KR20120018943A - Water electric change device of cubicle form - Google Patents

Abstract

PURPOSE: A transformer apparatus with a cubicle shape is provided to rapidly check an accident like an electric shock by forming a projection window to check the inside of the transformer board. CONSTITUTION: A transformer apparatus(10) comprises a plurality of transformer boards(11-13). A projection window(15) is installed in a door(14) or the whole surface of the transformer board to check the inside of the transformer board. The projection window is made of reinforcement glass or reinforcement plastic.

Description

Water Electric Change Device of Cubicle Form

The present invention relates to a cubicle-type water substation apparatus, and more particularly, to provide a cubicle-type water substation facility that enables the inside of the substation to be checked even if the inside of the substation is not entered into the substation. have.

In private electric facilities such as buildings and factories, there is a large amount of power demanded, so it is impossible to receive electricity that can be used as it is by a power company, such as low-voltage general electric facilities of 380V and 220V.

Therefore, in general private electric equipment, in general, high voltage of 22,900V is received from the distribution line of substation and transformed into commercial voltage.In particular, private electric equipment of large building receives 22.9kV special high voltage and does not transform into commercial voltage It must be done, and the device that enables this is the water substation facility.

The water substation equipment includes a power receiving facility for receiving high voltage and special high pressure supplied from a substation, a substation facility for stepping down high voltage and special high voltage received from a substation to a commercial voltage, electrical equipment of each part of the building, Distribution equipment for supplying lights and switch devices and other safety devices are integrally formed to supply electricity safely and efficiently into the building.

1 shows an external view of the water substation 100 according to the prior art, and FIG. 2 shows a disconnection diagram of the water substation 100 according to the prior art, and FIGS. 3A and 3B show the prior art. An internal structure diagram of the water transformer 100 is shown. The high voltage power is received from the substation through the distribution system consisting of overhead distribution lines and underground distribution lines to the water substation apparatus 100 of each consumer, and the high voltage power thus supplied is supplied through the water substation apparatus 100 shown in FIGS. 1 to 3B. It is stepped down to the commercial voltage and supplied to the customer.

At this time, there are a number of methods of receiving power by a high-voltage consumer power distribution apparatus, such as a cubicle type using a panel, a frame type to receive power by installing a frame, and an H-type transformer power receiving method to receive power by using electric poles. The water substation device 100 is a general cubic type special high voltage water substation using a panel as shown in FIG. 1, and includes a power panel A ′ for receiving high and special high pressures supplied from a substation and a substation. It includes the first and second substations (B ', C') for supplying to the electric equipment, lighting, etc. of each part by stepping down the received high voltage to commercial voltage.

As shown in FIG. 2, the switchboard A 'is provided with an inlet 101 receiving power from a distribution line and an automatic section switch installed on a load disconnection line sending power supplied through the inlet 101. (103), an arrester (105) mounted to protect the load disconnection line in the event of an abnormal voltage in the load disconnection line, a power receiving power fuse (107) for protecting downstream equipment during overcurrent energization, and a transformer for power supply An integrated power meter 111 is connected to the current transformer 109 to measure the amount of power.

In addition, the transformer transformer current transformer 109 is connected to transformers 113a and 113b respectively installed in the first and second substations B 'and C' and stepping down the received high voltages to commercial voltages required by the user. In the first and second substations B 'and C', substation power fuses 115a and 115b are installed on the primary sides of the transformers 113a and 113b to protect the transformers 113a and 113b, Installed on the secondary side of the transformer (113a, 113b) and the parking circuit breakers (117a, 117b) to cut off the commercial voltage when necessary, and a plurality of wiring breakers connected to the parking circuits (117a, 117b) and cut off each load if necessary It consists of 119a and 119b. The 22.9 kV power supplied from the substation enters the termination member 121 through the inlet 101 and the inlet 101 is fixed to the insulator fixed to the enclosure, and the conductor 123 fixed to the insulator is an automatic section switch. It is connected to the primary side of 103.

