KR102147981B1 - Automatic switchgear equipment - Google Patents

Abstract

The present invention relates to an opening/closing facility for automatically detecting a failure section of a distribution line which comprises: a hollow insulating tube; a distribution line disposed inside the insulating tube; a failure detection unit for measuring a current value in a plurality of sections of the distribution line, and determining a failure section when the measured current value is equal to or more, or equal to or less than a present reference current value; a reinforcing member made of an insulating material and reinforcing the distribution line to form a constant path when buried in the distribution line; a main moving path unit disposed to be spaced apart from an outer periphery of the distribution line, disposed along the distribution line, and having a plurality of positions thereof connected and fixed to a plurality of positions of the reinforcing member; a plurality of recovery lines disposed in the sections of the distribution line and having both ends inserted and fixed to a sheath of the distribution line; a recovery device disposed to be moved along the main moving path unit, moved to a fixed section, and connecting both ends of the recovery line positioned at the fixed section among the recovery lines to a wire formed inside the distribution line; and a control unit for receiving the determined fixed section from the failure detection unit, and controlling driving of the recovery device.

Description

Automatic switchgear equipment for automatic detection of failure sections of distribution lines

The present invention relates to a facility for automatically detecting and opening and closing a failure section of a distribution line, and more particularly, by maintaining a distribution line arranged inside a protection pipe in parallel so that the device for recovery is smoothly moved, where an abnormality occurs. It relates to a distribution line fault section automatic detection opening and closing facility capable of stably and accurately moving the furnace recovery device so that the recovery work can be performed.

In general, a distribution line that supplies electric power from a substation to a customer is composed of complex trunk lines and branch lines because electric power must be supplied to a number of customers, respectively.

Therefore, if a fault current or voltage occurs due to a ground fault (if the wire is cut off and attached to the ground) or a short circuit (if the wires of different phases stick together) on the distribution line, the location of the fault point where the fault occurred. It takes a lot of effort to find it.

Conventionally, when a fault current or voltage occurs in a distribution line, the operator and the substation manager in the field mainly use communication means to provide information on the fault point while operating the substation blocking device to find the fault point where the fault current and voltage occurred. It was a common method to find the point of failure by exchanging them.

However, in the case of the above-described method, a lot of time and manpower are consumed, and as the recovery time increases, the power failure time is lengthened, causing a problem of causing great inconvenience to power consumers.

Accordingly, there has been a demand for a method capable of improving the reliability of power supply and the quality of service to customers by shortening the power outage time by quickly identifying and restoring the location of the fault point in the event of an accident on a distribution line.

In a conventional distribution automation system, a reference current value is set, and when an overcurrent exceeding the reference current value is detected, a failure is detected by detecting a failure. When the reference current value itself for detecting a failure is incorrectly set. It is difficult to accurately detect faults due to frequent occurrence of the fault. In particular, if a fault occurs below the reference current value when the reference current value is incorrectly set higher than the normal value, fault detection itself becomes impossible.

As a prior art to partially improve this problem, a'failure section detection device for each underground distribution line connection point' according to Korean Patent Registration No. 10-0690092 (2007.02.26) has been disclosed.

In addition, in the related art, in Korean US Patent Registration No. 10-2007681, a device capable of moving along a distribution line is provided, and it is moved to a location where an electric current abnormality occurs, and a part of the line is disconnected at this location, which is then used as an auxiliary line. It was solved by connecting using.

Conventionally, the device for maintenance was implemented in a manner of moving along the inner wall of the protective tube protecting the track or moving along the track. However, if the inner wall of the protective tube is damaged by an external shock or the line is not parallel and bent, the device for repair above does not move normally due to the reason that the movement path is not parallel, and eventually it is normal to an abnormal position. There is a problem in that it is difficult to move so that restoration cannot be performed normally.

In addition, conventionally, there is a method of electrically connecting and recovering a section in which an abnormality has occurred by each providing a recovery device in a certain section of the line, but this becomes complicated as the recovery device is provided for each section, and any one of the devices is In case of failure, there is a problem that recovery in the corresponding section becomes practically difficult.

