KR101794297B1 - Uninterruptible connecting panel of transformer for underground power distribution line - Google Patents

Abstract

The present invention relates to an uninterruptible connection panel structure of a transformer for an underground power distribution line. First and second switches and first and second connection panels are installed on both sides of a ground transformer to slide left and right. A platform, front and rear sliders, third and fourth left and right sliders, a front and rear sliding driving means, first and second left and right sliding driving means, a movable transformer, third and fourth connection panels, and a control means for controlling the front and rear sliding driving means and the first and second left and right sliding driving means are formed in an active line working vehicle. Accordingly, the ground transformer can be simply and safely replaced by inputting a bypass mode and a bypass release mode.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a transformer for an underground power distribution line,

The present invention relates to an uninterruptible connection panel structure of a transformer with an underground distribution line, and more particularly, to an underground distribution line in which a ground transformer can be easily and safely replaced in an uninterruptible state, Panel structure.

Generally, electric power generated by a power plant is passed through several high voltage and low voltage steps and then a special piezoelectric power is distributed through a high voltage distribution line. In addition, a special piezoelectric power is finally supplied to commercial electric power for household use and commercial electric power for industrial use, And supplies them to the customers of each home or industrial facility.

The electric power distribution system of the past has a special piezoelectric electric power distribution line and a commercial electric power distribution line in a pole which is installed at regular intervals on the ground and a special piezoelectric power distributed through a special piezoelectric electric power distribution line is supplied to a commercial electric power through a pillar- A process distribution system has been widely used.

In urban areas, which have been expanding and becoming more complicated in recent years, they are being converted into underground distribution systems where distribution lines are installed in the ground.

As shown in Figure 1, the underground distribution line is a special piezoelectric distribution line (L1) that is installed in the ground to distribute a special piezoelectric device, and is installed in the ground to supply commercial electricity for household electricity and industrial facilities to consumers A ground transformer 2 provided in a cabinet 1 provided on the ground to downsize a special piezoelectric ceramic by commercial electric power and a cabinet 3 installed on the ground, And a switch 4 for opening and closing the power distribution line L2.

The electric wires and transformers used in such underground distribution lines may become obsolete or fail due to the elapse of time. If there is a risk that the distribution will not be smooth or that a fire resulting from an arc may occur, Maintenance and repair work will be done from time to time for safety.

In order to carry out such maintenance and repair work, there is an uninterruptible power supply system in which electricity is shut off, and an uninterruptible power supply system is operated in uninterrupted (live) state in which electricity is not cut off.

Considering safety, it is preferable to use the electrostatic method that performs the work in the power failure state in which the electricity is completely shut off. However, when the power failure state is maintained for maintenance and maintenance, all the electric devices on the customer side are shut down, It is desirable to use an uninterruptible power supply system that performs maintenance and maintenance work while maintaining the distribution line in an uninterrupted state.

As a prior art relating to the above-mentioned uninterruptible power supply system, there is a "primary side connection apparatus for replacing a transformer by an uninterruptible power supply method" (Prior Art 1 ') of Korean Registered Patent No. 10-0769335 (registered October 16, 2007).

In the prior art 1, the left and right connecting members connected to the conductive connecting bar are molded into an insulating layer and a shield layer so as to connect the elbow connecting members. In the connecting member, a socket portion is formed, A cable junction having a built-in inner frame continuously connected with a soho tube for blocking an arc to be generated; A plurality of support pieces protruding from the front surface of the base so as to support the cable junction in the horizontal and vertical oblique directions; And a toggle clamp that is rotatably mounted on the bottom surface and is removable and removable from the base, so that the elbow joint member can be quickly and effectively separated and connected. Therefore, workability and efficiency To maximize the performance of the system.

However, the prior art 1 includes a cable junction for connecting the mobile transformer to the primary elbow joint of the transformer in a live state, and the work of connecting or disconnecting the cable junction to the primary elbow joint is manually operated So that there is a problem that an electric shock occurs.

As a prior art related to the uninterruptible power supply system, Korean Unexamined Patent Publication No. 10-0926445 (Registered on Nov. 5, 2009) entitled "Uninterruptible bypass construction method of underground distribution line using extension elbow having branch connection function" have.

