KR102228755B1 - Bypass cable pulling device for indirect live wire with temporary hook with automatic detachable fixing hook and cable head rotating connection clamp and installation method using it - Google Patents

Abstract

The present invention relates to a bypass cable pulling device and a method of installing bypass cable indirect live wire using the same for the installation of the bypass cable in the case of replacement and relocation of distribution lines and change of a progress site. In more detail, disclosed are an automatic detachable bypass cable pulling device for indirect live work having a cable head rotating connection clamp and a technical field related to an indirect live bypass cable installation method using the same, which can reduce a load of the temporary hanging clamp than in the prior art, so that the temporary hanging clamp can be installed on a power line more stably and easily, can raise a cable head rotating connection clamp to which the bypass cable is connected only by pulling an insulation rope without using a separate tool, and when the cable head rotating connection clamp is installed on the power line, the insulation rope is positioned behind the cable head rotating connection clamp so that it is not disturbed by the insulation rope during operation, thereby improving the efficiency of a work.

Description

Bypass cable pulling device for indirect live wire with temporary hook with automatic using the same. detachable fixing hook and cable head rotating connection clamp and installation method using it}

The present invention relates to a bypass cable pulling device for installing a bypass cable at the time of replacement and relocation of a distribution line, and a change in construction, and a bypass cable indirect live line installation method using the pulling device. It is possible to install the temporary hanger on the power line more stably and easily by reducing the load of the temporary hanger, and it is possible to raise the cable head rotary connection clamp to which the bypass cable is connected by pulling the insulation rope without using a separate tool. , When installing the cable head rotation type connection clamp on the power line, the insulation rope is positioned behind the cable head rotation type connection clamp so as not to be disturbed by the insulation rope during work, thereby improving work efficiency. This is a technical field related to a bypass cable pulling device for indirect live wires having a temporary hook with an automatic detachable fixing hook and a cable head rotating connection clamp, and a method of indirect live wire installation of a bypass cable using the same.

In modern society, the demand for power is increasing rapidly, and the level of demand for power quality is gradually increasing accordingly.

Accordingly, the uninterrupted distribution method is mainly adopted and the work is being carried out in order to supply quality power by reducing power outages during construction for new construction and maintenance of distribution lines. .

The conventional uninterruptible power distribution method for extra-high voltage distribution lines uses an uninterruptible temporary transmission method using a bypass jumper cable for live lines, a switch for construction, an uninterruptible transformer train, a bypass cable, etc. As the client, KEPCO, decided to abolish the direct live wire construction method in 2017 and introduce the uninterrupted power distribution method using the indirect live wire construction method. Due to the confusion caused by the combined use of the construction method and the direct live wire construction method, as well as the risk of safety accidents in live wire majors, work efficiency is degraded due to limitations in labor intensity and physical strength, making it impossible to use the field. to be.

At this time, the conventional direct live wire construction method was used for live wires with a length of about 1.5m to 2m in order to secure a safety distance, unlike the live wire majors wearing protective equipment and directly touching the extra high pressure in the live wire condition. It is a live wire method in which indirect work is performed using an insulating stick without directly contacting the extra-high voltage distribution line in a live state by using an insulating stick.

On the other hand, to implement the uninterruptible power distribution method, a bypass jumper cable for live lines, a switch for construction, an uninterruptible transformer train, a bypass cable, etc. are used.This method must be used to attach the bypass cable clamp to a special high voltage power line with a direct live line or an indirect live line. Installation, and jumper wire separation and compression are involved.

That is, with reference to FIGS. 1A and 1B, the conventional uninterruptible power distribution method always involves the installation process of the cable clamp 3, first, the temporary cable hanger 2 is attached to the extra high voltage power line 6 and the live wire work stick 5 is attached. The bypass cable (7) temporarily mounted on the gazjicrete (4) is temporarily fixed to the cable temporary hanger (2) using a live wire work stick (5), and then using a live wire cladding machine. After removing the sheath of the extra high voltage power line (6), use the live wire work stick (5) again to attach the cable clamp (3) temporarily fixed to the temporary cable hanger (2), and the extra high voltage power line (6) with the sheath removed. ), and then insert the cable rotation device into the cable clamp (3), and then perform the process of connecting using the rotation function stick for indirect live wire.

However, the indirect live wire uninterruptible power distribution method as described above uses a live wire work stick with a length of about 1.5 m to 2 m to perform a very complex and cumbersome task, such as a cable separation cutter, a live wire compressor (approximately 4.5 kg), and a cable. The weight of the clamp (approximately 5~20kg) is placed on the end of the live wire work stick, so it is impossible to support the live wire work stick due to the physical strength of the worker.Therefore, there are frequent mistakes of dropping the cable clamp during work, and this increases the labor intensity of live wire majors to the highest level. Due to the limitation of physical strength, not only concerns about musculoskeletal diseases, but also causes safety accident risk and line breakdown due to omission of protection.For this reason, the indirect live wire uninterruptible distribution method of the previous technology was implemented in the industry related to live wire major and applied technology. I am concerned.

As an example of the prior art for more smooth and efficient implementation of the indirect live wire uninterruptible power distribution method as described above, Patent No. 10-2015777 applied for and registered by the applicant of the present invention,'Cable head rotary connection clamp for indirect live wire An automatic attachable and detachable bypass cable pulling device with a temporary hanging clamp and a bypass cable indirect live wire installation method using the same are disclosed.

The prior art is connected to the end of the insulation lifting belt by manipulating the control unit so that the insulation lifting belt is wound around the drum body or unwound from the drum body, and it is possible to perform uninterrupted uninterrupted replacement of the distribution line, relocation, and change of the transition point. In addition, when installing and removing the distribution line, the temporary hanger clamp unit fixed to the power line is configured in an automatic detachable type instead of a tightening type, so that the installation of the cable head rotary connection clamp can be made easier, faster, and more safely. .

