in iron 140 among the three-phase wires passing through the new built-in iron 140.

As shown in FIG. 3, among the three-phase wires passing through the new embedded wire 140, the intermediate wire 200 is caught by the built wire 140 and cannot be moved downward. Connect jumper cable (200b).

As shown in FIG. 4, the wires 200 between the jumper cables 200b are cut.

After the wires 200 cut by the eighth and seventh steps are connected between the wires cut after the LP insulator and the binder are installed with the jumper wires 200a at the bottom of the built-in iron 140, the built-in iron 140 ) Is transferred to the suspension insulator 140a.

In a ninth step, the jumper cable 200b is withdrawn from the electric wire 200. Then through the tenth step of withdrawing the wood 120 from the pole 200 to complete a series of replacement of the pole.

As described above, the conventional method for replacing the distribution line of the distribution line using the loose wood has a high risk of safety accident due to high pressure due to the complicated work, and the economical efficiency is lowered due to the cost increase due to the input of a lot of manpower and vehicles. Due to the hassle and inconvenience of work, there was a problem that the construction efficiency is significantly lowered due to workability deterioration.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, the purpose is to ensure the simplicity of the work, the need for a lot of manpower and vehicles can be economical according to cost reduction, The purpose of the present invention is to provide a method for replacing the distribution line of the distribution line using the elevating drive system, which allows the work to be made more quickly and safely.

In order to achieve the object of the present invention, one embodiment of the distribution live boat jangju replacement method using the elevating drive device according to the present invention, the horizontal bar is mounted on the wire and the upper end is formed with a T-shaped cap is inserted into the horizontal bar and the support rod at the bottom The armrest T-type link is coupled to the vertical stand and the upper end is formed on the horizontal arm is fixed by the eye bolt is formed by the angle tie link is formed in the support rod having a ring portion coupled to the arm tie T-type link at the bottom It is coupled to the operating part and the other side of the operating part for driving up and down independently of the movable neck by a mechanical operation by forming a movable neck support part that supports the vertical stand of the loose wood so as to be movable up and down on one side. The first step of installing the elevating drive system composed of Jeonju government that fixes the operation part to Jeonju using Jeonju government A second step of elevating the horizontal bar of the loose wood so as to be positioned in line with the existing pinned iron by mechanical operation of the movable part and transferring the wire fixed to the existing pinned iron to the loosened wood; A third step of elevating the horizontal bar of the loose wood to an upper side of the pinned iron pre-installed on the pole by mechanical operation of the operating unit; A fourth step of withdrawing the existing pinwan iron from the pole; A fifth step of securing a space for installing new internally-completed iron by lowering the horizontal bar of the wooden beam to a lower side than the position of the pin-shaped iron previously installed on the pole by mechanical operation of the operating unit; Using a space secured by the sixth step of installing a new built-in iron and suspension insulator in Jeonju; A seventh step of elevating the horizontal bar of the loose wood so that the horizontal line of the loose wood is in line with the new built-in iron installed on the pole by mechanical operation of the loose wood and transferring the wire fixed to the loose wood to the suspension insulator of the new built-in iron; And an eighth step of withdrawing the elevating driving device including the loose wood from the electric pole.
In addition, another form of the distribution live boat jangjang replacement method using the elevating drive device according to the present invention, the T-type cap is inserted into the horizontal band and the upper end is inserted into the horizontal band to which the wire is mounted, the lower end of the arm tie T-type coupled The link is coupled to the vertical stand and the upper end of the horizontal arm is formed by a female bolt is fixed by the eye bolts are formed in the lower end of the loose wood consisting of a support rod having a ring coupled to the T-type link of the arm tie and on one side An actuating part for driving up and down independently of the actuating wood by mechanical actuation by forming a lumber support part supporting the vertical stand of the wood so as to move up and down, and the jeonju for fixing the actuating part to the pole. A first step of installing the elevating driving device made of the government in Jeonju using the Jeonju government; A second step of elevating the horizontal bar of the loose wood to approach the lower part of the existing built-in iron by mechanical operation of the moving unit and transferring the wire fixed to the hanging insulator of the existing built-in iron to the loose wood; A third step of securing a space for replacing the existing built iron with a new built iron by lowering the horizontal bar of the loose wood to the lower side of the built-in iron already installed in the pole by mechanical operation of the operation unit; A fourth step of withdrawing the existing built-in iron from the pole; A fifth step of installing a new built-in perfection and a suspension insulator at the existing built-in perfection position withdrawn using the space secured by the third step; A sixth step of elevating the horizontal bar of the loose wood by a mechanical operation of the operating unit so as to be positioned at a lower proper distance of the new embedded bush and transferring the wire fixed to the hanging wood to the suspension insulator of the new embedded bush; And a seventh step of withdrawing the elevating driving device including the loose wood from the electric pole.

