KR100517799B1 - A transformer for underground electric power line with switch to be able to interruption or supply the high voltage power on the underground electric power line - Google Patents

Abstract

The present invention is to provide a special high voltage transformer on the underground line by a built-in switchgear to cut off the high voltage power in the transformer so that the transformer can be easily replaced in the event of a failure of the transformer installed in the underground line to supply power to homes and industrial complexes Equipped with a special high voltage switching means to enable uninterrupted operation in case of replacing the transformer with a new transformer or disconnecting the power when working on the high voltage side of the underground line. It relates to a transformer for underground lines with inserts and elbow terminals. When supplying home and industrial power, the transformer is used as a means of dropping the voltage to supply the low voltage of 220 / 380V for the home and industrial at the extra high voltage of 22.9kV supplied from the power plant through the power transmission line. If a transformer (overload) occurs due to an overload, it should be replaced with a transformer that works normally.In case of replacing the transformer of the ground line, it is performed by uninterrupted work using an uninterruptible transformer replacement vehicle. Since a power failure is inevitable due to the inability to perform work, it causes considerable inconvenience in a general home or business, and the present invention relates to a transformer for underground lines, which enables an uninterruptible operation by embedding a special high voltage switching means inside a transformer.

[Index]

SF ₆ Gas Switchgear, Underground Transformer, Uninterruptible Transformer Replacement

Description

A transformer for underground electric power line with switch to be able to interruption or supply the high voltage power on the underground electric power line}

The present invention is to provide a special high voltage transformer on the underground line by a built-in switchgear to cut off the high voltage power in the transformer so that the transformer can be easily replaced in the event of a failure of the transformer installed in the underground line to supply power to homes and industrial complexes The present invention relates to a underground line transformer having an extra-high voltage switching means for uninterrupted operation when it is necessary to replace a new transformer or to cut off the power during the operation of the high voltage side of the underground line. Looking at the existing underground line in detail, the transformer as a means of dropping the voltage to supply a low voltage of 220 / 380V for the home and industrial at a special high voltage of 22.9kV supplied from the power plant through the transmission line in the home and industrial power supply If the transformer is damaged due to aging or overload, it should be replaced with a transformer that works normally.If you replace the transformer of the ground line, you can use the uninterrupted transformer replacement vehicle for uninterrupted work. However, in the case of the underground line, the transformer between the switch and the switch has been blacked out and then replaced with a transformer that normally operates. When performing such a work, large-scale apartment complexes or industrial complexes are inevitable, and thus, there is a problem in that they cause considerable inconvenience or economic loss to ordinary homes or businesses.

The technical problem to be achieved by the present invention is to recognize the above problems and to replace a new transformer or a new high-voltage power supply built-in switch for switching off the high voltage three-phase or single phase at the same time, the transformer for the user's convenience The elbow insert and elbow terminals are attached to the outside (external) of the transformer on the extra high and low pressure side (load side) from the transformer to allow uninterrupted operation during the working time when replacing a new transformer due to transformer aging or failure on the underground line. This is to implement a transformer with a built-in switchgear to cut off the high-voltage power supply that can prevent the inconvenience or economic loss of many homes and businesses. In addition, the present invention is characterized in that the elbow insert on the high pressure side and the elbow terminal on the low pressure side for the convenience of the operator when the transformer replacement.