However, in the prior art, the load is increased by the drum unit and the control unit for raising and lowering the insulation lifting belt, so that when the worker uses a live wire work stick (hereinafter, referred to as'insulation stick'), a temporary hanging clamp clamp on the power line Not only is it difficult to install the part, but when the insulation lifting belt is raised and lowered using the drum part and the control unit, the pulling control knob of the control unit must be rotated using a separate tool, so the work process is increased and the work efficiency is lowered. There was this.

In addition, in the prior art, when the temporary hanging clamp unit is installed on the power line and then the cable head rotary connection clamp to which the bypass cable is connected is raised to install on the power line, the insulation lifting belt connected to the upper portion of the cable head rotary connection clamp There is a problem in that it is difficult to install the cable head rotation type connection clamp on a power line because the cable head rotation type connection clamp may be bent down to the front of the cable head rotation type connection clamp, thereby reducing work efficiency.

Korean Patent Registration No. 10-2115777 (2020.05.21.)

The present invention is a technology conceived to solve the problems according to the prior art described above, in the conventional bypass cable pulling device and method, the load is increased due to the configuration for pulling up and lowering the insulation pulling belt, so that a temporary hook is installed on the power line. Not only it is difficult to do, but also a problem in that the working process is increased because the drum unit must be operated using a separate tool; and

Insulation lifting belt connected to the upper part of the cable head rotary connection clamp by tilting the upper part of the cable head rotary connection clamp forward when the cable head rotary connection clamp to which the bypass cable is connected is raised for installation on the power line Is bent down to the front of the cable head rotation type connection clamp, and it is difficult to install the cable head rotation type connection clamp on a power line.

As a solution to this, by installing a ratchet part under the temporary hanger and installing an insulation rope that acts like a conventional insulation lifting belt in the ratchet part, not only the insulation rope can be more easily raised and lowered, but also the temporary hanger While reducing the load so that the temporary hanger can be installed on the power line more stably and easily, the cable head is installed so as to be rotatable only rearward on the top of the cable head rotary connection clamp and is connected to the insulation rope. Temporary with an automatic detachable fixing hook that can improve the efficiency of work by preventing the insulation rope from bent down to the front of the cable head rotary connection clamp when pulling up the rotary connection clamp for installation on the power line. The main purpose is to provide a bypass cable pulling device for an indirect live wire having a hook and a cable head rotating connection clamp, and a bypass cable indirect live wire installation method using the same.

In the present invention, in order to realize the desired object as described above, the front lower part is formed in an open ring shape, and a hook groove is formed in the inner upper part, and a stopping force is generated in one direction at the lower part, by the ratchet operation key 111 Automatic detachable fixing, characterized in that it comprises a temporary hanger provided with a ratchet part for releasing the stopping force, an insulation rope installed on the ratchet, and a cable head rotary connection clamp connected to one end of the insulation rope A bypass cable pulling device for indirect live wires having a temporary hook with a hook and a cable head rotating connection clamp is presented.

In addition, the temporary hanger of the present invention is configured to include a fixing lever that is hinged at the rear and the front is elastically supported in the upper direction, and the fixing lever includes a gripping hole formed through the rear, The hook groove is characterized in that the width becomes narrower toward the top.

In addition, the cable head rotary connection clamp of the present invention is hinged to the upper portion, coupled to be elastically supported to the rear, and the rotary link to which the upper portion is connected to one end of the insulating rope and the rotary link are coupled to the upper portion. And a bypass cable connecting portion rotatably connected to a lower portion of the bypass cable clamp portion and a bypass cable connected to a lower portion of the bypass cable connecting portion.

In addition, the bypass cable connection portion of the present invention is rotatably coupled to the bypass cable clamp portion at an upper portion, and a rotating member having a lower portion coupled to the upper portion of the bypass cable and rotatably coupled to the outside of the rotating member And a housing for protecting the rotating member.

In addition, the rotating member of the present invention has a cross section that is rotatably penetrated and coupled to a lower portion of the bypass cable clamp unit and is coupled to a lower portion of the connecting member and the connecting member in a "T" shape. It characterized in that it comprises a rotating body to which the upper portion is coupled and a wave washer member coupled to the lower outer side of the connection member to elastically support the bypass cable clamp portion in an upper direction.

In addition, the present invention uses an indirect live wire bypass cable pulling device having a temporary hook provided with an automatic detachable fixing hook and a cable head rotating connection clamp as described above, but the power supply side and the load side of the power line in a live wire state are used. A work preparation process in which the bypass cable connected with the pass cable pulling device and the cable head rotational connection clamp is placed on the pole and prepared for each phase, and the temporary hook of the bypass cable pulling device is installed for each phase on the power line on the power side and the load side. The pulling device installation process and one side of the insulation rope of each installed bypass cable pulling device are lowered, and the cable head rotating connection clamp to which the bypass cable is connected is fastened to one end of the insulation rope, and then one side of the insulation rope of the bypass cable pulling device. The bypass cable preparation process to raise the voltage and the raised cable head rotation type connection clamp are installed phase by phase on the power line on the power supply side and the load side by using a stick for indirect live line, and the power line and the cable head rotation type connection clamp are sequentially installed in phase by phase. After the bypass cable installation process for connecting the power line and the bypass cable by connecting and energizing the power line and bypass connection of the cable head rotary connection clamp to which the power line and the bypass cable are connected, jumper wires on both sides of the work section are phase-by-phase. Jumper wire separation process and jumper wires that are sequentially separated, distribution facility work process that performs diagonal work within the work section in a diagonal state, and after distribution work, jumper wires that connect jumper wires on both sides of the work section sequentially for each phase Bypass cable separation process and power supply for separating the cable head rotary connection clamp installed for each phase on the process and power line and on the load side, and separating the cable head rotary connection clamp to which the bypass cable is connected from the insulation rope. It includes a temporary hanger separation process that separates the temporary hanger of the bypass cable pulling device installed for each phase on the power line of the side and the load side, and a finishing process that removes the bypass cable connected to the cable head head rotation type connection clamp and clears the site. It presents a method of indirect live wire installation of a bypass cable, characterized in that.

