CN112636251A - Method for changing 10kV straight pole into sectional pole in live mode - Google Patents

Abstract

The invention relates to a method for changing a 10kV straight pole into a sectional pole in an electrified way. The overhead line pole tower mainly solves the technical problem that many overhead line pole towers of the existing distribution line are in narrow roads or on the inner sides of trees on sidewalks and fields, and operation cannot be performed if an insulating bucket arm vehicle is adopted. The invention comprises the following steps: 1. installing insulating fence equipment and safety measures; 2. installing a temporary insulating cross arm and lifting a lead of a lead supporting rod; 3. installing and combining the cross arm and additionally installing an insulating shielding facility; 4. fixing the linear lead in sections; 5. and removing the insulation shielding facility and the insulation equipment.

Description

Method for changing 10kV straight pole into sectional pole in live mode

Technical Field

The invention relates to a live working method of a straight pole, in particular to a live working method for changing a 10kV straight pole into a sectional pole.

Background

The device for changing 10kV straight pole into the sectional pole is a relatively complicated live working method in distribution live working, and a plurality of insulating bucket arm vehicles are used for operation in the past. The insulating bucket arm vehicle is adopted to carry out suspension operation on two sides of a tower, but the operation of the insulating bucket arm vehicle is carried out by adopting an overhead line tower on the road side, and if the tower is not on the road side, the live-line operation cannot be carried out; at present, many overhead line towers of the distribution line are in narrow roads or inside sidewalk trees and fields, and the operation cannot be carried out if an insulating bucket arm vehicle is adopted.

Disclosure of Invention

The invention provides a method for changing a 10kV straight pole into a sectional pole in an electrified way, which mainly solves the technical problem that many overhead line poles and towers of a distribution line are in a narrow road or on the inner side of trees on sidewalks and in the field, and the operation cannot be carried out if an insulating bucket arm vehicle is adopted.

The technical scheme of the invention is as follows: a method for changing a 10kV straight pole into a sectional pole in an electrified way comprises the following steps:

1. equipment for installing insulating fence and safety measure

1.1, two live-wire operators (No. 1 electrician and No. 2 electrician) climb up the electric pole, 2 small insulating pulleys are installed below a cross arm at the end part of the electric pole, and an insulating rope passes through the small insulating pulleys to be led to the ground;

1.2, mounting a metal bracket for fixing the insulating fence and the bracket at a position 1.8-2 m below the cross arm;

1.3, 2 groups of insulating supports and insulating fences are arranged on two sides of the metal bracket along the line direction;

no. 1.4 electricians and No. 1 electricians and No. 2 electricians enter the insulating fence; the No. 3 electrician climbs a pole and respectively transfers the 6 insulation sleeves to the No. 1 electrician and the No. 2 electrician in the fence;

1.5, No. 1 electrician and No. 2 electrician respectively install insulating sleeves on the middle phase lead; and then respectively installing insulating sleeves on the two side phase wires.

2. Installation temporary insulation cross arm and wire supporting rod wire rising

No. 2.1 electrician, No. 1 electrician, No. 2 electrician cooperate each other and mount the temporary insulating cross arm under the cross arm, and mount the insulating support bar of 3 supporting wires on the temporary cross arm;

no. 2, No. 1 electricians respectively install insulating shielding facilities (insulating covers or insulating partition plates or insulating cloth) on the grounding parts of the cross arms and the insulators;

the No. 2 and No. 1 electricians firstly remove the binding wires of the side phase wires on the insulators under the coordination of the No. 2 electricians, the No. 3 electricians vertically prop against the side phase wires by the insulating operating rods, and the No. 1 electrician and the No. 2 electricians are mutually matched to lift the side phase wires to the insulating supporting rods;

the other side phase and middle phase conductors are respectively lifted to the temporary insulation support rods by the electrician No. 2.4, electrician No. 1, electrician No. 2 and electrician No. 3 in the same way as described above.