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As described above, the present invention is freely moved up and down by the mechanical lifting and driving device to perform the wire work more easily without the complicated process due to the jamming the wire when changing the existing jangju change Not only can it secure economics by reducing the cost of reducing manpower and vehicle use, and it has the effect of further increasing the construction efficiency according to the speed and safety of work.

Figure 1 is a perspective view showing the installation and elevated state of a typical loose wood.
2 to 5 is a partial perspective view showing a conventional wire transfer process.
Figure 6 is a block diagram showing the process of replacing the pole using a conventional wooden loose.
Figure 7 and Figure 8 is a perspective view showing the installation and raised state of the loose wood applied to the present invention.
Figure 9 is a block diagram showing the replacement process of the pin-wan and pin-wan iron in accordance with the present invention.
Figure 10 is a block diagram showing the replacement process of the pin wan and built-in wan according to the present invention.
Figure 11 is a block diagram showing a process of replacement of the built-in and the built-in complete according to the invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the alternation method using the elevating drive device according to the present invention.

Figure 9 is a block diagram illustrating the replacement process of the pinwan iron and pinwan iron according to the present invention, as shown in the present invention is installed in the loose wood-ascending tree-replacing the existing pin-wan-descending the wooden row-two wire-wooden row It is through the process of withdrawal.

In more detail step by step, the first step of the elevating drive unit 150 installation step is a horizontal rod 121 is mounted on the wire and the T-shaped cap 125 is inserted into the horizontal rod 121 is formed on the top And the lower end of the arm tie T-type link 127 is coupled to the support rod 124 is coupled to the vertical stand 122 and the upper end is extrapolated to the horizontal stand 121 is fixed by the eye bolt 128 126 is formed and the lower end of the loose wood 120 made of a support bar 124 having a ring 129 is coupled to the arm tie T-shaped link 127 and the vertical stand of the loose wood 120 on one side Actuating part 153 and the actuating part 153 for driving the descending neck 120 independently by a mechanical operation by forming a loose neck support part 152 supporting the 122 to be movable up and down. Jeonju of the lifting and driving device 150 consisting of Jeonju government 151, which is coupled to the other side and fixes the operation unit to Jeonju It is made by fixing the unit 151 to the pole, the loose neck 120 is a horizontal bar 121 including the insulator 123 is installed on the upper end of the vertical stand 122, as usual, the vertical stand A pair of supporting rods 124 is installed between the 122 and the horizontal stage 121 so that both lower portions of the horizontal stage 121 are supported by the supporting rod 124. (See FIG. 7).

In this loose wood, the present invention is characterized in that the loose wood 120 can be fixed and installed in the electric pole 100 to move up and down by the elevating drive device 150 is a mechanical operation is made. There is this. In other words, the movable tree 120 is not directly fixed to the pole 100, and the movable drive unit 150 is fixed and supported by the elevating drive unit 150 so as to be movable up and down so that the existing tree is raised through a difficult and complicated process. Afterwards, the up and down movement range is increased along with the hassle and inconvenience of working by fixing the loose neck directly to the pole.

In addition, the elevating driving device 150 is composed of a pole pole fixed portion 151, a loose neck support portion 152 and an operating portion 153, the pole pole fixed portion 151 has a conventional clamping function, The support 152 has a function of supporting the vertical stand 122 of the loose wood 120 to be movable up and down, and the operation unit 153 is movable up and down by the loose wood support 152. The vertical stand 122 of the loosely supported neck 120 is configured to be driven up and down independently by a mechanical device.

The operation unit 153 applies a manual winch 153a, but this is only an embodiment, and the movable wood 120 is separated from the pole 100 by an electric mechanical device such as a rack and pinion. It may be possible to drive up and down. Here, reference numeral 100 is a pole, 110 is a pinned iron having an insulator 110a, and 200 is an electric wire.

The second step, the temporary by mechanical operation using the operation unit 153 of the lifting and lowering device 150 to be in line with the existing pin-shaped iron 110 on the loose wood 120 installed in the pole 100. After raising the vertical stand 122 of the timber 120, the wires fixed to the insulator 110a of the existing pinned iron 110 is transferred to the insulator 123 of the temporary tree 120.

In the third step, by using the operation unit 153 of the elevating driving device 150, the movable wood 120 is raised to the upper side of the existing pinned iron 110 to secure a space for replacing the existing pinned iron 110. As a result, ascending of the loose wood 120 is made by the operator to operate the manual winch (153a).

The fourth step is to use the space secured by the third step to replace the existing pin Wan-cheol 110 with the withdrawal and new pin-cheol (110) from the pole 100, which is a manual winch (without additional personnel input) By the operator of the vehicle bucket which operated 153a).