The bypass cable pulling device for indirect live wires having a temporary hook having an automatic detachable fixing hook and a cable head rotating connection clamp according to the present invention presented as above, and a bypass cable indirect live wire installation method using the same

The load of the temporary hanger is greatly reduced by simply raising and lowering the insulation rope corresponding to the insulation raising belt by using a ratchet so that the configuration of raising and lowering the separate insulation raising belt such as the conventional drum unit and the control unit is excluded. It is easy to install the temporary hanger on the power line, and the cable head rotary connection clamp can be pulled up and lowered with only a simple operation of pulling up and lowering the insulation rope, so that the preparation process for connecting the work bypass cable is easy; Wow

When installing the cable head rotation type connection clamp on the power line, the insulation rope is installed on the top of the cable head rotation type connection clamp so as to be rotatable only rearward, and the insulation rope is connected to the insulation rope by using a rotation link connected to the insulation rope. By not being bent down to the front of the connection clamp, it is possible to more easily install the cable head rotary connection clamp on the power line without being disturbed by the work by the insulation rope, thereby improving the efficiency of work; can be obtained. have.

1A and 1B are views showing a conventional temporary cable connection clamp.
Figure 2 is a side view showing a temporary hook automatic detachable bypass cable pulling device provided with a cable head rotary connection clamp for indirect live wire according to a preferred embodiment of the present invention.
Figure 3 is a perspective view showing a temporary hanger according to a preferred embodiment of the present invention.
Figure 4 is a perspective view of another angle showing a temporary hanger according to a preferred embodiment of the present invention.
Figure 5 is an exploded perspective view showing a temporary hanger according to a preferred embodiment of the present invention.
Figure 6 is a side perspective view showing a temporary hanger according to a preferred embodiment of the present invention.
Figure 7 is a side perspective view showing the operation of the temporary hanger according to a preferred embodiment of the present invention.
8 is a view showing the operation of the cable head rotary clamp according to a preferred embodiment of the present invention.
9 is a partial cross-sectional view showing a cable head rotary clamp according to a preferred embodiment of the present invention.
10 is a view showing a process of installing an impression device according to a preferred embodiment of the present invention.
11 is a view showing a bypass cable preparation process according to a preferred embodiment of the present invention.
12 is a view showing a bypass cable installation process according to a preferred embodiment of the present invention.
13 is a partial side view showing a state in which the cable head rotary connection clamp is raised during the conventional bypass cable installation process corresponding to the bypass cable installation process of the present invention.
14 is a partial side view showing a state in which the cable head rotary connection clamp is raised during a bypass cable installation process according to a preferred embodiment of the present invention.

The present invention relates to a bypass cable pulling device for installing a bypass cable at the time of replacement and relocation of a distribution line, and a change in construction, and a bypass cable indirect live line installation method using the pulling device. It is easier to install the temporary hanger 100 on the power line W by reducing the load of the temporary hanger 100, and an insulation rope installed on the ratchet part 110 of the temporary hanger 100 without using a separate tool. It is possible to easily raise the cable head rotational connection clamp 300 on which the bypass cable 330 is installed only by pulling 200, and rotation that can only be rotated rearward on the upper portion of the cable head rotational connection clamp 300 By installing a link 314 to connect the insulation rope 200 and the cable head rotational connection clamp 300, when the cable head rotational connection clamp 300 is installed on the power line W, the insulation rope ( 200) is bent to the front of the cable head rotary connection clamp 300, the temporary hanger and the cable head rotary connection clamp with an automatic detachable fixing hook that can improve the efficiency of work by preventing it from interfering with the work. This is a technology related to a bypass cable pulling device for indirect live wires and a bypass cable indirect live wire installation method using the same.

The configuration of the bypass cable pulling device for indirect live wire having a temporary hanger with an automatic detachable fixing hook and a rotating cable head connection clamp for achieving the present invention as described above consists of a ring shape with an open front lower part, and is formed in the inner upper part. A hook groove 102 is formed, a stopping force is generated in one direction at the lower portion, a temporary hook 100 provided with a ratchet part 110 whose stopping force is released by a ratchet operation key 111; And the ratchet Insulation rope 200 installed in the unit 110; And a cable head rotating connection clamp 300 having an upper portion connected to one end of the insulating rope 200.

In addition, the temporary hanger 100 of the present invention comprises a fixed lever 120 hingedly coupled to the center at the rear and elastically supported in the upper direction at the front, and the fixing lever 120 penetrates at the rear. It is configured to include; the gripping hole 122 is formed, and the hook groove 102 is characterized in that the width becomes narrower toward the top.

In addition, the cable head rotary connection clamp 300 of the present invention is hinged to the upper portion, coupled to be elastically supported to the rear, and a rotary link 314 to which the upper portion is connected to one end of the insulating rope 200 ); and a bypass cable clamp unit 310 to which the rotation link 314 is coupled to an upper portion; and a bypass cable connection unit 320 which is rotatably connected to a lower portion of the bypass cable clamp unit 310; And a bypass cable 330 connected to a lower portion of the bypass cable connection part 320.