3. Installation and installation of cross arm with insulation shielding facility

No. 3.1 electrician, No. 1 electrician, No. 2 electrician cooperate and assemble a cross arm in the original single cross arm of another side, and demolish column insulator and middle phase insulator on the original cross arm, make the original single cross arm become and combine the double cross arm;

3.2, No. 1 electricians and No. 2 electricians respectively install 3 strings of strain insulator strings on the two sides of the combined cross arm; cross arm insulating shielding covers are arranged on two sides of the combined cross arm, and an electric pole end insulating cover is arranged at the end of an electric pole;

under the coordination of No. 3 electrician, No. 3 electrician and No. 1 electrician and No. 2 electrician respectively drop the two side phase wires from the temporary insulating support rods to the insulating shelves at the two sides of the cross arm insulating shielding cover, and then drop the middle phase wires from the support rods to the insulating shelves at the inner side of the cross arm insulating shielding cover;

3.4, if the safe distance between the two sides is not enough, an insulating shielding facility is added at the conducting wire of the two sides;

and the temporary insulating cross arm and the insulating supporting rod are removed by matching the No. 3.5 electrician, the No. 1 electrician and the No. 2 electrician.

4. Linear conductor is opened segmentation and is fixed

4.1, No. 1 electricians and No. 2 electricians are matched to connect the insulating drainage wires with two sides of the middle phase lead;

4.2, No. 1 electrician and No. 2 electrician respectively tighten the middle phase lead on the strain clamp of the strain insulator string on the two sides of the middle phase by using the insulating tightener;

4.3, No. 1 electricians and No. 2 electricians are matched with two sides of the middle-phase tightened lead to install backup protection ropes;

4.4 and 2 electricians respectively measure the current on the middle phase lead and the temporary drainage lead by using a clamp-type ammeter;

4.5, No. 1 electrician and No. 2 electrician cooperate to cut off the middle part of the middle phase conductor by using an insulating bolt cutter;

4.6, No. 1 electrician and No. 2 electrician respectively fix the end part of the cut middle phase conductor in the strain clamp;

4.7, electrician No. 1 and electrician No. 2 remove the back-up protection rope and the tightener on the middle phase wire respectively;

4.8, No. 1 electrician and No. 2 electrician respectively install insulating shielding facilities to the neutral phase insulator string, the strain clamp and the lead;

fixing the other two-side phase conductors and the strain insulator string strain clamp at the two sides by a No. 4.9 electrician, a No. 1 electrician and a No. 2 electrician according to the same steps of 4.1-4.8 respectively;

and 4.10, No. 1 electrician and No. 2 electrician adopt insulated wires to respectively connect the disconnected wires at two sides.

5. Demolish insulating facility of shielding and insulating equipment

No. 5.1 and No. 2 electricians adopt a clamp-type ammeter to respectively measure the current on the connecting lead and the temporary insulating drainage wire, and whether part of the current is transferred to the lead or not;

the No. 5.2 electrician, the No. 1 electrician and the No. 2 electrician respectively remove the temporary insulating drainage wire chucks on the two sides;

5.3, removing the insulating covers on the cross arm and the insulating cover at the end part of the electric pole;

5.4, dismantling insulation shielding facilities on the insulator strings and the wires on two sides of the two sides;

5.5, dismantling insulator strings and insulating shielding facilities on the lead wires on two sides of the middle phase;

5.6, electricians No. 1 and electricians No. 2 leave the insulated fence;

5.7, dismantling the insulating fence, the insulating support and the metal bracket;

and 5.8, finishing the work.

The invention has the beneficial effects that: if the insulated arm vehicle is adopted to carry out the operation, each phase of conducting wire and each action need to operate the insulated bucket of the arm vehicle to move up and down or rotate left and right. The double-rail type insulating platform device is not limited by the environment, and an operator can move left and right and up and down in the insulating rail (two to three layers of movable temporary pedals are arranged in the rail); an operator installs an insulating cross arm, an insulating support rod, a cross arm insulating shielding cover and a combined insulating shielding cover in an insulating fence; and installing temporary insulating drainage wires, tightening wires, fixing wires and other operation operations in the insulating fence. The operation method is suitable for distribution overhead lines in various environments, and the fence type insulating platform device can be disassembled and assembled, is convenient to transport and carry and is suitable for live-line operation of replacing various devices by matching with various insulating shielding devices.

Drawings

Fig. 1 is a simplified schematic diagram of the electric pole of the present invention.

Fig. 2 is a schematic diagram of the installation of the insulated fence, the temporary insulated crossarm and the insulated support rod according to the present invention.

FIG. 3 is a schematic view of the cross arm insulation shielding cover structure of the present invention.

In the figure: 1-electric pole, 2-cross arm, 3-small insulating pulley, 4-metal bracket, 5-insulating fence, 6-insulating support, 7-temporary insulating cross arm, 8-insulating support rod and 9-cross arm insulating shielding cover.