In a fifth step, the worker of the bucket again operates the manual winch 153a of the operating unit 153 to lower the loose wood 120 to be in line with the new pinned iron 110, and then the loose wood ( The electric wire fixed to the insulator 123 of 120 is transferred to the insulator 110a of the new pinned iron 110, and the electric pole fixing part 151 of the elevating driving device 150 is separated from the electric pole 100 and moved. Through the sixth step of withdrawing the timber 120, a series of pin-wan and pin-wan will be made.

Figure 10 is a block diagram illustrating the replacement process of the pinned iron and the built-in iron according to the present invention, as shown in the present invention is installed in the loose wood-ascending and loosening-ascending-ascending wood-withdrawal of the conventional pin-iron Descending-New built-in iron and suspension insulator installation-Ascending and moving of rowan tree-Through withdrawal of rowan tree.

In more detail step by step, the first step, but as shown in Figure 7 installed the loose wood 120 in the pole, the loose wood 120 to the elevating drive unit 150 is fixed to the pole By installing so as to be supported to move up and down by, the detailed description of the loose wood 120 and the elevating drive device 150 will be omitted in order to avoid overlapping the pin-waned iron replacement process.

In the second step, after raising the temporary tree 120 to be in line with the existing pinned iron 110 installed in the pole using the elevating driving device 150, the insulator 110a of the existing pinned iron 110 ) Is fixed to the insulator 123 of the loose wood (120).

The third step is to secure the space for replacing the existing built-in iron 140 by raising the temporary tree 120 to the upper side of the existing pinned iron 110 installed in the pole using the lifting drive device 150 In the fourth step, after withdrawing the existing pinned iron 110 from the electric pole by using the space secured by the third step, the fifth tree for lowering the movable tree 120 using the elevating driving device 150 again. As the step is performed, the withdrawal of the pinned iron 110 and the lowering of the temporary tree 120 are all performed by one worker of the bucket like the pinned iron replacement process.

In the sixth step, after the worker of the bucket installs a new built-in complete 140 on the pole 100, the suspension insulator 140a is installed on the built-in complete 140.

In the seventh step, using the elevating driving device 150 to elevate the temporary tree 120 to be located at a proper distance under the new built-in complete 140, the suspension insulator 140 of the new built-in complete 140 After transferring the wires fixed to the insulator 123 of the loose wood 120, the lifting drive device 150 including the loose wood 120 is separated from the electric pole and the series of pins through the eighth step of withdrawing the loose wood The replacement of the complete and built-in iron will be made.

Figure 11 is a block diagram illustrating the replacement process of the built-in iron and the built-in iron according to the present invention, as shown in the present invention is installed in the loose wood-ascending and moving the loose wood-descending the hanging wood-withdrawal of the existing built-in-new interior Installation of full iron and suspension insulator-Ascension and transfer of rowan tree-Through withdrawal of rowan tree.

To describe this step in more detail, the first step is to fix and install the movable wood 120 to the pole to move up and down by the elevating driving device (150).

In the second step, after raising the temporary wooden member 120 to be positioned at an appropriate distance from the existing built-in iron 140 and the lower installed on the pole using the lifting drive device 150, the insulator of the existing built-in iron 140 The wire fixed to 140a is transferred to the insulator 123 of the loose wood 120.

The third step is to secure the space for replacing the existing built-in iron 140 by lowering the temporary tree 120 to the lower side of the existing built-in iron 140 installed on the pole using the elevating driving device 150. , The fourth step is to withdraw the existing built-in iron 110 from the pole using the space secured by the third step.

In the fifth step, after the bucket worker installs the new built-in complete 140 in the pole 100, the suspended insulator 140a is installed in the built-in finished 140.

In the sixth step, after the elevating tree 120 is raised by using the elevating driving device 150 to be positioned at a proper distance between the new built-in iron 140 and a lower portion, the suspension insulator 140 of the new built-in iron 140 is mounted. After transferring the wires fixed to the insulator 123 of the loose wood 120), the lifting drive device 150 including the loose wood 120 is separated from the poles and a series of through the seventh step of withdrawing the loose wood. It is to replace the built-in iron and built-in iron.

As described above, the present invention is freely moved up and down by the mechanical lifting and driving device can be easily performed without the complicated process due to the jamming the wire when changing the existing jangju change or built-in complete iron In addition, it is possible to secure economics by reducing the cost of reducing manpower and vehicle use, and further increase the construction efficiency according to the speed and safety of work.