In addition, the bypass cable connection part 320 of the present invention is rotatably coupled to the bypass cable clamp unit 310 at an upper portion, and a rotating member 322 having a lower portion coupled to the upper portion of the bypass cable 330 ); and a housing 324 which is rotatably coupled to the outside of the rotating member 322 to protect the rotating member 322;

In addition, the rotating member 322 of the present invention is a connecting member (322a) having a cross section of a "T" shape that is rotatably connected to the lower portion of the bypass cable clamp unit 310; and the connecting member 322a ) Is coupled to the lower portion of the rotating body (322b) to which the upper portion of the bypass cable 330 is coupled to the lower portion; And a wave washer member 322c coupled to the lower and outer side of the connection member 322a to elastically support the bypass cable clamp unit 310 in an upward direction.

The configuration of the bypass cable indirect live wire installation method for achieving the present invention using the temporary hook provided with the automatic detachable fixing hook and the bypass cable pulling device for indirect live wire having a cable head rotational connection clamp is in a live wire state. A work preparation process (S10) of preparing a phase by phase by standing on a pole on a bypass cable to which the bypass cable pulling device and the cable head rotational connection clamp 300 are connected to the power and load sides of the power line (W) (S10); and bypass The pulling device installation process (S20) of installing the temporary hanger 100 of the cable pulling device for each phase on the power line W of the power side and the load side; and one side of the insulating rope 200 of each of the installed bypass cable pulling devices. The bypass cable preparation process of lowering and hooking the cable head rotary connection clamp 300 to which the bypass cable is connected to one end of the insulation rope 200 and then raising one side of the insulation rope 200 of the bypass cable pulling device ( S30); and the pulled cable head rotational connection clamp 300 are installed phase by phase on the power line (W) on the power side and the load side with an indirect live line stick, and the power line (W) and the cable head rotation type connection clamp A bypass cable installation process (S40) of connecting and energizing the power line (W) and the bypass cable 330 by sequentially connecting and energizing the 300; and the power line (W) and the bypass cable 330 After bypass connection of the connected cable head rotary connection clamp 300, a jumper wire separation process (S50) of sequentially separating jumper wires on both sides of the work section by phase; Distribution facility work process (S60) for performing diagonal work; And, after the distribution work, jumper wire connection process (S70) for sequentially connecting jumper wires on both sides of the work section for each phase; And the power line on the power side and the load side ( The bypass cable separation process of separating the cable head rotation type connection clamp 300 installed for each phase in W), and separating the cable head rotation type connection clamp 300 to which the bypass cable is connected from the insulation rope 200 (S80 ) And a temporary hanger separation step (S90) of separating the temporary hanger 100 of the bypass cable pulling device installed for each phase on the power line (W) of the power side and the load side; And a finishing process (S100) of removing the bypass cable to which the cable head head rotational connection clamp 300 is connected and arranging the site (S100).

Hereinafter, the present invention will be described in detail with reference to FIGS. 2 to 14 showing an embodiment of the present invention.

The temporary hanger 100, which is the main component for achieving the present invention, is

The bottom of the front is made of an open ring shape, that is, a hook shape, and a hook groove 102 is formed on the inner upper side to accommodate the power line (W) so that it can be mounted, and a stopping force is generated in one direction at the bottom, but the ratchet operation A ratchet part 110 that releases the stopping force by the key 111 is provided, and the cable head rotary connection clamp 300, which is made of an insulator and will be described in detail later, is safely raised to the top through the insulation rope 200 It is first mounted on the power line (W) so that it can be lowered or lowered.

That is, in the temporary hanger 100 of the present invention, an insulation rope 200 is installed on the ratchet part 110, and the ratchet part 110 is a cable which will be described later in detail at one end of the insulation rope 200. The head rotation type connection clamp 300 is connected and the other side of the insulation rope 200 is pulled in the other direction by the operator, so that one side of the insulation rope 200 is raised and the cable head rotation type connection clamp 300 ) Is raised upward as much as the insulation rope 200 is pulled, and when the ratchet operation key 111 of the ratchet part 100 is released from the ratchet wheel (not shown) by the operator, the stopping force generated in one direction is released. Thus, one side of the insulation rope 200 is lowered in one direction by the load of the cable head rotary connection clamp 300 so that the cable head rotary connection clamp 300 is lowered.

At this time, the insulation rope 200 is installed on the ratchet portion 110 as described, and may be made of a rigid and flexible material such as a steel insulation rope or a rope, and the ratchet portion 110 is the insulation rope 200 ) Is hung and installed, preferably composed of a rope ratchet so that the hung part is fitted and installed.

That is, the insulation rope 200 is installed across the ratchet part 110, so that it extends to one side and the other side with respect to the ratchet part 110, so that the cable head rotary connection clamp ( 300) is connected, and the other side is pulled to the other side by the operator directly or using an insulating stick, etc., and a stopping force is generated in one direction, so the cable head rotary connection clamp 300 connected to one side is raised and then raised. You can keep your position.

At this time, the direction of one side and the other side of the insulation rope 200 may correspond to the rear and front of the temporary hook 100 and the cable head rotary connection clamp 300 to be described in detail later, and this direction is the temporary hook Since it is determined by the direction in which the ratchet portion 110 is installed in 100, it will be apparent that it can be interpreted without departing from the gist of the present invention.

In connection with the above, the temporary hanger 100 of the present invention is mounted on the power line W by allowing the operator to lift it upward using an insulating stick or the like so that the power line W is accommodated in the hanger groove 102. , When mounted on the power line (W), it can be easily separated by a lighter load than the conventional one, but by allowing the power line (W) to be inserted into the hanging groove (102), it is possible to maintain a stable installation state. have.

That is, the hook groove 102 is formed in the fixing hook 101 to be described in detail later, and is characterized in that the width becomes narrower toward the top, and accordingly, the power line W is firmly fitted. The temporary hanger 100 of the present invention can be stably and firmly mounted on the power line (W).