The prior art 2 relates to an uninterruptible bypass installation method of an underground distribution line for uninterrupted maintenance including maintenance of a device such as a transformer and a switch of an underground distribution line, and cable replacement, and more particularly, An extension elbow with a separate branch connection function that enables the uninterruptible bypass installation to the underground distribution line instead of the existing elbow connection which can only be connected to the end of the underground cable to connect the transformer. Or in case of existing underground lines, the existing elbow connection port is replaced with the extension elbow by uninterrupted connection method by the sequential disconnecting connection method. In case of uninterrupted construction such as installation of transformer, switch and cable for underground distribution line, To the temporary trans- In addition to providing a safe and quick uninterrupted installation by installing unscrambled cables, most of the work on underground distribution lines has been done in the night by electrostatic operation, which is dangerous and inefficient. In the uninterrupted state, all the work for the construction is performed in the daytime, so that it is very safe and economical.

However, the prior art 2 has an extension elbow and a bypass cable to manually connect or disconnect the bypass cable to / from the extension elbow in the live state, which causes an electric shock accident.

Therefore, when the operator operates the changeover switch without manually connecting or disconnecting the bypass cable, the bypass cable can be connected or disconnected, thereby easily and safely replacing the ground transformer in the underground distribution line without causing an electric shock accident It is necessary to develop the technology that can be used.

Korean Registered Patent No. 10-0769335 (registered on October 16, 2007) "Primary side connection device for transformer replacement by uninterrupted method" Korean Registered Patent No. 10-0926445 (Registered on November 5, 2009.) "Uninterruptible bypass installation method of underground distribution line using extension elbow with branch connection function"

Accordingly, it is an object of the present invention to provide an uninterruptible connection panel structure of a transformer with an underground distribution line, in which a ground transformer as an underground distribution line can be easily and safely replaced in an uninterrupted state.

According to an aspect of the present invention, there is provided a cabinet including a cabinet body having front and rear openings and a shelf at a lower end thereof, and a front door and a rear door for opening and closing the front opening and the rear opening of the cabinet body, A cabinet; A special piezoelectric underground distribution line and a commercial electric underground distribution line wired on the ground through a lower portion of the shelf; A ground transformer installed at a central portion of the shelf and having a primary terminal and a secondary terminal; A first right and left slider and a second right and left slider slidably installed in a primary side and a secondary side of the shelf, respectively; A first switch disposed on the first left and right sliders and having a first switch A terminal facing the ground transformer and a first switch B facing forward; A second switch provided on the second left and right sliders and having a second switch A terminal facing the ground transformer and a second switch B facing forward; A first connection panel A terminal provided between the ground transformer and the first switch and connected to the distribution cable in the special piezoelectric substation, a first connection panel A terminal connected to the primary terminal of the ground transformer, and a second connection panel A terminal of the first switch A A first connection panel having a first connection panel B terminal connected to the first connection panel A terminal and a first connection panel A terminal and a first connection panel B terminal being electrically connected at all times; A second connection panel A terminal provided between the ground transformer and the second switch and connected to the commercial electrical underground distribution line, a second connection panel A terminal connected to the second terminal of the ground transformer, and a second switch A A second connection panel having a second connection panel B terminal connected to the second connection panel A terminal and a second connection panel A terminal and a second connection panel B terminal electrically connected at all times; A platform installed in a live work vehicle; A front and rear slider installed on the platform so as to be slidable in the longitudinal direction; A third left and right slider and a fourth left and right slider slidably installed on the left and right sides of the front and rear sliders; Front and rear sliding drive means for slidingly driving the front and rear sliders in the forward and backward directions; Third left and right slider driving means for driving the third left and right sliders to slide in the left and right directions; Fourth left and right slider driving means for driving the fourth left and right sliders to slide in the left and right directions; A moving transformer installed at a center of the front and rear sliders and having a primary terminal and a secondary terminal; A third connection panel A terminal provided on the third left and right slider and connected to the primary terminal of the mobile transformer by a first bypass cable and a third connection panel B terminal connectable to the first switch B terminal, A third connection panel provided; A fourth connection panel A terminal provided on the fourth left and right sliders and connected to a secondary terminal of the mobile transformer by a second bypass cable and a fourth connection panel B terminal connectable to the second switch B terminal A fourth connection panel provided; And an engaging engagement groove provided on an entire surface of the first left and right sliders and the second left and right sliders in correspondence with the engaging projections of the first and second left and right sliders; And a control means for controlling the first and second switches, the front and rear sliding driving means, and the first and second left and right sliding driving means, wherein the control means is provided on the front surfaces of the first and second switches, And first and second sensors for detecting whether the third and fourth connection panel B terminals of the fourth connection panel are connected to the first and second switches B and B, A first input unit for inputting a bypass mode and a bypass release mode for the first and second left and right sliding driving units, and a control unit for controlling the first and second switches according to the sensing signals of the first and second sensors and the input mode of the input unit, And a controller for controlling the front and rear sliding driving means, the first and second left and right sliding driving means, and the uninterruptible connection panel structure of the underground distribution line transformer.

