KR101334976B1 - Sub-station - Google Patents

Abstract

The present invention provides a sub-station comprising a case; an extra high voltage unit which is installed inside the case to be filled with insulating gas and to receive an extra high voltage; a transformer which transforms the extra high voltage to a low voltage; a low voltage unit which is installed inside the case to be divided from the extra high voltage unit, is arranged movably in the back and forth direction and distributes the low voltage to a receptor; and a moving arrangement unit which movably arranges components included in the extra high voltage unit to the predetermined horizontal and vertical positions.

Description

Water substation facility {SUB-STATION}

The present invention relates to a water substation facility, and more particularly, to independently adjust the optimum arrangement of the devices of the high voltage section, and to select only the devices whose insulation ability is relatively reduced to form an independent insulation space. It is to provide a water substation facility that can maximize safety with a complete shielding structure of insulation sealing.

In general, water substation equipment is installed in a power plant, substation, or a building equipped with an electric facility. A safety device, an instrument, an indicator, a relay, and the like are disposed therein to facilitate the opening and closing of a converter or to control a device. do.

The water substation facility is divided into a special high voltage part and a transformer part, and the special high pressure part functions to receive electricity from a high pressure or a special high voltage supplied from the outside, and the transformer part decompresses electricity of a high pressure or a special high pressure to a load of a customer. The low pressure section functions to send low voltage electricity to multiple loads.

In the conventional air insulation type water substation equipment, since the high voltage part and the transformer part constituting the water substation must maintain the insulation distance to insulate each other, the volume of the water substation facility is increased and the weight is also increased, so that the water substation facility is installed. It is not easy to carry and install the water substation equipment.

In addition, since the outside of the charging section (connection point between the conductors) of the extra-high voltage section and the transformer section is not insulated, there is a high risk of electric shock.

In other words, if the water substation is installed in a basement or outdoors with high humidity, it may cause a safety accident due to leakage current of the high voltage section, transformer section, and low voltage section. Therefore, waterproof the space where the water substation facility will be installed before installing the water substation facility. In addition, the manager must check the humidity of the space where the water substation is installed.

It is an object of the present invention to realize the complete shielding of the water substation facility, to variably adjust the optimum arrangement state of each of the devices of the high-voltage unit, and to independently select only the devices whose insulation ability is relatively reduced. It is to provide a water substation facility that maximizes safety by forming a phosphorus insulation space and a complete shielding structure of insulation sealing.

In a preferred embodiment, the present invention provides an apparatus comprising: a case; An extra high pressure unit installed in the case and filled with an insulating gas to receive an extra high pressure; A transformer unit installed in the case and transforming the extra high pressure to low pressure; A low pressure part installed to be partitioned from the special high pressure part in the case, and disposed to move along the front and rear sides and to distribute the low pressure to an accommodation destination; And a movement arrangement unit disposed in the extra high pressure unit, and configured to variably arrange the components included in the extra high pressure unit in a predetermined horizontal and vertical position.

The extra-high pressure unit has an inner space filled with the insulating gas, and includes an inner case in which the component devices are disposed, and the movement disposition unit is installed in the inner case and moves a plurality of components to move each of the component devices. It is provided with, the drive is controlled by the controller.

Each of the movement arranging units includes a lifting shaft having a connecting shaft for connecting the side of the component device, a lifting unit for lifting the connecting shaft, a multi-joint rod connected with the lifting unit, and horizontally positioning the configuration device, And a rotor for horizontally rotating the articulated rod by receiving a control signal from the controller.

The controller preferably controls driving of the lifting unit and the rotor to move each of the components to a predetermined vertical and horizontal position of each of the components.

The water substation facility has an independent insulation.

'형상으로 형성되는 다수의 절연캡과, 상기 다수의 절연캡을 승강시키는 캡 승강기와, 상기 다수의 절연캡 각각에 진공을 제공하는 다수의 독립 진공 제공기와, 상기 다수의 절연캡 각각에 설치되며, 상기 구성 장치들 각각의 전자파를 측정하는 다수의 전자파 측정기를 구비한다.The independent insulation is disposed above each of the constituent devices at an upper end side of the inner case, and a lower end thereof is opened.