The present invention has a special feature between the elbow insert (insert terminal) and the elbow on the high voltage side of the transformer so that the transformer can be easily replaced without a power failure in the event of the failure of the existing transformer installed in the underground line supplying home and industrial power. The present invention relates to a underground line transformer having a switching means which allows a work without interruption when replacing a transformer on a underground line by embedding a switch to cut off a high voltage power source. There are various kinds of circuit breakers that cut off power for the uninterruptible work as described above. Specifically, 1) Oil Circuit Breaker (OCB) has many disadvantages in terms of breaking performance and maintenance compared to other types of breakers, but it is inexpensive and has a merit that it can operate in a wide voltage range. Although it is widely used as the oil, it is disadvantageous because it uses oil. 2) Vaccum Circuit Breaker (VCB) has very high dielectric strength and less breaker type. Since the contactor is isolated from the outside air, there is no risk of fire caused by the arc. It has the advantages of small size / light weight, simple structure, and easy maintenance, but it has the disadvantage of generating high surge voltage during operation. 3) Air Blast Circuit Breaker (ABBC) is designed to extinguish arcs generated by the contactor falling off with powerful compressed air (10-30kg). It has a certain effective capacity and has a low risk of fire, excellent blocking ability, and easy maintenance, but requires additional equipment such as a compressor for compressed air, and is widely used as a large-capacity circuit breaker. Used a lot in 4) Air Circuit Breaker (ACB) is a breaker that has an extinguishing method by natural appeal as the contactor drops when opening in natural air. It is often used as an AC voltage or DC breaker. When used as a DC circuit breaker, it is called a high-speed circuit breaker that has a short opening and closing time and a current-limiting action when breaking a short circuit current. Wiring breakers are miniaturized by inserting a device into a molded insulator, called a no-fuse breaker or MCCB (Molded Case Circuit Breaker). 5) Magnetic Blast Circuit Breaker (MBB) provides magnetic field at right angles to the arc, pushing the arc into the arc chamber, increasing the arc voltage, and cooling it to extinguish the arc. It is widely used in low voltage circuits ranging from 3.3 to 6.6 kV. Since there is no fear of fire and no insulation is used, there is no deterioration and maintenance is simple, but it is not suitable at high voltage in terms of extinguishing capacity. 6) Gas Circuit Breaker (GCB) Instead of air, it uses compressed gas of SF ₆ (sulfur hexafluoride), which is an inert gas with excellent dielectric strength and extinguishing ability. There are two types of gas circuit breakers: double gas pressure and single gas pressure in closed cycles, in which SF ₆ gas is blown from a high gas cylinder of 12-15 kg / cm 2 · g to a low gas system of approximately 2 kg / cm 2 · g. . It has few maintenance checks, good blocking performance and low noise. The price is high and the installation area is large, so it is mostly used as a high voltage circuit breaker. Among the various circuit breakers described above, the SF ₆ gas circuit breaker is excellent for breaking off and extinguishing power of the high voltage line, which is suitable for cutting off the power of the high voltage side of the transformer (22.9 kV). Although it is economical and has a disadvantage of being a little bulky, it is possible to select an appropriate capacity according to the size of the power to be cut off or to design it according to the purpose.