In addition, as the hook groove 102 is formed so that the width becomes narrower toward the top, the power line W having a different diameter can be stably accommodated inside, in other words, even if the diameter of the power line W varies It means that the use of the temporary hanger 100 of the present invention is easy without any separate measures or manipulations.

In addition, the temporary hanger 100 of the present invention is configured to include a fixing lever 120 that is hinged at the rear and the front is elastically supported in the upper direction, and the fixing lever 120 has a front of the hook groove. By opening and closing the lower part of 102, the power line (W) accommodated in the hook groove 102, that is, the temporary hook 100 of the present invention is mounted on the power line (W), and then the hook groove 102 ) To realize the effect of preventing the temporary hanger 100 of the present invention from being separated from the power line (W).

In addition, the fixing lever 120 includes a gripping hole 122 formed through the rear, and the operator can easily grip and then lift the temporary hanger 100 of the present invention through the gripping hole 122. You can get a good effect.

In addition, the fixing lever 120 when lifting the temporary hanger 100 of the present invention through the gripping hole 122, that is, when lifting, the center of the hinge axis coupled to the temporary hanger 100 of the present invention The rear is rotated to the top and the front is rotated to the bottom so that the hook groove 102 is opened, thereby realizing the effect of allowing the operator to easily mount the temporary hanger 100 of the present invention on the power line (W). Make it.

Looking specifically at the configuration of the temporary hanger 100 of the present invention as described above, the front lower part is made of an open ring shape, the hook groove 102 is formed on the inner upper part, and a pair of fixings that are spaced apart and coupled in the lateral direction A fixing lever that is hinged between the hook 101 and the pair of fixing hooks 101, the center is hinged at the rear of the fixing hook 101, and the holding hole 122 is formed through the rear ( 120), and a first torsion spring (not shown) that is installed on a hinge shaft to which the fixing hook 101 and the fixing lever 120 are coupled so that the front of the fixing lever 120 is elastically supported upward, and the one It is configured to include a ratchet portion 110 installed under the pair of fixing hooks 101.

That is, the fixing hook 101 is made up of a pair so that it can be more stably mounted on the power line W, and the fixing lever 120 is installed between the pair of fixing hooks 101 to provide a power line (W ) Is fixed after being accommodated in the hook groove 102 so that the temporary hook 100 of the present invention is stably and firmly mounted on the power line (W).

As a result, the temporary hanger 100 of the present invention can be easily grasped and pulled up using the fixing lever 120, and after being mounted on the power line W, the power line W is naturally applied by the fixing lever 120. By being fixed to the power line (W), not only realizes the effect of being easily installed on the power line (W), and when the installation is removed from the power line (W), the fixing lever 120 is gripped and lifted, that is, in the upper direction. By simply pulling it up, it is automatically separated from the power line W, thereby realizing the effect that the installation can be easily removed from the power line W.

The main component for achieving the present invention, the cable head rotary connection clamp 300

An upper portion is connected to one end of the insulating rope 200 installed in the ratchet unit 110 provided in the temporary hanger 100 described above, and a bypass cable 330 is installed at the lower portion, and the temporary hanger 100 ) Is installed on the power line W and then raised as the other side of the insulating rope 200 is pulled or lowered when the stopping force in one direction of the ratchet unit 110 is released. At this time, the ratchet part 110 is configured to include a release lever (not shown) connected to a pole that restricts rotation of the ratchet wheel.

Specifically, the cable head rotary connection clamp 300 of the present invention is coupled to one end of the insulating rope 200 on the top, and the bypass cable clamp unit 310 mounted on the affected portion of the power line (W) and , A bypass cable connection part 320 rotatably connected to a lower part of the bypass cable clamp part 310 and a bypass cable 330 connected to a lower part of the bypass cable connection part 320. .

The bypass cable clamp unit 310 may have the same or similar configuration as the temporary hanger 100 of the present invention, but the thickness of the power line W is mounted on the affected portion of the power line W. And it is made of a conductor material so that the size and shape can be modified according to the shape, and unlike the temporary hanger 100 of the present invention, it can be energized with the power line (W).

The bypass cable clamp unit 310 may be configured in a different configuration from the temporary hanger 100 of the present invention, which is to maintain a stably installed state after the bypass cable 330 is installed, and specifically accommodated A clamp body having a groove (not shown), and a rotating member (not shown) connected to the lower portion of the clamp body so as to be rotatable in a direction orthogonal to the power line W.

In addition, the bypass cable clamp unit 310 may be configured to include an operation unit (not shown) that allows the operator to lift it for easy installation on the power line W after gripping it using an insulating stick, etc. , The operation unit is rotated by the operator using an insulating stick, etc., and accordingly, by rotating the rotating member to open and close the receiving groove of the clamp body by the rotating member, the cable head rotary connection clamp 300 of the present invention. ) Is stably installed on the power line (W) so that it can be maintained in a fixed state or the installation can be removed.

In connection with the above, the bypass cable connection unit 320 bypasses the bypass cable clamp unit 310 and the bypass cable clamp unit 310 in a state in which the bypass cable clamp unit 310 is mounted on the attached portion of the power line W. As the cables 330 are energized to each other, the bypass cable 330 may be configured to be freely rotatable in order to improve workability.

In more detail, the bypass cable clamp portion 310 is coupled to the lower portion, and comprises a lower coupling portion 312 through which a conductive hole (not shown) is formed, and the bypass cable connection portion 320 Is rotatably coupled to the bypass cable clamp unit 310 at the upper portion, the lower portion is rotatable outside of the rotating member 322 and the rotating member 322 coupled to the upper portion of the bypass cable 330 And a housing 324 that is coupled so as to protect the rotating member 322, and at this time, electricity of the power line W is the lower coupling portion through the bypass cable clamp portion 310 It is energized to the bypass cable 330 through 312 and the rotating member 322.