A plurality of insulating caps formed in a shape, a cap lift for elevating the plurality of insulating caps, a plurality of independent vacuum providers for providing a vacuum to each of the plurality of insulating caps, and installed in each of the plurality of insulating caps And a plurality of electromagnetic wave measuring devices measuring electromagnetic waves of each of the components.

The controller receives electromagnetic waves of each of the components from the plurality of electromagnetic wave measuring instruments, selects a component that exceeds a predetermined reference electromagnetic wave, and caps an insulation cap positioned at an upper portion of the selected component. The elevator is lowered by using an elevator and sealed, and the vacuum is set in the inner space of the sealed insulation cap by using the independent vacuum provider.

A gas injector for injecting the insulating gas is connected to the inner case, and the gas injector is installed in the inner case, and measures the inner gas pressure of the inner case to transmit the measured gas pressure to the controller. A pressure gauge and a gas supplier detachably installed in the inner case and receiving or receiving a signal from the controller to inject or close the insulating gas into the inner case;

The controller controls the driving of the gas supplier so that the measured gas pressure reaches a preset reference pressure.

Further, a plurality of moving devices are provided at the bottom of the case in which the low pressure part is located to move the low pressure part forward, backward, and up and down of the case.

Each of the plurality of moving devices, a rail having a predetermined length along the front and rear of the case at the bottom of the case, a movable body installed on the rail to move along the rail, and is installed on the upper end of the movable body, A lifting body for elevating the low pressure portion, and a temperature sensor for measuring the internal temperature of the case in which the low pressure portion is located at a plurality of positions.

The controller may be configured to move the low pressure part by driving the moving body and the lifting body to a position where the measured internal temperatures of the case reach a preset reference temperature or fall within a predetermined proximity range.

The present invention in consideration of the electrical characteristics of each of the plurality of constituent devices included in the high-pressure unit, by adjusting the arrangement position of the devices horizontally with each other to minimize the electrical interference between each other to prevent errors during operation Has an effect.

In addition, the present invention has the effect of selecting the components of the relatively low insulation performance, and can independently insulate only the selected components.

In addition, the present invention has the effect of moving the position of the low pressure portion to the lower or rear space partitioned from the extra high pressure portion, to effectively use the internal space of the overall water substation installation.

1 is a front view showing the water substation facility.
Figure 2 is a side view showing the movement arrangement according to the present invention.
3 is a plan view showing the constituent devices arranged by the movement arranging unit according to the present invention.
4 is a view showing a state that is independently insulated by a heat insulation cap according to the present invention.
5 shows a mobile device according to the invention.

Hereinafter, with reference to the accompanying drawings will be described the water substation facility of the present invention.

1 is a front view showing a water substation installation, FIG. 2 is a side view showing a moving arrangement according to the present invention, FIG. 3 is a plan view showing constituent devices arranged by the moving arrangement according to the present invention, 4 is a view showing a state that is independently insulated by a heat insulation cap according to the present invention.

1 to 4, the present invention is a case 100; An extra high pressure unit 200 installed in the case 100 and filled with an insulating gas to receive an extra high pressure; A transformer unit (not shown) installed in the case 100 and transforming the extra high pressure to low pressure; A low pressure part (300) installed to be partitioned from the extra high pressure part (200) in the case (100), movable in front and rear, and distributing the low pressure to an accommodation destination; And a movement arranging unit 700 disposed in the extra-high pressure unit 200 to variably displace the component devices 10 included in the extra-high pressure unit 200 to a predetermined horizontal and vertical position P. FIG. .

The extra-high pressure unit 200 has an inner space in which the insulating gas is filled, and has an inner case 250 in which the component devices 10 are disposed.

The movement placement unit 700 is installed in the inner case 250, and is provided in plural to move each of the component devices 10.
In addition, the movement placement unit 700 is controlled to drive by the controller (800).