Looking at the power supply process in relation to the present invention, in order to supply a low-voltage power supply of 220 / 380V of home and industrial power from the 22.9kV extra-high voltage power supply from the power plant through the transmission line at home and industrial power supply The transformer is used as a means of dropping the voltage, and the transformer in use causes problems (failures) due to aging and overload. In this case, the transformer must be replaced with a normally working transformer. The transformer is replaced by an uninterruptible operation by an uninterruptible transformer replacement vehicle.However, in the case of underground lines, work is performed using switchgears installed at regular intervals. Normal transformer) The task of replacing a transformer that operates have been made. As shown in Fig. 1, in the present underground line, a circuit breaker for opening and closing an extra-high voltage distribution line is placed between several transformers (3 to 5), and when the transformer is replaced, all the switches installed at both ends are opened and closed. Transformers located between these switches are blackouts, and temporary blackouts are inevitable in large apartment complexes or complexes powered by these transformers. However, as shown in FIG. 2, a built-in switchgear that can cut off a special high voltage three-phase or single-phase power as shown in FIG. 2 enables the work without a power failure by sequentially opening and closing the attached switch when replacing a transformer on the underground line. In addition, the transformer according to the present invention attaches the elbow insert and the elbow terminal to the outside of the transformer to facilitate the coupling of the power supply line to the extra high pressure side and the low pressure side (load). In order to achieve a specific configuration (see Fig. 3) to achieve the above object, a) the switch (3) capable of simultaneously shutting off the three-phase or single-phase extra-high voltage power supply on the inside of the transformer (1) and the extra high voltage, b) An elbow insert (2) connected to the special high voltage switch (directly connected) and installed outside the transformer; c) a transformer protection circuit (5) for protecting the transformer in the event of an overload or a short circuit of the power supply; A coil 6 designed with a suitable turns ratio to lower the extra high voltage power to 220V / 380V, e) a switch 7 capable of cutting off the low voltage side of the transformer, and f) a power circuit breaker on the low voltage side. The elbow (9) connected to the outside of the transformer and the mechanical switch (4) attached to the outside (outside) of the transformer to operate the switch when necessary to cut off the high-voltage power if necessary. It is a transformer that can. The elbow provided on the low voltage side may be constituted by a terminal having reliable insulation to easily open and close the load side low voltage power supply. The high voltage switch built into the transformer according to the present invention (switch) the various switches increase in it an excellent ability to block a high voltage three-phase or single-phase power at the same time for the case of SF ₆ gas circuit breaker because SF ₆ gas circuit breaker mainly It will be described. The opening and closing of the SF ₆ gas circuit breaker is by mechanical (physical) means. When a transformer designed for the present invention as described above is to be replaced with a new transformer in one of the underground lines, a) after loop operation of the 22.9KV distribution line, b) transformer # 2 ( Switch off the switch 4 incorporated in Fig. 5 (a) with a switch attached to the outside of transformer # 2, and c) Switch off switch 5 embedded in transformer # 3 (see Fig. 5 (a)). After turning off the switch attached to the transformer # 3, d) the elbow (4) attached to the transformer # 2 (see Fig. 5 (a)) is separated from the transformer # 2 junction (Fig. 5 (a) #). 5) and e) connected to the junction and construction transformer (corresponding to (a) # 4 of FIG. 5) through the elbow (4) and embedded in transformer # 3 (see (a) of FIG. 5). Switch (5) is turned on by a switch attached to the outside of transformer # 3, f) and the switch (8) built in transformer # 4 is turned on by a switch attached to the outside of transformer # 4 transformer # 2 (Fig. (a) # 2) and construction stools A special high voltage power supply is simultaneously supplied to the inflator (Fig. 5 (a) # 4). g) Check whether the voltage of the low voltage side supplied from transformer # 2 (Fig. 5 (a) # 2) and the low voltage side supplied from transformer # 4 (Fig. 5 (a) # 4) is in phase, and h If the phases are the same, the low voltage side of transformer # 2 (Fig. 5 (a) # 2) and the low voltage side of construction transformer # 4 (Fig. 5 (a) # 4) are operated in parallel. i) After parallel operation, if the load supplied from transformer # 2 (Fig. 5 (a) # 2) is separated from the transformer, j) the full load supplied from transformer # 2 (Fig. 5 (a) # 2) is used for construction purposes. Transformer # 4 (converted to Fig. 5 (a) # 4) is supplied. In this way, uninterruptible power is completely separated from the load supplied from transformer # 2 and supplies power to homes or industrial complexes (loads) by construction transformer # 4. The low pressure side disconnect switch can be used for low pressure side construction, which facilitates work and improves worker safety. Next, in order to separate the left side of the transformer # 2 from