According to the uninterruptible connection panel structure of the underground distribution line transformer of the present invention, the first and second switches and the first and second connection panels are slidably installed on both sides of the ground-potential transformer, Second and third sliding panels, third and fourth left and right sliders, front and rear sliding driving means, first and second left and right sliding driving means, a moving transformer, third and fourth connecting panels, The bypass transformer can be easily and safely replaced only by inputting the bypass mode and the bypass release mode.

1 to 8 show a preferred embodiment of the uninterruptible connection panel structure of the underground distribution line transformer according to the present invention,
FIG. 1 is an overall perspective view,
2 is a perspective view showing a state in which a part of a cabinet is cut,
3 is an exploded perspective view of the left and right sliders, the ground transformer, the first and second switches, the first and second connection panels,
Fig. 4 is an exploded perspective view of the platform, the front and rear sliders, the left and right sliders, the moving transformer, the third and fourth connection panels,
FIG. 5 is a perspective view and a plan view showing a normal connection state,
6 is a perspective view and a plan view showing a state where third and fourth connection panels connected to the mobile transformer are connected to the first and second switches,
7 is a perspective view and a plan view showing a state where the first and second switches and the first and second connection panels are separated from the ground-
8 is a functional block diagram of the control means.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0027] Hereinafter, an uninterruptible connection panel structure of a transformer according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 8 show a preferred embodiment of the uninterruptible connection panel structure of the underground distribution line transformer according to the present invention.

As shown in FIGS. 1 to 8, the uninterrupted connection panel structure of the underground distribution line transformer according to the present embodiment includes a special piezoelectric ground distribution line L1, a commercial electric ground distribution line L2, And a ground transformer (100) installed on the ground, wherein the special piezoelectric underground power distribution line (L1) is connected to the primary side and the commercial electric underground power distribution line (L2) is connected to the secondary side.

The special piezoelectric underground power distribution line L1 and the commercial electric underground power distribution line L2 are each composed of three-phase electric wires.

The special piezoelectric underground power distribution line L1 and the commercial electric underground power distribution line L2 are provided with electric wire terminals A1 and A2, respectively.

The ground transformer (100) is installed in the transformer cabinet (10).

The transformer cabinet 10 includes a cabinet body 11 having front and rear openings and a front door 13 and a rear door 14 for opening and closing the front and rear openings of the cabinet body 11, do.

The cabinet main body 11 includes a ground transformer 100, a first switch 210, a second switch 220, a first connecting panel 310, and a second connecting panel (not shown) on a shelf 12 provided at a lower end. 320 are installed.

The special piezoelectric power distribution line L1 and the commercial electric distribution line L2 can be wired through the lower portion of the shelf portion 12. [

A first left and right sliders 110 and a second left and right sliders 120 are provided on the primary side and the secondary side of the ground transformer 100 on the shelf portion 12 so as to be slidable in the left and right direction respectively.

In order to allow the first left and right sliders 110 and the second left and right sliders 120 to be slidably mounted on the shelf unit 12 in the left and right direction, the first and second sides of the shelf unit 12 are provided with dove tails and a male guide 133 and a male guide 133 corresponding to the female guides 131 and 132 are provided on the lower surfaces of the first left and right sliders 110 and the second left and right sliders 120, , 134 are provided.

A first connection panel 310 is provided between the primary side of the ground transformer 100 and the first switch 210 and a second connection is provided between the secondary side of the ground transformer 100 and the second switch 220. [ A panel 320 is installed.