In the above description, the method for replacing the jangju using the elevating driving apparatus according to the present invention has been described in detail, but it describes only the most preferred embodiments of the present invention, but the present invention is not limited thereto and by the appended claims. The range is determined and defined. It will be apparent to those skilled in the art that various changes and modifications can be made by those skilled in the art without departing from the scope of the present invention.

100: pole 110: pinned iron
110a, 123: Insulator 120: Wooden tree
121: horizontal stand 122: vertical stand
124: support rod 125: T-shaped cap
126: Amtai square link 127: Amtai T-type link
128: eye bolt 129: ring
140: built-in complete 140a: suspension insulator
150: elevating drive device 151: electric pole fixing part
152: armrest support 153: operating part
153a: manual winch 200: electric wire
200a: jumper wire

Claims (3)

delete The horizontal band 121 on which the electric wire is mounted and a T-shaped cap 125 into which the horizontal band 121 is inserted are formed at the upper end, and a vertically coupled Amtie T-type link 127 to which the support rod 124 is coupled at the lower end thereof. At the base 122 and the upper end, the arm tie square link 126 which is extrapolated to the horizontal stand 121 and fixed by the eye bolt 128 is formed, and at the lower end, the ring part coupled to the arm tie T-type link 127 ( 129 is formed with a support bar 124 having a loose neck (120) and one side to form a loose neck support 152 for supporting the vertical stand 122 of the loose wood 120 to move up and down mechanically Lifting device 150 consisting of an operation unit 153 for driving the movable neck 120 up and down independently by operation, and a Jeonju government unit 151 for fixing the operation unit to an electric pole by being coupled to the other side of the operation unit 153. ) The first step of installing in the Jeonju 100 using the Jeonju government (151);
The horizontal bar 121 of the loose wood 120 is raised to be in line with the existing pinned iron by mechanical operation of the operating unit 153 to transfer the wire fixed to the existing pinned iron to the loose wood. A second step;
A third step of elevating the horizontal bar 121 of the loose wood 120 to the upper side of the pin-shaped iron already installed in the pole by mechanical operation of the operation unit 153;
A fourth step of withdrawing the existing pinwan iron from the pole;
The horizontal bar 121 of the loose wood 120 is lowered to a lower side than the position of the pin-wan which was previously installed on the pole by the mechanical operation of the operating unit 153, thereby securing a space for installing a new built-in box. A fifth step;
A sixth step of installing a new built-in iron and suspension insulator in Jeonju by using the space secured by the fifth step;
By raising the horizontal bar 121 of the loose wood 120 to be in line with the new built-in iron installed in the pole by the mechanical operation of the operating unit 153 new wires fixed to the loose wood 120 A seventh step of winning the insulator of the viscera;
An eighth step of withdrawing the elevating drive device (150) including the loose wood (120) from electric pole; distribution livestock replacement method using the elevating drive device, characterized in that consisting of. The horizontal band 121 on which the electric wire is mounted and a T-shaped cap 125 into which the horizontal band 121 is inserted are formed at the upper end, and a vertically coupled Amtie T-type link 127 to which the support rod 124 is coupled at the lower end thereof. At the base 122 and the upper end, the arm tie square link 126 which is extrapolated to the horizontal stand 121 and fixed by the eye bolt 128 is formed, and at the lower end, the ring part coupled to the arm tie T-type link 127 ( 129 is formed with a support bar 124 having a loose neck (120) and one side to form a loose neck support 152 for supporting the vertical stand 122 of the loose wood 120 to move up and down mechanically Lifting device 150 consisting of an operation unit 153 for driving the movable neck 120 up and down independently by operation, and a Jeonju government unit 151 for fixing the operation unit to an electric pole by being coupled to the other side of the operation unit 153. ) The first step of installing in the Jeonju 100 using the Jeonju government (151);
The horizontal bar 121 of the loose wood 120 is raised to approach the lower part of the existing built-in iron by the mechanical operation of the operating unit 153, so that the wire fixed to the suspension insulator of the existing built-in iron is loosened. A second step of electing to;
Secure the space for replacing the existing built-in iron with a new built-in iron by lowering the horizontal bar 121 of the loose wood 120 to the lower side of the built-in iron already installed in the pole by mechanical operation of the operation unit 153. Performing a third step;
A fourth step of withdrawing the existing built-in iron from the pole;
A fifth step of installing a new built-in perfection and a suspension insulator at the existing built-in perfection position withdrawn using the space secured by the third step;
Mechanical operation of the operation unit 153 raises the horizontal bar 121 of the loose wood 120 to be positioned at the lower proper distance of the new built-in bush, and wires fixed to the loose wood 120 are newly built A sixth step of winning the suspension initiator;
A seventh step of withdrawing the elevating drive device (150) including the loose wood (120) from electric pole; distribution livestock replacement method using the elevating drive device, characterized in that consisting of.

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