In addition, the bypass cable 330 is coupled to the lower portion of the rotating member 322 of the bypass cable connecting portion 320 and rotated from the lower portion of the bypass cable clamp portion 310, that is, the lower coupling portion 312 In other words, the bypass cable clamp unit 410 is rotated above the bypass cable connection unit 320 to achieve an effect of improving workability.

At this time, the rotating member 322 is a connecting member having a "T" shape in a cross section through which the rotation member 322 penetrates and is coupled to the conduction hole so as to be rotatable to the lower part of the bypass cable clamp part 310, that is, the lower coupling part 312 ( 322a) and a rotating body 322b coupled to the lower portion of the connecting member 322a, and coupled to the upper portion of the bypass cable 330 at the lower portion, wherein the connecting member 322a is formed on the upper side. The lower surface of the protruding portion (not shown) protruding in the direction is in close contact with the lower portion of the bypass cable clamp portion 310, that is, the upper surface (not shown) of the lower coupling portion 312, so that the bypass cable clamp portion 410 Is smoothly rotated to realize the effect of being energized to the bypass cable 330 through the rotating body (322b).

In addition, the rotating member 322 is coupled to the lower outer side of the connection member 322a to elastically support the bypass cable clamp portion 310, that is, the lower coupling portion 312 in the upper direction, a wave washer member 322c. ), wherein the wave washer member (322c) is located at the lower portion of the lower support plate (322c-1) supported on the upper surface of the rotating body (322b), and the lower support plate (322c-1) A wave washer (322c-2) and an upper support plate (322c-3) positioned above the wave washer (322c-2) to support the lower surface of the bypass cable clamp unit 310, Accordingly, the lower portion of the bypass cable clamp portion 310, that is, the lower coupling portion 312 is elastically supported upward by the wave washer 322c-2, so that the lower surface of the protruding portion of the connecting member 322a Since the bypass cable clamp unit 310, that is, the upper surface of the lower coupling unit 312 is in close contact more stably and firmly, it is possible to obtain an effect of achieving more smooth current.

At this time, the bypass cable 330 has one end inserted and connected through an end of the bypass cable connection part 320, and the other end is inserted and connected through an end of the other bypass cable connection part 320. It is configured to connect the two cable head rotary connection clamps 300 to conduct electricity.

On the other hand, the cable head rotary connection clamp 300 of the present invention is hinged to the upper portion, coupled to be elastically supported to the rear, and a rotary link 314 to which the upper portion is connected to one end of the insulating rope 200 It characterized in that it is configured to include.

That is, the above-described bypass cable clamp unit 310 is not directly connected to one end of the insulating rope 200, but is connected to the insulating rope 200 by the rotating link 314, and the rotating link ( 314 is elastically supported to the rear and moves one end of the insulation rope 200 to the rear to install the cable head rotary connection clamp 300 of the present invention on the power line W, the insulation rope 200 It is moved to and realizes the effect of preventing interference from occurring in the work.

In addition, when the cable head rotary connection clamp 300 of the present invention is installed on the power line W, in the conventional case, as shown in FIG. 13, the receiving groove of the bypass cable clamp portion is formed in the front. Therefore, the worker raises the power line (W) as high as the height of the power line (W) to the front, and then grasps it by the power line (W). Is bent forward and it is difficult to mount the power line W using the receiving groove.

However, when the cable head rotation type connection clamp 300 of the present invention is mounted on the power line W, as shown in FIG. 14, the rotation link 314 connected to one end of the insulation rope 200 is rearward. Since it is elastically supported, it is rotated to the rear, and accordingly, one end of the insulation rope 200 is also moved to the rear of the cable head rotary connection clamp 300 of the present invention, so that the operator can rotate the cable head of the present invention using an insulation stick, etc. At the same time as the typical connection clamp 300 is raised, one end of the insulating rope 200 is bent to the rear of the cable head rotary connection clamp 300 of the present invention. By allowing the power line (W) to be accommodated in the receiving groove of the pass cable clamp unit 310, the effect that can be easily mounted is realized.

Next, a method of installing an indirect live wire using a bypass cable pulling device for an indirect live wire having a temporary hook having an automatic detachable fixing hook and a cable head rotating connection clamp as described above will be described as follows.

The bypass cable indirect live wire installation method according to the present invention may consist of 10 steps, which is a work preparation process (S10), a pulling device installation process (S20), a bypass cable preparation process (S30), and a bypass cable installation process. (S40), jumper wire separation process (S50), power distribution facility process (S60), jumper wire connection process (S70), bypass cable separation process (S80), pulling device separation process (S90) and finishing process (S100). It consists of including.

The indirect live line installation method of the bypass cable of the present invention is to perform an indirect live line uninterrupted distribution work for replacement and relocation of electric poles or new and replacement or relocation of electric poles in a live electric pole, or a construction switch for a live electric pole. After installing and separating the section, electric poles are relocated and replaced by oblique line work, and electric poles are relocated and replaced by oblique line work by separating the section by installing a switch for construction or by installing a switch for construction in an indirect live line for wire replacement and other indirect live lines. , Perform uninterrupted distribution work with indirect live wires for wire replacement, or perform uninterrupted power distribution work with indirect live wires for new, replacement, or relocation of transformers from a live pole to uninterrupted power using an uninterruptible transformer device, or an uninterruptible bypass cable. It can be configured to perform uninterrupted distribution work with indirect live lines for electric pole relocation, replacement, and change of transition of extra-high voltage distribution lines, but in the present invention, replacement and relocation of electric poles from live electric poles or new construction and replacement of switchgear Or, the relocation will be described by taking only performing an indirect live line uninterrupted distribution work as an example.