Each of the plurality of moving arrangement units 700 includes a connecting shaft 712, a lifting unit 710, an articulated rod 720, and a rotator 730.
The connecting shaft 712 connects the side of the component device 10.
The lifting unit 710 has an elevator 711.
The articulated rod 720 is connected to the lifting unit 710 to serve to horizontally position the component device 10.
The rotor 730 receives a control signal from the controller 800 and serves to horizontally rotate the articulated rod 420.
Here, the controller 800 drives the elevating unit 700 and the rotor 730 to move each of the components 10 to a predetermined vertical and horizontal position of each of the components 10. To control.

delete

On the other hand, the water substation facility has an independent insulation (900).

'형상으로 형성되는 다수의 절연캡(910)과, 상기 다수의 절연캡(910)을 승강시키는 캡 승강기(920)와, 상기 다수의 절연캡(910) 각각에 진공을 제공하는 다수의 독립 진공 제공기(930)와, 상기 다수의 절연캡(910) 각각에 설치되며, 상기 구성 장치들(10) 각각의 전자파를 측정하는 다수의 전자파 측정기(940)를 구비한다.The independent insulation unit 900 is disposed on the upper portion of each of the components 10 at the upper end side of the inner case 250, and the lower end thereof is opened.

A plurality of insulating caps 910 formed in a shape, a cap lift 920 for elevating the plurality of insulating caps 910, and a plurality of independent vacuums providing a vacuum to each of the plurality of insulating caps 910. It is provided with a provider 930 and the plurality of insulating caps 910, and a plurality of electromagnetic wave measuring instrument 940 for measuring the electromagnetic waves of each of the components 10.

The controller 800 receives electromagnetic waves of each of the component devices 10 from the plurality of electromagnetic wave detectors 940 and selects a component device that exceeds a predetermined reference electromagnetic wave.
In addition, the insulating cap 910 positioned on the selected component 10 is lowered by using the cap lifter 920 to be sealed, and then the sealing is performed by using the independent vacuum provider 920. The vacuum is set in the inner space of the insulating cap 910 is formed.

The cap lift 920 in the present invention may use a device such as a cylinder using pneumatic.

Here, the independent vacuum provider 930 is connected to form a vacuum in the inner space of the insulating cap 910 through the upper end of the insulating cap 910 using a flexible tube 931.

Although not shown in the drawings, the above-described configurations disposed inside the high pressure unit 200 are accommodated in the inner case 250, so that the accident is expanded to the outside of the high pressure unit 200 when an accident such as an internal short circuit occurs. In addition, the inner case 250 may be formed to have a multi-layer vacuum layer (not shown), thereby protecting multiple external shocks.

In addition, a gas injection unit for injecting the insulating gas is connected to the inner case 250.

The gas injector is installed in the inner case 250, and measures the internal gas pressure of the inner case 250 to transmit the measured gas pressure to the controller 800, and the Removably installed in the inner case 250, and receives a signal from the controller 800 is provided with a gas supply 400 for injecting or closing the insulating gas into the inner case 250. The opening and closing of the gas is made through the solenoid valve 410, which is opened and closed by the controller 800.

The controller 800 controls the driving of the gas supplier 400 such that the measured gas pressure reaches a preset reference pressure.

Through the configuration as described above, the embodiment according to the present invention in consideration of the electrical characteristics of each of the plurality of constituent devices included in the extra-high pressure unit, by adjusting the arrangement position of the devices horizontally with each other to prevent electrical interference between each other Minimize operation to prevent errors.

In addition, the embodiment according to the present invention can screen the components of the relatively low insulation performance, and can independently insulate only the selected components.

In addition, the embodiment according to the present invention can move the position of the low pressure portion to the lower or rear space partitioned with the extra high pressure portion, it is possible to efficiently use the internal space of the overall water substation equipment.

5 shows a mobile device according to the invention.

5, at the bottom of the case 100 in which the low pressure part 300 is located, a plurality of moving devices 1000 for moving the low pressure part 300 up and down and up and down of the case 100. ) Is installed.

Each of the plurality of moving apparatuses 1000 may include a rail 1100 having a predetermined length along the front and rear of the case 100 at the bottom of the case 100, and the rails to be moved along the rail 1100. The movable body 1200 installed on the 1100, the upper body of the movable body 1200, the elevating body 1300 for elevating the low pressure unit 300, and the low pressure unit 300 is located The temperature sensor 1400 which measures the internal temperature of the case 100 at a plurality of positions is provided.