Therefore, in order to solve the above problems, the present invention maintains the distribution lines disposed inside the protective tube in parallel so that the device for recovery is smoothly moved, so that the recovery device is stably moved to the location where the abnormality occurred. It is an object of the present invention to provide an automatic detection/opening facility for a failure section of a distribution line that can be accurately moved so that recovery work can be performed.

In addition, the present invention sets a plurality of sections on the distribution line, and an abnormality occurs in one of the plurality of sections, and the section in which this abnormality occurs is immediately blocked using a circuit breaker, and Another option is to provide an automatic detection and opening and closing facility for a distribution line failure section that can perform recovery by forcibly connecting a pair of connection ends formed at both ends of the recovery line irregularly provided in the disassembly section by moving the recovery device. The purpose.

In order to achieve the above object, the present invention is a hollow insulating tube; A distribution line disposed inside the insulating tube; A failure detection unit that measures current values in a plurality of sections of the distribution line, and determines as a failure section when the measured current value exceeds or falls below a preset reference current value; A reinforcing member formed of an insulating material, buried in the distribution line, and reinforcing the distribution line to form a constant path; A main movement path portion disposed to be spaced apart from the outer periphery of the distribution line, disposed along the distribution line, and fixed by connecting a plurality of locations to a plurality of locations of the reinforcing member; A plurality of recovery lines disposed in the plurality of sections of the distribution line, and both ends of which are inserted into and fixed to the outer shell of the distribution line; Arranged so as to be movable along the main movement path, moved to the fixed section, and among the plurality of recovery lines, both ends of the recovery line located in the fixed section are connected to the wiring formed inside the distribution line. Recovery device; And a controller configured to receive the fixed section determined by the failure detection unit and control driving of the recovery device.

The main movement path part,

A rail member disposed along the distribution line and having a rail formed on one surface thereof,

It is formed to protrude to a plurality of positions on the other surface of the rail member, and includes a plurality of fixing members whose ends are inserted into the distribution line and coupled to the plurality of positions of the reinforcing member,

The recovery device,

It is coupled to move along the rail member.

And each of the plurality of recovery lines,

A recovery line member having a set length,

One end is rotatably fastened to both ends of the recovery line member, and the other end includes a pair of connection ends disposed in the vicinity of the wiring through the shell of the distribution line,

One end of the pair of connecting ends is fastened to rotate with rotation holes formed at both ends of the recovery line member,

The other end of the pair of connection ends is fixed to the distribution line in a screw manner,

The recovery device rotates the pair of connecting ends by coupling the motor shafts of the pair of rotating motors to one end of the pair of connecting ends.

In addition, the recovery device,

A device body having a rail groove connected to the rail member at the bottom in a rail manner,

The pair of rotation motors disposed at both ends of the device body,

It is provided at both ends of the device body, provided with a pair of lifting cylinders for lifting the pair of rotary motors under the control of the control unit,

The control unit uses a linear motor to move the device body along the rail member,

The control unit,

Moving the device body in the fixed section, rotating the motor shaft using the pair of rotary motors, lowering the pair of rotary motors using the pair of lifting cylinders, Coupling an end to the upper end of the pair of connecting ends, rotating the pair of connecting ends,

The connecting ends of the pair to be rotated are connected to the wiring through the outer shell of the distribution line.

In particular, an auxiliary movement path portion is disposed on the insulating tube,

The auxiliary movement path unit,

A multi-stage pipe disposed at a uniform interval on the inner circumference of the insulating pipe,

It has an auxiliary rail connected to the end of the multi-stage pipe,

The auxiliary rail,

It is connected in a rail manner to the auxiliary rail groove formed on the upper end of the device body,

A spring is disposed inside the multistage pipe to enable elastic flow along the length direction.

In addition, in the plurality of sections,

A plurality of current providers connected to the wiring of the distribution line are disposed,

The control unit,

When the fault section is detected, the current value measured in the fault section calculates a corrected current value capable of reaching the reference current value,

Until the repair line is connected to the fault section by the recovery device, the correction current value is supplied to the wiring corresponding to the fault section by using a current provider connected to the fault section among the plurality of current providers. do.

In addition, in a plurality of positions of the insulating tube,

The injection holes exposed in the space corresponding to the plurality of sections are perforated,

The injection holes are connected to the soho material feeder through a tube,

The control unit,

When the current value measured after the both ends of the recovery line are connected to the wiring corresponding to the fixed section rises above the reference current value, a certain amount of extinguishing material is supplied to the failure section using the extinguishing material supply. Supply.