The ground transformer 100 is installed at a central portion of the shelf unit 12. The first switch 210 and the first connection panel 310 are installed on the first left and right sliders 110, The second connection panel 320 and the second connection panel 320 are installed on the second left and right sliders 120.

The primary transformer 100 and the secondary transformer 100 are provided with a primary terminal 101 and a secondary terminal 102, respectively.

The first switch 210 is provided with a first switch A 211 facing the ground transformer 100 and a first switch B 212 facing the front. The second switch 220 is provided with a second switch A 221 facing the ground transformer 100 and a second switch B 222 facing the front.

The first and second switches 210 and 220 are normally off so that the first and second switches 210 and 220 are normally off when the ground transformer 100 operates normally. And the switch B terminals 212 and 222 are kept shut off.

Since the first and second switches 210 and 220 can use conventional switches, detailed description of the specific configurations of the switches will be omitted.

The first connection panel 310 is provided with a lead terminal 311 connected to the special distribution line L1 in the piezoelectric transformer and a first connection panel A terminal And a first connection panel B terminal 313 connected to the first switch A terminal 211 of the first switch 210. The connection terminal 311 and the first connection panel A terminal 312 and the first connection panel B terminal 313 are always electrically connected.

The second connection panel 320 includes an input / output terminal 321 connected to the commercial electric underground power distribution line L2 and a second connection panel A terminal (not shown) connected to the secondary terminal 102 of the ground- And a second connection panel B terminal 323 connected to the second switch A terminal 221 of the second switch 220. The connection terminal 321 and the second connection panel A terminal 322 and the second connection panel B terminal 323 are always electrically connected.

On the other hand, the live work vehicle includes a platform 410; A front and rear slider 420 slidably installed on the platform 410 in a front-rear direction; A third left and right slider 430 and a fourth left and right sliders 440 slidably installed on the left and right sides of the front and rear sliders 420; Front and rear sliding drive means (510) for slidingly driving the front and rear slider (420) in the forward and backward directions; A first left and right sliding driving means 530 for slidingly driving the third left and right sliders 430 in the left and right directions; And a second left and right sliding driving means 540 for slidingly driving the fourth left and right sliders 440 in the left and right directions.

In order to allow the front and rear slider 420 to be slidably mounted on the platform 410 in a forward and backward direction, a female guide 451 having a dovetail structure is provided on the platform 410, And a male guide 452 corresponding to the female guide 451 is provided on the lower surface.

In order to allow the third left and right sliders 430 to be slidably mounted on the front and rear sliders 420 in the left and right directions, a female guide 461 having a dovetail structure is provided on the primary side of the front and rear sliders 420, A male guide 462 corresponding to the female guide 461 is provided on the lower surface of the third left and right slider 430.

A female guide 471 having a dovetail structure is provided on the secondary side of the front and rear sliders 420 so that the fourth left and right sliders 440 can be slidably mounted on the front and rear sliders 420 in the left and right directions, A male guide 472 corresponding to the female guide 471 is provided on the lower surface of the secondary slider 440.

The male guides 451, 461 and 471 may be formed integrally with the platform 410 and the front and rear sliders 420 or separately and may be coupled by a bolt fastening method. Can be integrally formed with the front and rear sliders 420, the third and the fourth left and right sliders 430 and 440, respectively, or they can be separately manufactured and coupled by a bolt fastening method.

The front and rear sliding driving means 510 includes a front and rear driving motor 511 mounted on the platform 410, a front and rear driving screw 512 rotated by the front and rear driving motors 511, And a nut portion 513 formed on the front and rear drive screws 512 and screwed into the front and rear drive screws 512.

The first left and right sliding driving means 530 includes left and right driving motors 531 mounted on the front and rear sliders 420 and left and right driving screws 532 rotated by the left and right driving motors 531, And a nut portion 533 formed on the left and right sliders 430 and screwed into the left and right driving screws 532. [

The second left and right sliding driving means 540 includes left and right driving motors 541 mounted on the front and rear sliders 420, left and right driving screws 542 rotated by the left and right driving motors 541, And a nut portion 543 formed on the left and right sliders 440 and screwed to the left and right driving screws 542.

A moving transformer 600 is installed at the center of the front and rear slider 420 and the moving transformer 600 is provided with a primary terminal 601 and a secondary terminal 602.