The work preparation process (S10) is a process of preparing each phase by connecting the bypass cable pulling device and the cable head rotational connection clamp 300 to the bypass cable on the power side and the load side of the power line W in a live state. .

At this time, the insulation rope 200 of the bypass cable pulling device may be provided in a state in which the cable head rotation type connection clamp 300 is not coupled, and the insulation rope 200 is initially connected to the cable head rotation type. In order to easily connect the clamp 300, it is preferable that one end is prepared in a lowered state.

In the step of installing the pulling device (S20), the temporary hanger 100 of the pulling device for the bypass cable is installed on the power line W of the power side and the load side for each phase.

This is to allow the power line (W) of the power side and the load side to be accommodated in the hook groove 102 of the temporary hook 100 so that the temporary hook 100 is hooked and installed, and the temporary hook 100 Since the temporary hanger 100 and the power line W are firmly coupled just by mounting it on the power line W, the construction can be achieved more easily than the conventional one.

In the process of installing the bypass cable pulling device on the power line (W) of the power side and the load side, conventionally, a separate temporary hook is installed on the power line using an insulating stick for live wire, and then the clamping unit of the temporary hook is installed on the power line. The bypass connection work is performed after the construction bypass cable is connected to the temporary hanger, but in the present invention, as described above, the temporary hanger 100 is simply mounted on the power line (W), as described above. Since the effect of being coupled to the power line (W) can be obtained, after connecting the insulating stick for live wire to the fixed lever 120, the temporary hanger 100 is raised to a safe separation distance to wait, and the temporary hanger 100 By lifting the cable head rotary connection clamp 300 to which the bypass cable 330 is connected and combining it with the power line (W), thereby more stably moving the temporary hanger 100 together to connect the bypass cable It can achieve the effect of improving the efficiency of.

In the bypass cable preparation process (S30), one end of the insulation rope 200 of each installed bypass cable pulling device is lowered or the cable head rotary connection clamp 300 to which the bypass cable 330 is connected in a lowered state. ) To one end of the insulating rope 200 and then pulling up the insulating rope 200 of the bypass cable pulling device again.

That is, in the bypass cable preparation process (S30), one end of the insulation rope 200 is raised by using the insulation stick for live wire or by pulling the other side of the insulation rope 200 with the operator's hand. This is a process of lifting and moving the head rotation type connection clamp 300 to a position where it is easy to install on the power line W.

The next process is the bypass cable clamp unit 310 of the cable head rotary connection clamp 300 to which the bypass cable 330 is connected by using the raised cable head rotary connection clamp 300 as an indirect live wire stick. The power line (W) on the power side and the power line (W) on the load side are electrically connected by hanging the power line (W) on the power side and the power line (W) on the load side, and sequentially connecting and energizing each phase. This is a bypass cable installation process (S40) that passes through and establishes an energized state.

The jumper wire separation step (S50) is to prepare the distribution work by sequentially separating the jumper wires on both sides of the work section by phase after connecting the attached power line (W) and the cable head rotary connection clamp 300 by-pass. It's fair.

The power distribution facility process (S60) is a process of performing distribution work in a working section in a diagonal state after the jumper wire separation process (S50).

At this time, it is possible to perform replacement and relocation of electric poles or new and replacement or relocation of switchgear in a state in which the jumper wires are separated from each other.

The jumper wire connection process (S70) is a process of sequentially connecting jumper wires on both sides of the work section for each phase after the power distribution facility process (S60) to supply power within the work section.

The bypass cable separation process (S80) separates the cable head rotary connection clamp 300 to which the bypass cable 330 installed for each phase is connected to the power line W on the power side and the load side, and the bypass This is a process of separating the cable head rotary connection clamp 300 to which the cable 330 is connected from the insulation rope 200.

This is because the operator rotates the operating part of the cable head rotary connection clamp 300 using an insulating stick for live wire to rotate the rotating member to open the bypass clamp unit 310, and the cable head rotary connection clamp 300 After separating the cable head rotational connection clamp 300 from the power line W, the worker can use the insulation stick for the live wire to remove the temporary hanger 100 from the power line W. By operating the release lever provided in the ratchet part 110, one end of the insulating rope 200 is lowered, and the cable head rotary connection clamp 300 is naturally lowered by a load and recovered.

The pulling device separation step (S90) is a step of separating the temporary hanger 100 of the bypass cable pulling device installed for each phase on the power line W of the power side and the load side.

The finishing process (S100) is a process of separating the cable head rotary connection clamp 300 and the bypass cable 330 to which the bypass cable is connected, and arranging the site.

In the step of separating the pulling device (S90) and the finishing step (S100), a bypass cable having a weight that is difficult for a worker to handle was lifted and tightened using the insulating stick for live wire, but the temporary hook 100 The temporary hanger 100 is easily separated from the power line (W) on the power side and the load side by lifting only, and when the temporary hanger 100 is separated from the power line (W), the indirect live cable of the present invention By removing the bypass cable pulling device provided with the head rotational connection clamp, the operator is safe and the limitations of labor intensity and physical strength are reduced.

On the other hand, the removal of the temporary hanger clamp automatic detachable bypass cable pulling device having the indirect live cable head rotary connection clamp of the present invention is preferably performed sequentially for each phase on the power side and the load side. Through the process, indirect live wire uninterruptible power distribution work is completed using a temporary hanging clamp automatic detachable bypass cable pulling device equipped with an indirect live wire cable head rotary connection clamp during uninterruptible power distribution work.

The above has been described with reference to a preferred embodiment of the present invention, and is not limited to the above embodiment, and through the above embodiment, a person of ordinary skill in the art to which the present invention belongs does not depart from the gist of the present invention. It can be implemented with various changes in.

