KR200491837Y1 - Rotor ground detector test device - Google Patents

Abstract

A rotor ground monitoring test device is provided to monitor the rotor ground condition during generator operation. Rotor ground monitoring test apparatus according to an embodiment of the present invention includes a body portion for monitoring the rotor ground state during operation of the generator; A seating portion which is attached to the body portion to which the terminal block and the control card are seated; And a cable connected to the terminal block and directly connected to the control card. Thereby, the control card is fixed, and the cable connected to the terminal block is directly connected to the control card to prevent the movement of the control card, to prevent measurement errors, and to make wiring easier and simpler for measurement. It is possible to keep the connection between the control card and the cable stable, shorten the working time for measurement, improve work convenience, and secure safety by preventing incorrect wiring.

Description

Rotor ground detector test device

The present invention relates to a rotor ground monitoring test device, and more particularly, to a rotor ground monitoring test device for monitoring the rotor ground state during operation of the generator.

In the conventional method of inspecting the grounding state of the generator rotor, a method of measuring the integrity points of the devices (TIP Point) using a circuit tester after connecting the control card in an unfixed state was used.

However, these inspection methods require a long working time when measuring the health check terminals of devices, or the measurement wiring is not normally performed or measurement errors due to the movement of the control card in an unfixed state occur, or the control card There is a fear that the connected cable may fall off, and there is inconvenience that the cable may be shorted while moving.

The present invention was devised to solve the above problems, and the purpose of the present invention is to fix the control card and directly connect the cable connected to the terminal block to the control card to prevent movement of the control card and measure it. It is to provide a rotor ground monitoring test device that prevents measurement errors by making the wiring work for the operator easy and simple and maintains a stable connection between the control card and the cable.

Rotor ground monitoring test apparatus according to an embodiment of the present invention for achieving the above object, the body portion for monitoring the rotor ground state during operation of the generator; A seating portion which is attached to the body portion to which the terminal block and the control card are seated; And a cable connected to the terminal block and directly connected to the control card.

And at this time, the body portion may be installed on the shaft of the generator, and may include a transmitter to generate data about the rotor ground state and transmit it to the control card.

In addition, the transmitter may convert data about the rotor ground state into intensity of ultraviolet light to be transmitted.

The seating unit may further include a receiver installed on the outside of the generator to detect the intensity of ultraviolet light transmitted from the inside.

In addition, the control card can receive and analyze data about the rotor ground state from the receiver only when the generator is operating.

In addition, the control card may generate a warning message when it is determined that the ground current of the coil on the rotor side is 1.5 mA or more during generator operation.

In addition, the seating portion is implemented in the form of a thin plate, it is provided on the outside of the body portion, the fixing plate for fixing the control card; may further include.

The body portion further includes a plurality of first fixing holes provided at a plurality of points along the rim of the fixing plate, and the seating portion is individually drawn into the plurality of first fixing holes so that the fixing plate is fixed to the outside of the body portion. It may further include a plurality of first fixing member.

In addition, the seating portion, a plurality of second fixing holes provided at a plurality of points along the edge of the control card; And a second fixing member that is individually inserted into the plurality of second fixing holes to allow the control card to be fixed to the fixing plate.

And the body portion is provided on the outside, a DC input voltmeter for digitally indicating the input voltage of the DC power supply; An AC input voltmeter provided on one side of the DC input voltmeter and digitally representing the input voltage of the AC single-phase power supply; And a DC output ammeter provided on the other side of the DC input voltmeter to digitally represent the output current of the DC power supply.

As described above, according to the embodiments of the present invention, the control card is fixed, the cable connected to the terminal block is directly connected to the control card, the movement of the control card is prevented, measurement errors are prevented, and measurement is performed. For easy and simple wiring, the connection between the control card and the cable can be maintained stably, shortening the working time for measurement, improving work convenience, and securing safety by preventing incorrect wiring. .

1 is a view provided in the description of the rotor ground monitoring test apparatus according to an embodiment of the present invention,
2 is a view provided to explain the outer structure of the rotor ground monitoring test apparatus according to an embodiment of the present invention, and
3 is a view provided for explaining the wiring operation of the rotor ground monitoring test apparatus according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

1 is a view provided to explain the rotor ground monitoring test apparatus according to an embodiment of the present invention, and FIG. 2 is a view provided to explain the outer structure of the rotor ground monitoring test apparatus according to an embodiment of the present invention.