the power supply line, l) switch off the switch (3) built in transformer # 2 (Fig. 5 (a) # 2) with a switch attached to the outside of transformer # 2, m) After switching off the switch (2) built in the transformer # 1 (Fig. 5 (a) # 1) with a switch attached to the outside of the transformer # 1, separate the elbow (3) connected to the transformer # 2. n) Remove transformer # 2 to be replaced. When the transformer replacement is completed, to connect the power supply line to the switch of new transformer # 2 ', o) connect the elbow (2) and the cable drawn from transformer # 1 (Fig. 5 (a) # 1) to the new transformer #. Connected to the elbow (3) 'of 2' (Fig. 5 (b) # 2 '), and p) the switch integrated into transformer # 1 (Fig. 5 (b) # 1) and the built-in transformer # 2'. When the switch 3 'is turned on with a switch attached to the outside of the transformer, the new transformer # 2' is pressed. Then connect the low-side power supply, which was removed from transformer # 2, which needs to be replaced, in the same operation as above to operate in parallel. q) Remove the low pressure of the construction transformer # 4 (Fig. 5 (b) # 4) and release the parallel load supply. To remove the junction, switch off the switch 8 built in construction transformer # 4 (Fig. 5 (b) # 4) with a switch attached to the exterior of transformer # 4, r) transformer # 3 (Fig. 5 ( b) Switch off the switch 5 built in # 3) with a switch attached to the outside of transformer # 3. s) Disconnect and remove junction # 5. t) Connect the elbow insert 4 'of transformer # 2' (Fig. 5 (b) # 2 ') and the elbow 5 of transformer # 3 (Fig. 5 (b) # 3). u) The switch 5 built in transformer # 3 (Fig. 5 (b) # 3) and the switch 4 'built in the new transformer # 2' (Fig. 5 (b) # 2 ') are outside the transformer. When the switch attached to the switch is replaced with transformer # 2 (Fig. 5 (a)) of the new transformer # 2 '(Fig. 5 (b)) to replace the transformer is uninterrupted. The loop (LOOP) operation of the 22.9KV distribution line is terminated and all the power is supplied to the newly replaced transformer. Through this process, the underground transformer can be replaced without power failure. In order to cut off the high-voltage three-phase or single-phase power supply, a switch built in the transformer may simultaneously cut off or supply the high-voltage three-phase or single-phase power. As such a device, it is preferable to use a SF ₆ gas circuit breaker capable of simultaneously opening and closing three-phase or single-phase high voltage power supply. When designing / manufacturing a transformer according to the present invention, when three phases or single phases are simultaneously cut off or connected inside the SF ₆ gas circuit breaker, each phase is connected by an insulator that can cut off a special high pressure and has excellent extinguishing ability inside. It is filled with SF ₆ gas. The transformer protection circuit 5 may be configured as a fuse or an automobile short circuit. 3 is an overall configuration diagram of a transformer 1 incorporating an extra high voltage circuit breaker. Looking specifically at the configuration, the elbow (2) installed on the outside (external) of the transformer having the same structure as the existing elbow insert for connection with the high voltage side power, and the high voltage three-phase or single-phase power in the transformer Special high voltage switchgear (3) which can be blocked at the same time, transformer protection circuit (5) for preventing damage to the transformer by overload or short circuit current, and the user is attached to the outside (external) of the transformer to operate the high voltage switch Power supply of the low voltage part can be easily connected to the switch for disconnecting the special high voltage power, the winding coil 6 in consideration of the capacity for lowering the special high voltage power to the voltage required for home and industrial The elbow (9) installed on the outside of the transformer low pressure side (transformer), and located between the winding coil and the elbow for the convenience of the operator to cut off the low pressure power A switching means 7 which may consist. The low pressure side switching means may be installed in the form of a button outside the transformer. The special high voltage side switch is designed to produce a SF ₆ gas circuit breaker that can cut off three-phase or single-phase special high voltage at the same time with excellent breaking ability and extinguishing ability of the special high voltage power line among the various circuit breakers according to the capacity of the transformer. Is built in. The switch 4 used by the operator to turn on / off the special high voltage power in the transformer replacement work is installed at a suitable place outside the transformer which is convenient for the operator to use. The switch 4 is operated by mechanical (physical) operation and attaches a mark on the outside of the transformer indicating the position of on / off. The low voltage side circuit breaker uses a general commercial switch for 220 / 380V in consideration of the capacity of the load. In general, the underground line transformer supplies a pair of power for parallel operation, so two transformers having the above structure are built in a large transformer box. That is, as shown in Fig. 4, two extra high voltage switchgear 31 and 32 capable of simultaneously opening and closing three-phase or single-phase power are built in the transformer, and elbow inserts 33 and 34 are installed outside the transformer from each of them. have.