100: temporary hanging clamp 101: fixed hook
102: locking groove
110: ratchet part 111: ratchet operation key
120: fixed lever
122: gripping hole 200: insulation rope
300: Cable head rotary connection clamp
310: bypass cable clamp part
314: rotary link 320: bypass cable connection
322: rotating member 322a: connecting member
322b: rotating body 322c: web washer member
324: housing 330: bypass cable

Claims (9)

A hook groove 102 is formed on the inner upper part of the front lower part of the open ring shape, and a pair of fixing hooks 101 that are spaced apart and coupled in the lateral direction
The fixed lever 120 is hinged between the pair of fixing hooks 101, and the center is hinged at the rear of the fixing hook 101, and the holding hole 122 is formed through the rear.
A first torsion spring installed on a hinge shaft to which the fixing hook 101 and the fixing lever 120 are coupled so that the fixing lever 120 is elastically supported in the upper direction, and
A ratchet part that is installed under the pair of fixing hooks 101 and generates a stopping force in one direction at the bottom, but when the ratchet operation key 111 is released from the ratchet wheel, the stopping force generated in one direction is released. Temporary hanger 100 provided with 110; And
An insulating rope 200 installed in the ratchet part 110; And
Consists of including; a cable head rotational connection clamp 300 having an upper portion connected to one end of the insulation rope 200,
The ratchet part 110 is installed with the insulation rope 200 hung, but the indirection having a temporary hook having an automatic detachable fixing hook and a cable head rotating connection clamp, characterized in that the hung part is fitted and installed. Bypass cable pulling device for live lines.
delete delete The method of claim 1,
The hook groove 102 is
Bypass cable pulling device for indirect live wires having a temporary hook having an automatic detachable fixing hook and a rotating connection clamp of a cable head, characterized in that the width becomes narrower toward the top.
The method of claim 1,
The cable head rotary connection clamp 300 is
An automatic detachable fixing hook, characterized in that it comprises a hinge-coupled upper portion, a rotating link 314, which is coupled to be elastically supported to the rear, and has an upper portion connected to one end of the insulating rope 200. Bypass cable pulling device for indirect live wire with temporary hook and cable head rotating connection clamp.
The method of claim 5,
The cable head rotary connection clamp 300 is
Bypass cable clamp unit 310 to which the rotation link 314 is coupled to the upper portion; And
A bypass cable connection part 320 rotatably connected to a lower portion of the bypass cable clamp part 310; And
Bypass cable 330 connected to the lower part of the bypass cable connection part 320; for indirect live wire having a temporary hanger having an automatic detachable fixing hook and a cable head rotating connection clamp, characterized in that it comprises Bypass cable pulling device.
The method of claim 6,
The bypass cable connection part 320 is
A rotating member 322 rotatably coupled to the bypass cable clamp unit 310 at an upper portion, and coupled to an upper portion of the bypass cable 330 at a lower portion; and
Temporary hook and cable head assembly having an automatic detachable fixing hook, characterized in that comprising; a housing 324 which is rotatably coupled to the outside of the rotating member 322 to protect the rotating member 322 Bypass cable pulling device for indirect live wire with typical connection clamp.
The method of claim 7,
The rotating member 322 is
A connecting member (322a) having a "T" shape having a cross section that is rotatably penetrated and coupled to a lower portion of the bypass cable clamp unit 310; And
A rotating body (322b) coupled to a lower portion of the connection member (322a) and coupled to an upper portion of the bypass cable (330) at the lower portion; And
A wave washer member (322c) coupled to the lower outer side of the connection member (322a) to elastically support the bypass cable clamp unit (310) upwardly; Bypass cable pulling device for indirect live wire with one temporary hook and cable head rotating connection clamp.
Bypass cable indirect live wire installation method using a bypass cable pulling device for indirect live wires with a temporary hook provided with an automatic detachable fixing hook according to any one of claims 1, 4 to 8, and a cable head rotating connection clamp In,
A work preparation step (S10) of preparing a phase by phase by standing on a pole by a bypass cable to which the bypass cable pulling device and the cable head rotary connection clamp 300 are connected to the power and load sides of the live power line W; and
A pulling device installation step (S20) of installing the temporary hook 100 of the bypass cable pulling device on a power line (W) of the power side and the load side for each phase; And
By lowering one side of the insulation rope 200 of each of the installed bypass cable pulling devices, hook the cable head rotary connection clamp 300 to which the bypass cable is connected to one end of the insulation rope 200, and then again the bypass cable pulling device. Bypass cable preparation process (S30) to raise one side of the insulation rope 200; And
The raised cable head rotation type connection clamp 300 is installed in each phase on the power line (W) on the power side and the load side by using an indirect live line stick, so that the power line (W) and the cable head rotation type connection clamp (300) are attached. Bypass cable installation process (S40) of sequentially connecting and energizing each phase to connect the power line (W) and the bypass cable 330; And
Jumper wire separation process (S50) of sequentially separating jumper wires on both sides of the work section by phase after bypass connection of the cable head rotary connection clamp 300 to which the power line W and the bypass cable 330 are connected (S50) ;and
After separating the jumper wire, a distribution facility work process (S60) of performing a diagonal work in the working section in a diagonal state; and
After the distribution work, a jumper wire connection process (S70) of sequentially connecting jumper wires on both sides of the work section for each phase; And
Separate the cable head rotation type connection clamp 300 installed for each phase on the power supply side and the load side of the power line W, and the cable head rotation type connection clamp 300 to which the bypass cable is connected to the insulation rope 200 Bypass cable separation process (S80) to be separated from; And
A temporary hanger separation process (S90) of separating the temporary hanger 100 of the bypass cable pulling device installed for each phase on the power line W of the power side and the load side; And
Bypass cable indirect live wire installation method comprising a; finishing process (S100) of removing the bypass cable to which the cable head head rotational connection clamp 300 is connected and arranging the site.

Images