Detailed Description

Referring to fig. 1-3, a method for changing a 10kV straight pole into a sectional pole with electricity comprises the following steps:

1. equipment for installing insulating fence and safety measure

1.1, No. 1 electricians and No. 2 electricians climb up the electric pole 1, two small insulating pulleys 3 are installed below the cross arm 2 at the end part of the electric pole, and an insulating rope passes through the small insulating pulleys and is led to the ground;

1.2, mounting and fixing a metal bracket 4 of an insulating fence 5 and an insulating bracket 6 at a position 1.8-2 m below the cross arm;

1.3, 2 groups of insulating supports 6 and insulating fences 5 are arranged on two sides of the metal bracket 4 along the line direction;

no. 1.4 electricians and No. 1 electricians and No. 2 electricians enter the insulating fence 5; the No. 3 electrician climbs a pole and respectively transfers the six insulating sleeves to the No. 1 electrician and the No. 2 electrician in the fence;

1.5, No. 1 electrician and No. 2 electrician respectively install insulating sleeves on the middle phase lead; and then respectively installing insulating sleeves on the two side phase wires.

2. Installation temporary insulation cross arm and wire supporting rod wire rising

No. 2.1 electrician, No. 1 electrician and No. 2 electrician are mutually matched, a temporary insulating cross arm 7 is arranged at a position 0.2m below the cross arm, and an insulating support rod 8 for supporting three wires is arranged on the temporary cross arm (the height of the insulating support rod is more than 0.6m away from the cross arm);

no. 2, No. 1 electricians respectively install insulating shielding facilities (insulating covers or insulating partition plates or insulating cloth) on the grounding parts of the cross arms and the insulators;

the No. 2 and No. 3 electricians firstly remove the binding wires of the side phase wires on the insulators under the matching of the No. 2 electricians, the No. 3 electricians vertically prop against the side phase wires by the insulating operating rods, and the No. 1 electrician and the No. 2 electrician are mutually matched to lift the side phase wires onto the insulating supporting rods 8 (the distance between the wires and the cross arm is more than 0.6 m);

the other side phase and middle phase conductors are respectively lifted to the temporary insulation support bars 8 by the electrician No. 2.4, No. 1, No. 2 and No. 3 in the same manner as described above.

3. Installation and installation of cross arm with insulation shielding facility

No. 3.1 electrician, No. 1 electrician, No. 2 electrician cooperate and assemble a cross arm in the original single cross arm of another side, and demolish column insulator and middle phase insulator on the original cross arm, make the original single cross arm become and combine the double cross arm;

3.2, No. 1 electricians and No. 2 electricians respectively install 3 strings of strain insulator strings on the two sides of the combined cross arm; cross arm insulating shielding covers 9 are arranged on two sides of the combined cross arm, and an electric pole end insulating cover is arranged at the end of an electric pole;

under the coordination of the No. 3 electrician, the No. 3 electrician and the No. 1 electrician respectively descend the two side phase wires from the temporary insulating support rod 8 to the insulating shelves at the two sides of the cross arm insulating shielding cover 9, and then descend the middle phase wires from the insulating support rod 8 to the insulating shelves at the inner side of the cross arm insulating shielding cover 9;

3.4, if the safe distance between the two sides is not enough, an insulating shielding facility is added at the conducting wire of the two sides;

the temporary insulating cross arm 7 and the insulating support rod 8 are removed by the cooperation of No. 3.5 electrician, No. 1 electrician and No. 2 electrician.

4. Linear conductor is opened segmentation and is fixed

4.1, No. 1 electrician and No. 2 electrician cooperate to connect the insulated drainage wire with two sides of the middle phase conductor (if the insulated conductor should be stripped of the insulating layer and the conductor at the connection position of the drainage wire is subjected to deoxidation treatment);

4.2, No. 1 electrician and No. 2 electrician respectively tighten the middle phase conductor on the strain clamp of the strain insulator string on two sides of the middle phase by using the insulating tightener (the tension of the conductor should be the same as that of the original conductor);

4.3, No. 1 electricians and No. 2 electricians are matched with two sides of the middle-phase tightened lead to install backup protection ropes;

4.4 and 2 electricians respectively measure the current on the middle phase lead and the temporary drainage wire (part of the current is transferred to the insulating drainage wire);

4.5, No. 1 electrician and No. 2 electrician cooperate to cut off the middle part of the middle phase conductor by using an insulating bolt cutter;