EXAMPLE

Specific embodiments according to the present invention, the structure of the transformer designed / manufactured in accordance with the present invention and the process of the transformer replacement operation is performed in uninterrupted by directly employing the designed / manufactured transformer will be described in order. 3 is an overall configuration diagram of a transformer 1 incorporating a special high voltage circuit breaker designed / manufactured according to the present invention. Looking specifically at the configuration, the elbow insert terminal (2) installed on the outside of the transformer having the same structure as the existing elbow insert for the connection to the high voltage side power supply, and the three-phase or single-phase special high-voltage power supply built into the transformer A pair of SF ₆ gas circuit breakers (excellent breaking and extinguishing ability of high voltage power lines) that can be cut off at the same time is built inside the transformer for parallel operation and to prevent damage to the transformer by overload or short circuit current. Attached to the transformer protection circuit (5, fuse or car breaker), and attached to the outside of the transformer to operate the special high voltage switch when the operator replaces the new transformer with a mechanical (physical) A switch 4 is provided, and a coiled coil 6 for lowering the extra high voltage power supply to a voltage required for home and industrial complexes is provided. An elbow 9 is installed outside the transformer to easily connect the low voltage side power source, and is located between the winding coil and the elbow for the operator's convenience, and the switching means can cut off the low voltage side power source. It consists of (7). Next, a process in which transformer replacement work is performed uninterrupted by directly employing a transformer having a special high voltage switch designed / manufactured as described above will be described in detail with reference to FIG. 5. In order to achieve a specific configuration (refer to FIG. 3) in order to replace the transformer with a new transformer, a) three-phase or single-phase extra-high voltage power can be simultaneously cut off at the extra-high voltage side inside the transformer (1). (B) an elbow insert (2) connected to the special high voltage switch (directly connected) and installed outside of the transformer, and c) a transformer protection circuit for protecting the transformer in the event of an overload or a short circuit of the power supply. 5) and, d) a coil (6) designed with a suitable winding ratio for dropping the 22.9 kV extra-high voltage power supply to 220 V / 380 V, and e) a switch to cut off the low-voltage power supply of the transformer (7). ), F) an elbow (9) connected to the power circuit breaker (load side) of the low pressure side and g) a mechanical switch attached to the outside (outside) of the transformer to operate the switch if necessary. It is a structure provided with (4) and can cut off the special high voltage power when necessary. The high voltage switch built into the transformer according to the present invention (switch) for the case of so excellent ability to block a high voltage three-phase or single-phase power from the various switches at the same time that SF ₆ gas circuit breaker SF ₆ gas circuit breaker described primarily Let's do it. The opening and closing of the SF ₆ gas circuit breaker is by mechanical (physical) means. When a transformer designed for the present invention as described above is to be replaced with a new transformer in one of the underground lines, a) after loop operation of the 22.9KV distribution line, b) transformer # 2 ( Switch off the switch 4 incorporated in Fig. 5 (a) with a switch attached to the outside of transformer # 2, and c) Switch off switch 5 embedded in transformer # 3 (see Fig. 5 (a)). After turning off the switch attached to the transformer # 3, d) the elbow (4) attached to the transformer # 2 (see Fig. 5 (a)) is separated from the transformer # 2 junction (Fig. 5 (a) #). 5) and e) connected to the junction and construction transformer (corresponding to (a) # 4 of FIG. 5) through the elbow (4) and embedded in transformer # 3 (see (a) of FIG. 5). Switch (5) is turned on by a switch attached to the outside of transformer # 3, f) and the switch (8) built in transformer # 4 is turned on by a switch attached to the outside of transformer # 4 transformer # 2 (Fig. (a) # 2) and construction stools A special high voltage power supply is simultaneously supplied to the inflator (Fig. 5 (a) # 4). g) Check whether the voltage of the low voltage side supplied from transformer # 2 (Fig. 5 (a) # 2) and the low voltage side supplied from transformer # 4 (Fig. 5 (a) # 4) is in phase, and h If the phases are the same, the low voltage side of transformer # 2 (Fig. 5 (a) # 2) and the low voltage side of construction transformer # 4 (Fig. 5 (a) # 4) are operated in parallel. i) After parallel operation, if the load supplied from transformer # 2 (Fig. 5 (a) # 2) is separated from the transformer, j) the full load supplied from transformer # 2 (Fig. 5 (a) # 2) is used for construction purposes. Transformer # 4 (converted to Fig. 5 (a) # 4) is supplied. In this way, uninterruptible power is completely separated from the load supplied from transformer # 2 and supplies power to homes or industrial complexes (loads) by construction transformer # 4. The present invention can use a switch for low-pressure side break even during low-pressure side construction can be easy to work and improve the safety of the operator. Next, in order to separate the left side of the transformer # 2 from the power supply line, l) switch off the switch (3) built in transformer # 2 (Fig. 5 (a) # 2) with a switch attached to the outside of transformer # 2, m) After switching off the switch (2) built in the transformer # 1 (Fig. 5 (a) # 1) with a switch attached to the outside of the transformer # 1, separate the elbow (3) connected to the transformer # 2. n) Remove transformer # 2 to be replaced. When the transformer replacement is completed, to connect the power supply line to the switch of new transformer # 2 ', o) connect the elbow (2) and the cable drawn from transformer # 1 (Fig. 5 (a) # 1) to the new transformer #. Connected to the elbow (3) 'of 2' (Fig. 5 (b) # 2 '), and p) the switch integrated into transformer # 1 (Fig. 5 (b) # 1) and the built-in transformer # 2'. When the switch 3 'is turned on with a switch attached to the outside of the transformer, the new transformer # 2' is pressed. Then connect the low-side power supply, which was removed from transformer # 2, which needs to be replaced, in the same operation as above to operate in parallel. q) Remove the low pressure of the construction transformer # 4 (Fig. 5 (b) # 4) and release the parallel load supply. To remove the junction, switch off the switch 8 built in construction transformer # 4 (Fig. 5 (b) # 4) with a switch attached to the exterior of transformer # 4, r) transformer # 3 (Fig. 5 ( b) Switch off the switch 5 built in # 3) with a switch attached to the outside of transformer # 3. s) Disconnect and remove junction # 5. t) Connect the elbow insert 4 'of transformer # 2' (Fig. 5 (b) # 2 ') and the elbow 5 of transformer # 3 (Fig. 5 (b) # 3). u) The switch 5 built in transformer # 3 (Fig. 5 (b) # 3) and the switch 4 'built in the new transformer # 2' (Fig. 5 (b) # 2 ') are outside the transformer. When the switch attached to the switch is replaced with transformer # 2 (Fig. 5 (a)) of the new transformer # 2 '(Fig. 5 (b)) to replace the transformer is uninterrupted. The 22.9KV distribution line terminates the loop operation and supplies all power to the newly replaced transformer. This process allows underground transformers to be replaced without power outages. The switch for cutting off the high voltage three-phase or single-phase power source allows to simultaneously switch the high voltage three-phase or single-phase power source. In addition, the switch for shutting off the three-phase or single-phase special high-voltage power supply (4 in Figure 3) is installed in a position that can be conveniently used by the operator on the outside (outside) of the transformer and can be turned on or off by mechanical (physical) movement It is installed as a structure. In addition, the on-off position of the switch 4 is displayed so that the operator can always check. As such a device, it is preferable to use a SF ₆ gas circuit breaker capable of simultaneously opening and closing three-phase or single-phase high voltage power supply. Among the terms described above in connection with the present invention, circuit breakers, switches and switching means are terms having almost the same meaning.