Rolling members are disposed on the inner periphery of the lower end of the insulating tube. The rolling members may be rollable on the inner circumference of the insulating pipe and may support rolling on the outer circumference of the distribution line. The lower ends of the rolling members are arranged to rotate in a groove formed in the lower inner circumference of the insulating tube.

As described above, the present invention provides a "distribution line failure section automatic detection opening/closing facility" to keep the distribution lines disposed inside the protection pipe in parallel so that the movement of the device for recovery is smoothly performed. It may have a useful effect of allowing the recovery device to be stably and accurately moved to the position so that the recovery operation can be performed.

In addition, the present invention sets a plurality of sections on the distribution line, and when an abnormality occurs in any one of the plurality of sections, the section in which the abnormality occurs is immediately blocked using a circuit breaker, and a recovery device in the blocked section By moving a pair of connection ends formed at both ends of the recovery line provided in advance in the corresponding section, it is possible to perform recovery by forcibly connecting the pair of connection ends formed at both ends of the abnormal section.

In addition, the present invention arranges the auxiliary movement path of the recovery device on the inner periphery of the protective tube, but always forms a constant auxiliary movement path even if a part of the protective tube is deformed or damaged, so that the recovery device unstablely moves or transforms the movement path itself at the deformed position. This may be useful in solving the problem that movement becomes impossible.

1 is a view showing the configuration of the automatic detection opening and closing facility of a distribution line failure section of the present invention.
2 is a view showing a plurality of lines according to the present invention.
Figure 3 is a view showing a recovery device according to the present invention.
4 is a view showing a connection relationship between the distribution line and the device body of the present invention.
5 to 9 are views showing the operation of the recovery device according to the present invention.
10 is a view showing that the auxiliary movement path portion is arranged in the insulating tube according to the present invention.
11 is a diagram illustrating an example in which current providers are connected to wiring at locations corresponding to sections.

The name of the present invention is "insulation insulator structure of a processed distribution line", so that specific details are described so that those skilled in the art can easily understand, separate descriptions that can be sufficiently inferred are omitted, and examples and drawings are described if necessary. In addition, terms defined in the present specification and claims are not limitedly interpreted, and may vary according to an operator's intention or custom, and should be interpreted as meanings and concepts consistent with the technical idea of the present invention.

With reference to the drawings according to the present invention will be described the implementation of the automatic detection opening and closing facility of the distribution line failure section of the present invention.

1 is a view showing the configuration of the automatic detection opening and closing facility of a distribution line failure section of the present invention.

Referring to FIG. 1, the present invention provides a hollow insulation tube 100, a distribution line 200 disposed inside the insulation tube 100, and current values in multiple sections of the distribution line 200. When the measured current value is greater than or equal to a preset reference current value, the fault detection unit 300 is formed of an insulating material and is formed of an insulating material, and is buried in the distribution line 200. , A reinforcing member 400 that reinforces the distribution line 200 to form a certain path, and is disposed to be spaced apart from the outer circumference of the distribution line 200, is disposed along the distribution line 200, and has a plurality of positions. A main movement path part 500 connected to and fixed to a plurality of positions of the reinforcing member 400 and disposed in the plurality of sections of the distribution line 200, and both ends are inserted into the outer shell of the distribution line 200 It is arranged to be movable along the plurality of fixed recovery lines 600 and the main movement path part 500, is moved to the failure section, and is located in the fixed section among the plurality of recovery lines 600 A recovery device 700 for connecting both ends of the recovery line 600 to a wiring formed inside the distribution line 200, and the fixed section determined from the failure detection unit 300 are transmitted, and the recovery device It includes a control unit 800 that controls the driving of the 700.

Rolling members 101 are disposed on the inner periphery of the lower end of the insulating tube 100. The rolling members 101 may be rollable on the inner circumference of the insulating pipe 100 and may support rolling on the outer circumference of the distribution line 200. The lower ends of the rolling members 101 are disposed to rotate in a groove formed in the lower inner circumference of the insulating tube 100.