The automatic section switch 103 can be used as a disconnector or switch according to the use condition, and is intended to open and close a rated load during operation. The secondary side is connected to the faucet power fuse 107 through the conductor 125. The power fuse 107 serves to prevent accident propagation to the front end in the event of an accident between loads, and can be easily replaced when melted due to an accident current.

In addition, since the arrester 105 is installed through the conductor 127 connected in parallel to the conductor 125, when an abnormal voltage is generated, the arrester 105 is connected to the ground. The secondary side of the power receiving power fuse 107 is connected to the transformer transformer current transformer 109 for power supply at the bottom through the conductor 129 and the transformer transformer current transformer for power supply and supply 109 through the conductors (131a, 131b) The transformers 113a and 113b are connected to each other, and the substation power fuses 115a and 115b are installed on the conductors 131a and 131b to protect the transformers 113a and 113b.

Since the secondary side of the transformers 113a and 113b has a low pressure and a large capacity, the conductors 133a and 133b have a narrower insulation distance than other conductors, and the parking short circuits 117a and 117b have a larger cross-sectional area. The parking circuit breakers 117a and 117b use a crane short circuit or a magnetic circuit breaker (MCCB) according to the load, and a plurality of circuit breakers 119a119b are used by determining a branch circuit required on the secondary side.

However, the normal water substation equipment has the door itself sealed in the state that the outside is blocked by the frame, so there is no way to check the state of each substation from the outside of the substation equipment. There was a problem to check the inside in the state of blocking the worker, and the human body of the worker causes extreme fatigue by the magnetic field generated by the high voltage flowing inside when the worker enters the water substation facility for a long time and checks the switchboard. In addition, there were problems causing various diseases.

In addition, when the worker is working in the closed state when an accident such as an electric shock occurs in the interior, there is a problem that can not be immediately known from the outside prompt action can not be made immediately.

The present invention was devised to solve the above problems, and an object of the present invention is to be able to check the inside of the substation from the outside, so that the inside of the substation can be checked even if it does not enter the inside of the substation. To provide substation equipment.

The present invention has the following structure in order to achieve the above object.

In the cubicles-type water substation apparatus consisting of a plurality of substations of the present invention, each substation is provided with a projection window for projecting the inside.

The projection window is also formed on the entire surface of the substation board.

And it is preferable that the projection window is formed in the door, the projection window is formed of any one of tempered glass or reinforced plastic.

According to the present invention, it is possible to check the inside of the substation from the outside, there is an effect that can check the inside even if one does not enter inside the substation.

1 is a front view showing a water substation facility of the prior art.
FIG. 2 is a block diagram illustrating a circuit system of the water substation shown in FIG. 1.
3A and 3 are plan views showing a substation board of the related art.
4 is a front view of the water substation apparatus of the present invention.
5 is a side cross-sectional view.
6 is a view showing the shape of a projection window.
7 is a circuit block diagram for alerting a worker's working time.

According to the present invention, in the cubicles-type water substation apparatus 10 including a plurality of substation panels 11, 12, and 13, the projection windows 15 projecting the inside of each substation panel 11, 12, 13 are projected. ) Is provided.

In addition, the projection window 15 may be formed on the entire surface of the substation boards 11, 12, 13.

And the projection window 15 is formed in the door 14, it is preferable to be formed of any one of tempered glass or reinforced plastic.

Hereinafter, with reference to the accompanying drawings will be described an embodiment of the present invention.

4 and 5, since the internal structure of the water substation 10 is the same shape as mentioned in the prior art, in the present invention, a plurality of substations 11 constituting the water substation 10. Each of the doors 14 and 12 constitutes a projection window 15, and through the projection window 15, the devices configured in the substation panel can be externally monitored.