1 to 2, the present invention is to secure the control card 220, the cable 300 connected to the terminal block 240 is directly connected to the control card 220, the control card 220 ) To prevent movement, and to easily and simply perform the wiring work for measurement to prevent measurement errors, and to maintain a stable connection between the control card 220 and the cable 300, the body of the generator is formed. The body part 100 that monitors the rotor ground state during generator operation includes a seating part 200 and a cable 300 attached to the body part 100.

Specifically, the body portion 100, the transmitter 110, the enclosure 120, the automatic voltage regulator 130, AC input connection terminal 140, DC input connection terminal to monitor the rotor ground state during the generator operation 150, an AC input voltmeter 160, a DC input voltmeter 170, and a DC output ammeter 180.

The transmitter 110 may be installed on the shaft of the generator to generate data on the rotor ground state and transmit it to the control card 220.

Here, the generator in which the transmitter 110 is installed may be a brushless generator in which the field coil is fixed to supply excitation current directly to the field coil without the need for brushes and slip rings.

The enclosure 120 is provided to protect the inside from the outside, and the seating part 200 may be attached to one side.

The automatic voltage regulator 130 is provided to maintain the output voltage of the generator constant regardless of variations in load or speed.

The AC input connection terminal 140 and the DC input connection terminal 150 are provided for connection of AC and DC lines, respectively.

The AC input voltmeter 160, the DC input voltmeter 170, and the DC output ammeter 180 are provided in the enclosure 120, and are arranged in a line, so that the user can easily check each measured information.

Specifically, the DC input voltmeter 170 may digitally represent the input voltage of the DC power supply, and the AC input voltmeter 160 is provided on one side of the DC input voltmeter 170 to digitally input the input voltage of the AC single-phase power supply. Can be represented as In addition, the DC output ammeter 180 is provided on the other side of the DC input voltmeter 170 to digitally represent the output current of the DC power.

Here, when the input voltage of the DC power source is maintained at 30 V, when the output current of the DC power source is measured from 25 to 35 mA, it may be determined that the transmitter 110 operates normally.

The seating unit 200 may include a receiver 210, a control card 220, a fixing plate 230, a terminal block 240, a first fixing member 250 and a second fixing member 260.

The receiver 210 may receive data on the rotor ground state transmitted from the transmitter 110 and transmit it to the control card 220.

Specifically, the receiver 210 may be installed outside the enclosure 120 and receive data regarding a rotor ground state transmitted from the transmitter 110 installed inside.

The control card 220 may monitor the rotor ground state by analyzing data on the rotor ground state transmitted through the receiver 210.

Specifically, the control card 220 may receive and analyze data on the rotor ground state from the receiver 210 only when the generator is operating, thereby reducing unnecessary data processing burden, and the coil on the rotor side during generator operation. If it is determined that the ground current of 1.5mA or more, a warning message may be generated and transmitted to an LED lamp or a separate warning message output means.

The fixing plate 230 is provided so that the control card 220 is fixed. Specifically, the fixing plate 230 is implemented in the form of a thin plate, and is attached to the outside of the enclosure 120 to allow the control card 220 to be fixed.

In addition, the fixing plate 230 is provided at a position adjacent to the terminal block 240, so that the connection between the control card 220 and the cable 300 can be stably maintained.

The terminal block 240 is provided on one side of the fixed control card 220 to transmit data on the rotor ground state received from the receiver 210 to the control card 220, and the connected cable 300 is controlled It can be directly connected to the card 220.

The first fixing member 250 may be introduced into a plurality of first fixing holes provided in the enclosure 120 so that the fixing plate 230 is attached to the enclosure 120.

Specifically, the first fixing hole is provided at a plurality of points on the outside of the enclosure 120 along the rim of the fixing plate 230, so that the first fixing member 250 is inserted and attached, a female thread may be formed on the inner periphery, , The first fixing member 250 is implemented with a bolt, and is individually drawn into a plurality of first fixing holes, so that the fixing plate 230 is fixed to the outside of the enclosure 120.