The main movement path part 500 is disposed along the distribution line 200 and is formed to protrude from a plurality of positions on the other side of the rail member 510 and the rail member 510 having a rail 511 formed on one surface thereof. And a plurality of fixing members 520 whose ends are inserted into the distribution line 200 and are coupled to a plurality of positions of the reinforcing member 400.

FIG. 2 is a view showing a plurality of lines according to the present invention, FIG. 3 is a view showing a recovery device according to the present invention, and FIG. 4 is a view showing a connection relationship between a distribution line and a device body according to the present invention.

5 to 9 are views showing the operation of the recovery device according to the present invention. 7 is a plan view showing a state in which the lower end of the motor shaft is fastened to the upper end of the connection end.

1 to 4 and 5 to 9, the recovery device is coupled to move along the rail member.

And each of the plurality of recovery lines 600, a recovery line member 610 having a set length,

A pair of connection ends (one end is rotatably fastened to both ends of the recovery line member 610), and the other end penetrates through the sheath 210 of the distribution line 200 and is disposed near the wiring 220 ( 620).

One end of the pair of connection ends 620 is fastened to a rotational function 611 formed at both ends of the recovery line member 610.

The other end of the pair of connection ends 620 is fixed to the distribution line 200 in a screw manner.

In addition, elastic springs 630 are installed at the lower ends of both sides of the recovery line member 610. The elastic springs 630 elastically support the lower end of the recovery line member 610 and the outer surface of the wiring line.

The recovery device 700 rotates the pair of connection ends 620 by coupling the motor shaft 721 of the pair of rotary motors 720 to one end of the pair of connection ends 620.

Here, the lower end of the motor shaft 721 may be screw-coupled with the upper end of the connection end 620. Preferably, a screw hole 621a is formed in the upper end 621 of the connection end 620, and a screw thread is formed around the lower end of the motor shaft 721.

In addition, the recovery device 700 includes a device body 710 having a rail groove 711 connected to the rail member 520 in a rail manner at the lower end, and the pair of the device body 710 disposed at both ends of the device body 710 And a pair of lifting cylinders 730 installed at both ends of the device body 710 and for lifting the pair of rotary motors 720 under the control of the controller 800 Equipped.

The controller 800 uses a linear motor 810 to move the device body 710 along the rail member 520.

The control unit 800 moves the device body 710 in the fixed section, rotates the motor shaft 721 using the pair of rotation motors 720, and the pair of lifting cylinders ( The lifting shaft 731 of the 730 is lowered to lower the pair of rotary motors 720, and the end of the rotating motor shaft 721 is coupled to the upper end of the pair of connection ends 620, The pair of connection ends 620 are rotated, and the pair of connection ends 620 rotated are connected to the wiring 220 by passing through the shell 210 of the distribution line 200.

10 is a view showing an auxiliary movement path portion is arranged in the insulation tube according to the present invention, and FIG. 11 is a view showing an example in which current providers are connected to wiring at positions corresponding to sections.

In particular, referring to FIG. 10, an auxiliary movement path part is disposed in the insulating tube 100.

The auxiliary movement path part includes a multi-stage pipe 140 arranged at uniform intervals on the inner periphery of the insulating pipe 100 and an auxiliary rail 130 connected to an end of the multi-stage pipe 140.

The auxiliary rail 130 is connected in a rail manner to an auxiliary rail groove 712 formed at the upper end of the device body 410.

A spring (not shown) is disposed inside the multistage pipe 140 to allow elastic flow along the length direction.

In addition, referring to FIG. 11, in the plurality of sections, a plurality of current providers 820 connected to the wiring 220 of the distribution line 200 are disposed,

When the failure section is detected, the control unit 800 calculates a corrected current value capable of reaching the reference current value by the current value measured in the failure section, and the failure section 700 Until the maintenance line 600 is connected to the section, the corrected current value corresponding to the fault section is determined by using a current provider 820 connected to the fault section among the plurality of current providers 820. It is supplied to the wiring 220.

In addition, although not shown in the drawings, injection holes exposed to spaces corresponding to the plurality of sections are drilled at multiple locations of the insulating tube 100.

The injection holes are connected to the extinguishing material feeder through a tube.

When the current value measured after both ends of the recovery line are connected to the wiring corresponding to the fixed section rises above the reference current value by a predetermined value, the control unit 800 uses the extinguishing material supply Supply a certain amount of Soho material to the section.