The present invention is to replace the new transformer or new transformer with a built-in high-voltage power cut-off switch that can switch the special high voltage three-phase or single phase at the same time, the high-pressure side and the low-pressure side (load side) coming from the transformer for the user's convenience By attaching elbow inserts and elbow terminals to the transformer, it is possible to work uninterrupted during the working hours when replacing a new transformer due to transformer aging or failure on the underground line, thus preventing inconvenience or economic loss of many homes or businesses. In addition, there is an elbow insert on the outer side (outside) of the transformer and the elbow terminal on the low pressure side has an effect that makes it easy for workers to work when replacing the transformer.

1 is a structure of the elbow for underground line with a switch function.

Figure 2 is a position of the extra-high pressure switch for underground lines according to the present invention.

Figure 3 is a transformer with a built-in switch that can open and close the extra high voltage power in accordance with the present invention.

4 is a cross-sectional view of a transformer with a built-in switch according to the present invention.

Figure 5 is an illustration of an embodiment of the present invention. (Before (a) and # 2 'replacement (b) of transformer # 2).

<Description of drawing number>

1, 35: transformer,

3: high-pressure switch (three-phase or single-phase open and close simultaneously)

11, 15, 21, 25: switchgear,

12, 13, 14, 22, 23, 24: transformer,

31, 32: high pressure switch, 33, 34: elbow,

# 1, # 2, # 3, # 4: transformers for underground lines, (# 2 ': new transformer, # 4: public transformer),

# 5: junction,

(1), (2), (3), (4), (5), (6), (7), (8): Elbow insert switch.

Claims (6)

In the transformer that can open and close the high voltage side power supply for replacing the transformer installed in the underground line with the uninterrupted work, An elbow insert installed on the outside to connect the 22.9 kV extra-high voltage power supply; It is built in the transformer, the inside and the switchgear having excellent extinguishing capacity and insulation strength and filled with SF _{6 which} is an inert gas that is easy to open and close the special high-voltage power supply, and can simultaneously cut off three-phase or single-phase special high-voltage power supply, A transformer protection circuit composed of a fuse or an automotive circuit breaker to prevent damage to the transformer by an overload or a short circuit current; Switching means attached to the outside of the transformer to mechanically cut off the high-voltage power supply for the operator to operate the extra-high voltage switch during the replacement operation with the new transformer, Winding coil for dropping the extra high voltage power to the voltage required for home and industrial complexes, Switching means which is located between the winding coil and the elbow insert on the low voltage side to cut off the low voltage side power for convenience in work; Underground line transformer with a built-in high voltage switch having an elbow insert on the outside of the transformer to easily connect the power supply of the low voltage side. delete delete delete delete delete