The second fixing member 260 may be introduced into a plurality of second fixing holes provided in the fixing plate 230 so that the control card 220 is seated on the fixing plate 230.

Specifically, the second fixing hole is provided at a plurality of points of the fixing plate 230 along the edge of the control card 220, so that the second fixing member 260 is inserted and attached, female threads may be formed on the inner periphery, The second fixing member 260 is implemented with a bolt, and is individually drawn into a plurality of second fixing holes, so that the control card 220 can be seated on the fixing plate 230.

The cable 300 is connected to the terminal block 240, but is directly connected to the control card 220, thereby preventing incorrect wiring.

3 is a view provided for explaining the wiring operation of the rotor ground monitoring test apparatus according to an embodiment of the present invention.

In the rotor ground monitoring test apparatus according to the present embodiment, when the transmitter 110 converts and transmits data on the rotor ground state to the intensity of ultraviolet light, the receiver 210 receives the ultraviolet light transmitted from the transmitter 110. By detecting the intensity, information on this may be transmitted to the control card 220.

At this time, the receiver 210 and the control card 220 may be such that the cable 300 is directly connected to the control card 220 through the terminal block 240 as shown in FIG. 3.

The control card 220 analyzes data on the rotor ground state received from the receiver 210, and when it is determined that the ground current of the coil on the rotor side is 1.5 mA or more during generator operation, the LED lamp flashes in a warning manner. Can deliver a message.

In the above, although the preferred embodiment of the present invention has been illustrated and described, the present invention is not limited to the specific embodiments described above, and it is usually in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications can be implemented by a person having knowledge of these, and these modifications should not be individually understood from the technical idea or prospect of the present invention.

100: body 110: transmitter (transmitter)
120: enclosure
130: Automatic Voltage Regulator
140: AC input connection terminal 150: DC input connection terminal
160: AC Input Volt Meter
170: DC Input Volt Meter
180: DC output meter (DC Current Meter)
200: seating portion 210: receiver (aerial)
220: control card (Receiver) 230: fixed plate
240: terminal block 250: first fixing member
260: second fixing member 300: cable

Claims (10)

Body portion for monitoring the rotor ground state during the operation of the generator;
A seating portion which is attached to the body portion to which the terminal block and the control card are seated; And
It is connected to the terminal block, the cable is directly connected to the control card; includes,
The seating part,
It is implemented in the form of a thin plate, is provided on the outside of the body portion, a fixed plate for fixing the control card; further includes,
The body part,
Further comprising a plurality of first fixing holes provided at a plurality of points along the rim of the fixing plate,
The seating part,
Rotor ground monitoring test device further comprises; a plurality of first fixing members that are individually drawn into the plurality of first fixing holes and fixed to the outside of the body portion.
The method according to claim 1,
The body part,
It is installed on the shaft of the generator, the rotor ground monitoring test device comprising a; transmitter for generating data for the rotor ground state to be transmitted to the control card.
The method according to claim 2,
The transmitter,
Rotor ground monitoring test device characterized in that the data about the rotor ground state is converted into ultraviolet light intensity and transmitted.
The method according to claim 3,
The seating part,
It is installed on the outside of the generator, the receiver for detecting the intensity of the ultraviolet light transmitted from the inside; Rotor ground monitoring test device further comprising a.
The method according to claim 4,
The control card,
A rotor ground monitoring test apparatus characterized by receiving and analyzing data about a rotor ground state from a receiver only when the generator is operating.
The method according to claim 4,
The control card,
A rotor ground monitoring test device characterized in that it generates a warning message when it is determined that the ground current of the coil on the rotor side is 1.5 mA or more during generator operation.
delete delete The method according to claim 1,
The seating part,
A plurality of second fixing holes provided at a plurality of points along the edge of the control card; And
Rotor ground monitoring test device further comprises; a second fixing member that is individually inserted into the plurality of second fixing holes to allow the control card to be fixed to the fixing plate.
The method according to claim 1,
The body part,
A DC input voltmeter provided on the outside to digitally represent the input voltage of the DC power supply;
An AC input voltmeter provided on one side of the DC input voltmeter and digitally representing the input voltage of the AC single-phase power supply; And
A rotor ground monitoring test apparatus further comprising a DC output ammeter provided on the other side of the DC input voltmeter and digitally representing the output current of the DC power.

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