In addition, the projection window 15 is made of either tempered glass or tempered plastic, and may be configured for the entire surface of the substation panels 11, 12, 13, although not shown in the drawing. That is, the entire side surface of the substation panels 11, 12, 13 is formed of the projection window 15 so that the inside of the substation panel can always be inspected from the outside, so that when an abnormality occurs in the substation panels 11, 12, 13 immediately. It is to be able to cope.

On the other hand, when the projection window 15 is installed in a portion of the door 14 in the form of a flat plate, the portion adjacent to the door 14 should be confirmed by opening the door 14 directly, as shown in FIG. When installed to protrude into the inside of the 12, 13, it is easy to check the up, down, left and right directions of the portion close to the door (14).

That is, it is possible to check the operator's head to the concave portion projecting inward of the substation boards (11, 12, 13).

As the projection window 15, a hemispherical projection window 15-1 as shown in FIG. 6 (a) or a rectangular box projection window 15-2 with an open front surface as shown in FIG. 6 (b) may be used. Can have

As a result, the operator can check the state inside the substation panels 11, 12, and 13 without opening the door 14, and when the worker is working inside, the outside worker can easily check the activity of the inside worker. In the event of an accident, external workers can take action quickly.

On the other hand, since the worker's human body may cause accidents and various diseases caused by extreme fatigue when the worker works for a long time in the interior of the substation panels 11, 12, and 13 It is a good idea to let them know so they can relax.

To this end, in the present invention, the human body detecting sensor 17, such as an infrared sensor, is installed inside the substation panels 11, 12, and 13, and when the body of the worker is detected by the human body detecting sensor 17, the processor 16 The timer 18 is driven to count the time.

When the time counted from the timer 18 becomes a preset first set time (for example, 20 minutes) and an operator is detected by the human body sensor 17, the processor 16 outputs an alarm generation signal to change the time. Through the alarm unit 19 installed inside or outside the first half 11, 12, 13, a visual or audio alarm is generated for a predetermined time (for example, 10 seconds) to allow the inside or outside worker to recognize this. .

Of course, if no operator is detected within the first set time, the alarm process is terminated.

After the alarm is terminated by the alarm unit 19, the processor 16 initializes the timer 18 and monitors the presence of the worker again through the human body sensor 17 to monitor the timer 18 if the worker is still present. By driving, the second set time (for example, 10 minutes) is counted to determine whether an alarm is generated as described above.

After the occurrence of the alarm by the second setting time, an alarm is generated for the third setting time (eg, 5 minutes) and the fourth setting time (eg, 2 minutes) according to the presence of the operator. After termination, the processor 16 generates a continuous alarm through the alarm unit 19 until no operator is detected from the human body sensor 17, thereby avoiding the operator from inside the substations 11, 12, and 13 By doing so, you can prevent accidents.

The processor 16 is operated by receiving power from the battery 21, which is operated when the power is cut off during the internal work of the substation panels 11, 12, and 13 so that the processor 16 receives power from the battery 21. The battery 21 has a structure in which the commercial power supplied from the substation facility is normally charged through the charging circuit 20 and charged to the processor 16.

10: water substation device 11, 12, 13: substation board
14 door 15 projection window

Claims (3)

In the cubicle-type water substation device consisting of a plurality of substations,
Each substation has a cubicles-type water substation, characterized in that the projection window for projecting the inside is provided. The method of claim 1,
The projection window is a cubicle-shaped water substation device, characterized in that formed on the entire surface or the door. The method of claim 1,
A human body sensor installed inside the substation to detect a body of an operator;
A processor for driving a timer according to the output from the human body sensor and outputting an alarm generation signal after a counted set time;
A timer driven by the control of the processor to count time;
And an alarm unit installed inside or outside the substation to generate a visual or audio alarm by the output of the processor.
The processor stores a plurality of set time information of the set time gradually decreases, and controls the alarm unit to generate an alarm every time a plurality of set time elapses while the output from the human body sensor is generated. Cubicle type water transformer.

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