A third connection panel 710 is provided on the third left and right sliders 430 and a first bypass cable 710 is connected to the primary terminal 601 of the mobile transformer 600, A third connection panel A terminal 711 connected to the first switch B 730 and a third connection panel B terminal 712 connectable to the first switch B terminal 212 are provided.

A fourth connection panel 720 is provided on the first left slider 440 and a second bypass cable 720 is connected to the secondary terminal 602 of the mobile transformer 600 A fourth connection panel A terminal 721 connected to the first switch B 740 and a fourth connection panel B terminal 722 connectable to the second switch B terminal 222 are provided.

Cable terminals 731 and 732 that can be connected to the primary terminal 601 of the mobile transformer 600 and the third connection panel A terminal 711 are provided at both ends of the first bypass cable 730, Two bypass cables 740 are provided at both ends thereof with cable terminals 741 and 742 which can be connected to the secondary terminal 602 of the moving transformer 600 and the terminal A 721 of the fourth connection panel.

Interlocking engagement protrusions 811 and 812 are provided on the rear surfaces of the third left and right sliders 430 and the fourth left and right sliders 440. The front surfaces of the first left and right sliders 110 and the front surfaces of the second left and right sliders 120 Interlocking engagement grooves 813 and 814 corresponding to the interlocking engagement protrusions 811 and 812 are formed.

The interlocking engaging projections 811 and 812 and the interlocking engaging grooves 813 and 814 are engaged with the first and second left and right sliders 110 and 120 when the third and fourth left and right sliders 430 and 440 slide left and right. ) Can slide together.

The uninterruptible connection panel structure of the underground distribution line transformer according to the present embodiment includes the first and second switches 210 and 220, the front and rear sliding driving means 510, the first and second left and right sliding driving means 530 and 540 (900) for controlling the control unit (900).

The control means 900 is provided on the front surfaces of the first and second switches 210 and 220 to connect the third and fourth connection panel B terminals 712 and 722 of the third and fourth connection panels 710 and 720 First and second sensors 910 and 920 for detecting whether or not the first and second switches B and 212 are connected to each other and the first and second switches 210 and 220, An input unit 930 for inputting a bypass mode and a bypass release mode for the first and second left and right sliding driving means 530 and 540 and the first and second sensors 910 and 920, The front and rear sliding driving means 510 and the first and second left and right sliding driving means 530 and 540 according to the sensing signal of the input unit 930 and the input mode of the input unit 930 And a control unit 940 (see FIG. 8).

The first and second sensors 910 and 920 are turned off when the first and second sensor rods 911 and 921 are spaced apart and the first and second sensor rods 911 and 921 are brought into contact with each other And first and second sensor rods 911 and 921 corresponding to the sensors 910 and 920 are formed on the rear surfaces of the third and fourth connection panels 710 and 720, .

The input unit 930 may be a keyboard or a touch panel of a desktop computer or a notebook computer. The control unit 940 may be a desktop computer or a notebook computer having a CPU, a storage device, a RAM, a display, Lt; / RTI >

Hereinafter, the operation of the uninterruptible connection panel structure of the underground distribution line transformer according to the present embodiment will be described.

In the underground distribution line where the uninterruptible connection panel structure of the underground distribution line transformer according to the present embodiment is applied, the electric wire terminal A1 of the special electric underground distribution line L1 is connected to the input terminal 311 of the first connection panel 310 The first connection panel A terminal 312 is connected to the primary terminal 101 of the ground transformer 100 and the electric wire terminal A2 of the commercial electric underground power distribution line L2 is connected to the second connection panel 320 And the second connection panel A terminal 322 is connected to the secondary terminal 102 of the ground transformer 100 so that a special piezoelectric body to be distributed to the special distribution piezoelectric power distribution line L1 is connected to the first connection panel 321. [ Is inputted to the primary side of the ground transformer 100 through the input terminal 311 of the earth transformer 100, the first connection panel A terminal 312 and the primary terminal 101 of the ground transformer 100, The secondary electricity is supplied to the secondary terminal 102 of the ground transformer 100, the second connection panel A terminal 322 of the second connection panel 320, the extraction terminal 321, the commercial electric underground power distribution line L2 ) It is a distribution suyongga through the wire terminal (A2) and a commercial electric underground distribution line (L2).