The lifting body 1300 has a lifting shaft portion 1310 to be moved up and down by the control signal of the controller 800 to lift the low pressure unit 300.

The controller 800 drives the moving body 1200 and the lifting body 1300 to a position where the measured internal temperatures of the case 100 reach a preset reference temperature or are included in a predetermined proximity range. The low pressure portion 300 may be moved.

Although the embodiments of the present invention have been described above with reference to the accompanying drawings, the present invention is not limited to the above embodiments, but may be manufactured in various forms, and having ordinary skill in the art to which the present invention pertains. It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without changing to the spirit or essential features of the invention. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100: case 200: extra high pressure
250: inner case 290: vacuum provider
300: low pressure unit 400: gas injection unit
600: horizontal plate 700: moving arrangement
800 controller 1310 lifting shaft part

Claims (3)

An extra high pressure unit installed in the case and filled with an insulating gas to receive an extra high pressure;
A transformer unit installed in the case and transforming the extra high pressure to low pressure;
A low pressure part installed to be partitioned from the special high pressure part in the case, and disposed to move along the front and rear sides and to distribute the low pressure to an accommodation destination; And
It is disposed in the extra-high pressure unit, and includes a movement arrangement unit for variable movement arrangement of the components included in the extra-high pressure unit in a predetermined horizontal and vertical position,
The extra-high pressure unit has an inner space filled with the insulating gas, and includes an inner case in which the component devices are disposed.
The movement arranging unit is installed in the inner case, is provided in plurality to move each of the component devices, the drive is controlled by a controller,
Each of the moving arrangements may include a lifting shaft having a connecting shaft for connecting the side of the component device, a lifting unit for elevating the connecting shaft, a multi-joint rod connected with the lifting unit, and horizontally positioning the configuration device; A rotator configured to receive a control signal from the controller and horizontally rotate the articulated rod,
And the controller controls driving of the lifting unit and the rotor to move each of the components to a predetermined vertical and horizontal position of each of the components.
delete The method of claim 1,
The water substation facility has an independent insulation,
The independent insulation unit,
Disposed on an upper portion of each of the components on an upper side of the inner case, and a lower end thereof is opened;

'Large number of insulating caps,
A cap lifter for elevating the plurality of insulating caps,
A plurality of independent vacuum providers for providing a vacuum to each of said plurality of insulating caps;
Installed in each of the plurality of insulating caps, and provided with a plurality of electromagnetic wave measuring instruments for measuring the electromagnetic waves of each of the components,
The controller,
Receiving electromagnetic waves of each of the components from the plurality of electromagnetic wave measuring instruments, to select a component device that exceeds a predetermined reference electromagnetic wave, and to use the cap lift with an insulating cap located above the selected component device Sealing by lowering, and using the independent vacuum provider to form a vacuum set in the inner space of the sealed insulating cap,
The inner case is connected to the gas injection unit for injecting the insulation gas,
The gas injection unit is installed in the inner case, a pressure measuring device for measuring the internal gas pressure of the inner case, and transmits the measured gas pressure to the controller, and detachably installed in the inner case, the controller A gas supply unit receiving a signal from the gas supply unit to inject or close the insulating gas into the inner case,
The controller controls the driving of the gas supplier so that the measured gas pressure reaches a preset reference pressure,
In the bottom part of the case in which the low pressure part is located, a plurality of moving devices for moving the low pressure part forward, backward and upward of the case are provided.
Each of the plurality of mobile devices,
A rail having a predetermined length along the front and rear of the case at the bottom of the case;
A movable body installed on the rail to move along the rail,
A lifting body installed at an upper end of the moving body and lifting the low pressure part;
It is provided with a temperature sensor for measuring the internal temperature of the case in which the low pressure portion is located at a plurality of positions,
The controller may be configured to move the low pressure part by driving the moving body and the lifting body to a position where the measured internal temperatures of the case reach a preset reference temperature or fall within a predetermined proximity range. equipment.

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