Through this, the present invention provides a "distribution line fault section automatic detection opening/closing facility" to keep the distribution lines disposed inside the protection pipe in parallel so that the device for restoration can be smoothly moved to the location where the abnormality has occurred. It may have a useful effect of allowing the recovery device to be stably and accurately moved so that the recovery operation can be performed.

In addition, the present invention sets a plurality of sections on the distribution line, and when an abnormality occurs in any one of the plurality of sections, the section in which the abnormality occurs is immediately blocked using a circuit breaker, and a recovery device in the blocked section By moving a pair of connection ends formed at both ends of the recovery line provided in advance in the corresponding section, it is possible to perform recovery by forcibly connecting the pair of connection ends formed at both ends of the abnormal section.

In addition, the present invention arranges the auxiliary movement path of the recovery device on the inner periphery of the protective tube, but always forms a constant auxiliary movement path even if a part of the protective tube is deformed or damaged, so that the recovery device unstablely moves or transforms the movement path itself at the deformed position. This may be useful in solving the problem that movement becomes impossible.

As described above, although the present invention has been described by limited embodiments and drawings, the present invention is not limited thereto, and the technology to which the present invention pertains is within the scope of equality of the technical spirit of the invention and the claims to be described below. Of course, various modifications and variations are possible.

100: insulation
200: distribution line
300: fault detection unit
400: reinforcing member
500: main movement path part
600: recovery line
700: recovery device
800: control unit

Claims (4)

Hollow insulated tube;
A distribution line disposed inside the insulating tube;
A failure detection unit that measures current values in a plurality of sections of the distribution line, and determines as a failure section when the measured current value exceeds or falls below a preset reference current value;
A reinforcing member formed of an insulating material and, when buried in the distribution line, reinforcing the distribution line to form a constant path;
A main movement path portion disposed to be spaced apart from the outer periphery of the distribution line, disposed along the distribution line, and fixed by connecting a plurality of locations to a plurality of locations of the reinforcing member;
A plurality of recovery lines disposed in the plurality of sections of the distribution line, and both ends of which are inserted into and fixed to the outer shell of the distribution line;
Arranged so as to be movable along the main movement path, moved to the fixed section, of the plurality of recovery lines, both ends of the recovery line located in the fixed section are connected to the wiring formed inside the distribution line Recovery device; And,
And a control unit for receiving the fixed section determined from the failure detection unit and controlling driving of the recovery device,
The main movement path portion is disposed along the distribution line, a rail member having a rail formed on one surface thereof, and formed to protrude from a plurality of positions on the other surface of the rail member, and an end thereof is inserted into the distribution line to form a plurality of reinforcing members. It has a plurality of fixing members coupled to the position,
The recovery device is coupled to be moved along the rail member,
Each of the plurality of recovery lines includes a recovery line member having a set length, one end is rotatably fastened to both ends of the recovery line member, and the other end penetrates the outer shell of the distribution line and is disposed in the vicinity of the wiring. Including a pair of connection ends,
One end of the pair of connection ends is rotatably fastened to rotation holes formed at both ends of the recovery line member, and the other end of the pair of connection ends is fixed to the distribution line in a screw manner,
The recovery device is a distribution line failure section automatic detection opening and closing facility, characterized in that by coupling a motor shaft of a pair of rotation motors to one end of the pair of connection ends to rotate the pair of connection ends. delete delete The method of claim 1,
The recovery device,
A device body having a rail groove connected to the rail member at the bottom in a rail manner,
The pair of rotation motors disposed at both ends of the device body,
It is provided at both ends of the device body, provided with a pair of lifting cylinders for lifting the pair of rotary motors under the control of the control unit,
The control unit uses a linear motor to move the device body along the rail member,
The control unit,
Moving the device body in the fixed section, rotating the motor shaft using the pair of rotary motors, lowering the pair of rotary motors using the pair of lifting cylinders, Coupling an end to the upper end of the pair of connecting ends, rotating the pair of connecting ends,
The connecting ends of the pair of rotation are connected to the wiring through the outer shell of the distribution line, characterized in that the automatic detection opening and closing facility of a distribution line failure section.

Images