At this time, the first and second connection panel B terminals 313 and 323 of the first and second connection panels 210 and 220 are connected to the first and second switches A and B of the first and second switches 210 and 220, respectively. (211, 221). However,

Since the first and second sensor rods 911 and 921 are in a state in which the first and second sensors 910 and 920 are spaced apart from each other (substantially not in the periphery), the first and second switches 210 and 210, 220 are turned off, so that a specific piezoelectric element is not applied to the first switch B terminal 212 and the commercial electricity is not applied to the second switch B terminal 222.

When the ground transformer 100 needs to be replaced by a failure, the platform 410, the front and rear sliders 420, the first and second left and right sliders 430 and 440, the front and rear sliding drive means 510, (Not shown) in which the left and right sliding driving means 530 and 530, the moving transformer 600 and the third and fourth connecting panels 710 and 720 are mounted is installed in the cabinet 10, in which the ground transformer 100 is installed, The third and fourth connecting panel B terminals 712 and 722 are moved to the front side of the cabinet 10 and the front door 13 and the rear door 14 of the cabinet 10 are opened or detached, (See FIG. 5) of the first and second switches B and 212 of the switches 210 and 220, respectively.

At this time, the distance between the first and second switch B terminals 212 and 222 and the third and fourth connection panel B terminals 712 and 722 is set such that the front and rear sliders 420 are advanced by the front and rear sliding driving means 510 The first and second switch B terminals 212 and 222 and the third and fourth connection panel B terminals 712 and 722 are connected to each other.

In this state, when the bypass mode is input to the input unit 930 of the control unit 900, the control unit 940 controls the forward and backward sliding drive unit 510 to move forward by the forward control command and the first and second left / (530, 540).

The front and rear drive motors 511 and the front and rear drive screws 512 rotate in the forward direction in accordance with the forward control command of the control unit 940 to the front and rear sliding drive means 510, The first and second sliders 430 and 440 provided on the front and rear sliders 420 and the moving transformer 600 and the third and fourth connecting panels 420 and 440 provided on the front and rear sliders 420, 710 and 720 are advanced and the first and second connection panel B terminals 712 and 722 are connected to the first and second switch B terminals 212 and 222 (see FIG. 6).

In this process, interlocking engagement protrusions 811 and 812 provided on the rear surfaces of the third and fourth left and right sliders 430 and 440 are engaged with the first and second right and left sliders 110 and 120, The first and third left and right sliders 110 and 430 and the second and fourth left and right sliders 120 and 440 are inserted into the grooves 813 and 814, respectively.

The first and second sensor rods 911 and 921 provided on the rear surfaces of the third and fourth connection panels 710 and 720 are connected to the first and second connection rods 710 and 720 provided on the front surfaces of the first and second switches 210 and 220, The first and second sensors 910 and 920 are brought into contact with the second sensors 910 and 920 such that the first and second connection panel B terminals 712 and 722 are connected to the first and second switches B and 212, 222) are connected.

The first switch 210 is connected and the first switch A terminal 211 and the first switch B terminal 212 are connected to each other so that the special piezoelectric device is connected to the first switch B terminal 212 and the third connection panel 212. [ B terminal 712, the third connection panel A terminal 711, the first bypass cable 730 and the primary terminal 601 and is supplied to the primary side of the mobile transformer 600, and the second switch 220 The second switch 220 is connected and the second switch A terminal 221 and the second switch B terminal 222 are connected to each other so that the commercial electric power supplied from the mobile transformer 600 The fourth connecting panel B terminal 722, the second opening and closing terminal B terminal 222, the second opening and closing terminal A terminal 221, the second connecting panel B terminal 323, And is distributed to the commercial electric underground power distribution line (L2) through the terminal (321).

At this time, the special piezoelectric device is supplied to both the ground transformer 100 and the mobile transformer 600.

At the same time, the first left and right drive motors 531 and the first left and right drive screws 532 are rotated in the separating operation direction in accordance with the separation control command of the controller 940 for the first left and right sliding drive means 530, The third left and right sliders 430 provided with the nut portions 533 screwed to the first left and right drive screws 532 are moved in the separating direction (left direction in the figure), and the second left and right sliding driving means 540 The second left and right drive motors 541 and the second left and right drive screws 542 are rotated in the separating operation direction in accordance with the separation control command of the control unit 940, And the fourth left and right sliders 440 provided with the slits 543 move in the separating direction (the right direction in the figure).