4.6, No. 1 electrician and No. 2 electrician respectively fix the end part of the cut middle phase conductor in the strain clamp;

4.7, electrician No. 1 and electrician No. 2 remove the back-up protection rope and the tightener on the middle phase wire respectively;

4.8, No. 1 electrician and No. 2 electrician respectively install insulating shielding facilities to the neutral phase insulator string, the strain clamp and the lead;

fixing the other two-side phase conductors and the strain insulator string strain clamp at the two sides by a No. 4.9 electrician, a No. 1 electrician and a No. 2 electrician according to the same steps of 4.1-4.8 respectively;

and 4.10, No. 1 electrician and No. 2 electrician adopt insulated wires to respectively connect the disconnected wires on two sides (for example, when equipment is installed, the insulated wires on two sides of the equipment are connected with segmented wires on two sides, and the insulated wires are connected one by one).

5. Demolish insulating facility of shielding and insulating equipment

No. 5.1 and No. 2 electricians adopt a clamp-type ammeter to respectively measure the current on the connecting lead and the temporary insulating drainage wire, and whether part of the current is transferred to the lead or not;

the No. 5.2 electrician, the No. 1 electrician and the No. 2 electrician respectively remove the temporary insulating drainage wire chucks on the two sides; (during dismantling, attention should be paid to the fact that the wires are dismantled from both sides simultaneously, and the wires should be dismantled phase by phase);

5.3, removing the cross arm insulating shielding cover 9 and the electric pole end insulating cover (if the safety distance is not enough, removing the insulating cover by adopting an insulating operating rod);

5.4, dismantling insulation shielding facilities on the insulator strings and the wires on two sides of the two sides;

5.5, removing insulator strings on two sides of the middle phase and insulating shielding facilities on the lead (if the safety distance is not enough, removing the insulating cover by adopting an insulating operating rod);

5.6, electrician No. 1 and electrician No. 2 leave the insulated fence 5;

5.7, dismantling the insulating fence 5, the insulating support 6 and the metal bracket 4;

and 5.8, finishing the work.

The insulating property and the mechanical strength of the installation operation device of the invention both meet the basic technical requirements and the design guide rule (GB/T18037-2000) requirements of the live working tool specified by the state.

Electrical test items, periods, requirements of insulating platforms

Mechanical test items, periods and requirements of insulating platform

Loading a load: the operator presses 80 kg; 15kg of tool weight; the total load is 85 kg; k = 2.5.

Test load: 85 × 2.5=212.5 kg.

Claims (6)

1. A method for changing a 10kV straight pole into a sectional pole in an electrified way is characterized by comprising the following steps: the method comprises the following steps:

1. installing insulating fence equipment and safety measures;

2. installing a temporary insulating cross arm and lifting a lead of a lead supporting rod;

3. installing and combining the cross arm and additionally installing an insulating shielding facility;

4. fixing the linear lead in sections;

5. and removing the insulation shielding facility and the insulation equipment.

2. The method for changing the live working of the 10kV straight pole into the sectional pole working according to claim 1, which is characterized in that: the step 1 specifically comprises the following steps:

1.1, No. 1 electricians and No. 2 electricians climb up the electric pole, 2 small insulating pulleys are installed below a cross arm at the end part of the electric pole, and an insulating rope passes through the small insulating pulleys and is led to the ground;

1.2, mounting a metal bracket for fixing the insulating fence and the bracket at a position 1.8-2 m below the cross arm;

1.3, 2 groups of insulating supports and insulating fences are arranged on two sides of the metal bracket along the line direction;

no. 1.4 electricians and No. 1 electricians and No. 2 electricians enter the insulating fence; the No. 3 electrician climbs a pole and respectively transfers the 6 insulation sleeves to the No. 1 electrician and the No. 2 electrician in the fence;

1.5, No. 1 electrician and No. 2 electrician respectively install insulating sleeves on the middle phase lead; and then respectively installing insulating sleeves on the two side phase wires.