The third and fourth connecting panels 710 and 720 provided on the third and fourth left and right sliders 430 and 440 are moved in the separating direction and the coupling protrusions 811 and 812 for interlocking The first and second left and right sliders 110 and 120 coupled to the third and fourth right and left sliders 430 and 440 move in the separating direction by the grooves 813 and 814 (see FIG. 7).

As the first and second left and right sliders 110 and 120 move in the separating direction, the first and second switches 210 and 220 and the first and second connecting panels 310 and 320 are separated from each other The first connection panel A terminal 312 is disconnected from the primary terminal 101 of the ground transformer 100 and the second connection panel A terminal 322 is disconnected from the secondary terminal of the ground transformer 100 102).

Therefore, the ground transformer 100 completely separated from the special piezoelectric underground power distribution line L1 and the commercial electric ground distribution line L2 can be removed and replaced or the mobile transformer 600 can be removed from the special piezoelectric ground distribution line L1, Since the piezoelectric transformer is supplied with commercial electric power and then distributed to the commercial electric underground power distribution line (L2), it is possible to remove the existing ground transformer (100) while maintaining the uninterrupted state of the underground power distribution line.

Next, when the bypass disassociation mode is input to the input unit 930 in a state where the existing ground transformer or the new terrestrial transformer 100 that has been removed and repaired is mounted at the position of the existing ground transformer 100, And the second left and right sliding driving means 530 and 540 and the retraction control command for the front and rear sliding driving means 510. [

The first and second left and right sliding driving means 530 and 540 and the third and fourth right and left sliders 710 and 710 are controlled according to the connection control command of the controller 940 for the first and second left and right sliding driving means 530 and 540, 720 are operated in the opposite direction to the separation operation described above and the third and fourth right and left sliders 710, 720 are engaged with the coupling projections 811, 812 and the coupling engagement grooves 813, The first and second left and right sliders 110 and 120 are moved in the separating direction.

Accordingly, the first and second switches 210 and 220, the first and second connection panels 310 and 320, and the third and fourth connection panels 710 and 720 are moved in the connection direction, The two connection panel A terminals 312 and 322 are connected to the primary and secondary terminals 101 and 102 of the ground transformer 100, respectively.

The front and rear sliding drive means 510 and the front and rear sliders 420 are operated in the direction opposite to the above-described forward operation in accordance with the retreat control command of the control unit 940 to the front and rear sliding drive means 510, The third and fourth left and right sliders 430 and 440, and the third and fourth connection panels 710 and 720 installed in the first and second connecting panels 710 and 720 are retracted.

The first and second sensors 910 and 920 are separated from the first and second sensors 910 and 920 so that the first and second sensors 910 and 920 are connected to the third and fourth connection panel B terminals 712, and 722 and the first and second switches B and 212 are separated from each other.

The third and fourth connection panel B terminals 712 and 722 of the third and fourth connection panels 710 and 720 are separated from the first and second switch B terminals 212 and 222, The second switch A terminals 211 and 221 and the first and second switches B and 212 are disconnected so that the special piezoelectric element is supplied only to the ground transformer 100 side and the ground voltage transformer 100 And returns to a normal operation state in which electricity is distributed through the commercial electric underground power distribution line (L2).

At the same time, the engagement of the interlocking engagement projections 811, 812 and the interlocking engagement grooves 813, 814 is released.

Then, the live work vehicle is moved to move the platform 410, the front and rear sliders 420, the first and second left and right sliders 430 and 440, the mobile transformer 600, and the third and fourth connection panels 710 and 720, The replacement operation of the ground transformer 100 is completed.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or essential characteristics thereof. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

10: Cabinet L1: Special piezo electric underground distribution line
L2: commercial electric underground distribution line 100: underground transformer
110, 120: first and second left and right sliders 310, 320: first and second connecting panels
410: Platform 420: Front and rear sliders
430, 440: third and fourth left and right sliders 510: front and rear sliding drive means
530, 540: first and second left and right sliding driving means
600: Mobile transformer 710, 720: Third and fourth right and left sliders
730, 740: first and second bypass cables
811, 812: coupling projections for interlocking 813, 814: coupling groove for interlocking
900: Control means 910, 920: First and second sensors
930: input unit 940:

Claims (1)

A front door 13 and a rear door 14 for opening and closing a front opening and a rear opening of the cabinet body 11; A cabinet (10) comprising:
A special piezoelectric underground distribution line L1 and a commercial electric underground distribution line L2 that are wired on the ground through the lower portion of the shelf 12;
A ground transformer 100 installed at a central portion of the shelf unit 12 and having a primary terminal 101 and a secondary terminal 102;
A first left and right slider 110 and a second left and right sliders 120 slidably installed on the primary side and the secondary side of the shelf part 12 in a lateral direction;
A first switch 210 installed on the first left slider 110 and having a first switch A 211 and a first switch B 212 facing the ground transformer 100, ;
A second switch 220 installed on the second left and right slider 120 and having a second switch A terminal 221 facing the ground transformer 100 and a second switch B 222 facing the front, ;
A ground terminal 311 which is installed between the ground transformer 100 and the first switch 210 and is connected to the power distribution line L1 of the special piezoelectric substation and a connection terminal 311 which is connected to the primary terminal 101 of the ground transformer 100 The first connection panel A terminal 312 and the first connection panel B terminal 313 connected to the first switch A terminal 211 of the first switch 210 are connected to the input terminal 311, The first connection panel A terminal 312 and the first connection panel B terminal 313 are electrically connected to each other at all times;
A lead terminal 321 provided between the ground transformer 100 and the second switch 220 and connected to the commercial power ground line L2 and connected to the secondary terminal 102 of the ground transformer 100; And a second connection panel B terminal 323 connected to the second switch A terminal 221 of the second switch 220 and the second connection panel B terminal 323 connected to the outgoing terminal 321, The second connection panel A terminal 322 and the second connection panel B terminal 323 are electrically connected at all times;
A platform 410 installed on the live work vehicle;
A front and rear slider 420 slidably installed on the platform 410 in a front-rear direction;
A third left and right slider 430 and a fourth left and right sliders 440 slidably installed on the left and right sides of the front and rear sliders 420;
Front and rear sliding drive means (510) for slidingly driving the front and rear slider (420) in the forward and backward directions;
A third left and right slider driving means 530 for slidingly driving the third left and right sliders 430 in the left and right directions;
A fourth left and right slider driving means 540 for slidably driving the fourth left and right sliders 440 in the left and right directions;
A moving transformer 600 installed at the center of the front and rear slider 420 and having a primary terminal 601 and a secondary terminal 602;
A third connection panel A terminal 711 provided on the third left and right sliders 430 and connected to the primary terminal 601 of the mobile transformer 600 by a first bypass cable 730, A third connection panel 710 having a third connection panel B terminal 712 connectable to the first switch B terminal 212;
A fourth connection panel A terminal 721 installed on the fourth left and right slider 440 and connected to the secondary terminal 602 of the mobile transformer 600 by a second bypass cable 740, A fourth connection panel 720 having a fourth connection panel B terminal 722 connectable to the second switch B terminal 222;
The first and second left and right sliders 430 and 440 are provided with interlocking engagement protrusions 811 and 812 provided on the rear surfaces of the third left and right sliders 430 and the fourth left and right sliders 440, (813, 814) provided on the front surface of the first slider (110) and the second slider (120);
And control means 900 for controlling the first and second switches 210 and 220, the front and rear sliding driving means 510 and the first and second left and right sliding driving means 530 and 540,
The control means 900 is provided on the front surfaces of the first and second switches 210 and 220 to connect the third and fourth connection panel B terminals 712 and 722 of the third and fourth connection panels 710 and 720 First and second sensors 910 and 920 for detecting whether or not the first and second switches B and 212 are connected to each other and the first and second switches 210 and 220, An input unit 930 for inputting a bypass mode and a bypass release mode for the first and second left and right sliding driving means 530 and 540 and the first and second sensors 910 and 920, The front and rear sliding driving means 510 and the first and second left and right sliding driving means 530 and 540 according to the sensing signal of the input unit 930 and the input mode of the input unit 930 And a control unit (940). The uninterruptible connection panel structure of the underground distribution line transformer.

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