3. The method for changing the live working of the 10kV straight pole into the sectional pole working according to claim 1, which is characterized in that: the step 2 specifically comprises the following steps:

no. 2.1 electrician, No. 1 electrician, No. 2 electrician cooperate each other and mount the temporary insulating cross arm under the cross arm, and mount the insulating support bar of 3 supporting wires on the temporary cross arm;

no. 2 and No. 1 electricians respectively add insulating shielding facilities to the grounding parts of the cross arm and the insulator;

the No. 2 and No. 1 electricians firstly remove the binding wires of the side phase wires on the insulators under the coordination of the No. 2 electricians, the No. 3 electricians vertically prop against the side phase wires by the insulating operating rods, and the No. 1 electrician and the No. 2 electricians are mutually matched to lift the side phase wires to the insulating supporting rods;

the other side phase and middle phase conductors are respectively lifted to the temporary insulation support rods by the electrician No. 2.4, electrician No. 1, electrician No. 2 and electrician No. 3 in the same way as described above.

4. The method for changing the live working of the 10kV straight pole into the sectional pole working according to claim 1, which is characterized in that: the step 3 specifically comprises the following steps:

no. 3.1 electrician, No. 1 electrician, No. 2 electrician cooperate and assemble a cross arm in the original single cross arm of another side, and demolish column insulator and middle phase insulator on the original cross arm, make the original single cross arm become and combine the double cross arm;

3.2, No. 1 electricians and No. 2 electricians respectively install 3 strings of strain insulator strings on the two sides of the combined cross arm; cross arm insulating shielding covers are arranged on two sides of the combined cross arm, and an electric pole end insulating cover is arranged at the end of an electric pole;

under the coordination of No. 3 electrician, No. 3 electrician and No. 1 electrician and No. 2 electrician respectively drop the two side phase wires from the temporary insulating support rods to the insulating shelves at the two sides of the cross arm insulating shielding cover, and then drop the middle phase wires from the support rods to the insulating shelves at the inner side of the cross arm insulating shielding cover;

3.4, if the safe distance between the two sides is not enough, an insulating shielding facility is added at the conducting wire of the two sides;

and the temporary insulating cross arm and the insulating supporting rod are removed by matching the No. 3.5 electrician, the No. 1 electrician and the No. 2 electrician.

5. The method for changing the live working of the 10kV straight pole into the sectional pole working according to claim 1, which is characterized in that: the step 4 specifically comprises the following steps:

4.1, No. 1 electricians and No. 2 electricians are matched to connect the insulating drainage wires with two sides of the middle phase lead;

4.2, No. 1 electrician and No. 2 electrician respectively tighten the middle phase lead on the strain clamp of the strain insulator string on the two sides of the middle phase by using the insulating tightener;

4.3, No. 1 electricians and No. 2 electricians are matched with two sides of the middle-phase tightened lead to install backup protection ropes;

4.4 and 2 electricians respectively measure the current on the middle phase lead and the temporary drainage lead by using a clamp-type ammeter;

4.5, No. 1 electrician and No. 2 electrician cooperate to cut off the middle part of the middle phase conductor by using an insulating bolt cutter;

4.6, No. 1 electrician and No. 2 electrician respectively fix the end part of the cut middle phase conductor in the strain clamp;

4.7, electrician No. 1 and electrician No. 2 remove the back-up protection rope and the tightener on the middle phase wire respectively;

4.8, No. 1 electrician and No. 2 electrician respectively install insulating shielding facilities to the neutral phase insulator string, the strain clamp and the lead;

fixing the other two-side phase conductors and the strain insulator string strain clamp at the two sides by a No. 4.9 electrician, a No. 1 electrician and a No. 2 electrician according to the same steps of 4.1-4.8 respectively;

and 4.10, No. 1 electrician and No. 2 electrician adopt insulated wires to respectively connect the disconnected wires at two sides.

6. The method for changing the live working of the 10kV straight pole into the sectional pole working according to claim 1, which is characterized in that: the step 5 specifically comprises the following steps:

no. 5.1 and No. 2 electricians adopt a clamp-type ammeter to respectively measure the current on the connecting lead and the temporary insulating drainage wire, and whether part of the current is transferred to the lead or not;

the No. 5.2 electrician, the No. 1 electrician and the No. 2 electrician respectively remove the temporary insulating drainage wire chucks on the two sides;

5.3, dismantling the cross arm insulating shielding cover and the electric pole end insulating cover;

5.4, dismantling insulation shielding facilities on the insulator strings and the wires on two sides of the two sides;

5.5, dismantling insulator strings and insulating shielding facilities on the lead wires on two sides of the middle phase;

5.6, electricians No. 1 and electricians No. 2 leave the insulated fence;

5.7, dismantling the insulating fence, the insulating support and the metal bracket;

and 5.8, finishing the work.

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