Electricity: electrical systems and devices – Safety and protection of systems and devices – With specific quantity comparison means
Reexamination Certificate
1999-06-24
2001-01-09
Sherry, Michael J. (Department: 2836)
Electricity: electrical systems and devices
Safety and protection of systems and devices
With specific quantity comparison means
C361S087000, C361S093100, C361S102000, C361S110000, C361S111000, C323S908000
Reexamination Certificate
active
06172863
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a phase control switching system which controls the switching timing of a power switching device for suppressing exciting rush currents or make-and-break surge voltages severe to system equipment such as a transformer, a reactor and a capacitor bank, or which controls the arcing time (arcing time period) of a circuit breaker to place the circuit breaker into a breaking or interrupting condition for the arcing time leading to no-re-ignition or for the optimal breaking time.
2. Description of the Related Art
In the recent years, there has been a tendency to more frequently use a switching apparatus equipped with an opening and closing (break-and-make) phase control system which suppresses the exciting rush current or switching surge voltage developing at the make or introduction by controlling the switching timing of a power switching device, or which cuts off the power to be supplied from a power bus to a load by controlling the arcing time of a circuit breaker for operating the circuit breaker at the arcing time for no-re-ignition or at the optimal breaking time.
FIGS. 13A and 13B
are illustrations of configurations of a conventional circuit breaker opening phase control system disclosed in Japanese Unexamined Patent Publication No. 6-20564. Further,
FIG. 14
shows reference (or standard) voltage waveforms at an opening operation of the conventional system and current waveforms in three phases: an R phase, an S phase and a T phase.
In
FIG. 13A
, a shunt reactor
91
is connected through a circuit breaker
2
to a power bus
5
. Further a main section (body)
4
of the circuit breaker opening phase control system includes a reference phase detecting section
41
and control sections
42
R,
42
S and
42
T for R, S and T phases on the power bus
5
. A system voltage supplied from the power bus
5
is transformed through an input converter
73
into a voltage necessary for the processing in the interior of the circuit breaker opening phase control system
4
, and then inputted to the reference phase detecting section
41
.
Now, a description will be given hereinbelow of an operation of the conventional system.
The system voltage inputted from the power bus
5
through a meter transformer
3
is transformed through the input converter
73
into a voltage needed for the processing in the interior of the circuit breaker opening phase control system
4
, and then inputted to the reference phase detecting section
41
. The reference phase detecting section
41
, when an opening command,is given to the circuit breaker
2
, detects the voltage zero point of a reference phase voltage as shown in
FIG. 14
, thereby setting a periodic voltage zero point which produces a reference.
Furthermore, the point of time (time point) delayed by ¼ cycle with respect to the voltage is set as a periodic current zero point. Simultaneously, the reference phase detecting section
41
outputs a signal to the respective phase control sections
42
R,
42
S,
42
T, each of which calculates an opening operation time (CB opening time) in each of the R, S and T phases from the point of time of the opening command to the circuit breaker
2
to the point of time of CB opening start.
Subsequently, the reference phase detecting section
41
calculates an operating synchronization time (control time) so that the current zero occurs after the elapse of a predetermined arcing time (the time from the CB opening time to the final breaking time) at which each of the R, S and T phases provides the no-re-ignition.
In this case, a desired current zero point (breaking point) is set which is estimated after the elapse of a breaking time comprising a predetermined arcing time (2) plus an opening operation (CB opening) time (1) from a reference voltage zero point. Following this, calculated is an operating synchronization time (control time) ((3)+(4)) obtained by subtracting the breaking time ((1)+(2)) from a finish time ((1)+(2)+(3)+(4)) which is from the reference voltage zero point to the desired current zero point, where (3) designates a phase difference of a current of each phase flowing in a shunt reactor from an input voltage (R phase voltage) (90° for the R phase, 210° for the S phase and 330° for the T phase). Further, symbol (4) denotes a correction time needed for the final breaking point to reach the current zero point of each phase.
In addition, the reference phase detecting section
41
outputs a control operation command for the circuit breaker
2
to the control section
42
for the corresponding phase after the elapse of the operating synchronization time from the reference voltage zero point, thus starting the operation of the circuit breaker
2
.
The circuit breaker
2
, starting its operation in response to this control, makes the separation of its contacts after the elapse of the opening operation time, and the final breaking point occurs in terms of each of the R, S and T phases after the predetermined arcing time (2). If this opening method is applied to a closing phase control system, since control to break at the point of time the insulation distance between the contacts of the circuit breaker
2
is sufficiently securable in each phase becomes feasible, the re-ignition becomes hard to generate.
FIG. 13B
shows the addition of an averaged period measuring section
44
to the circuit breaker opening phase control system
4
shown in FIG.
13
A. The other arrangement is the same as that of
FIG. 13A. A
single phase voltage input (V) is inputted through an input converter
43
to the averaged period measuring section
44
. The averaged period measuring section
44
measures the time corresponding to each cycle of the input voltage to obtain an average period from the times obtained by measuring several times. Further, the averaged period measuring section
44
outputs a signal equivalent to the average period (a signal by which the zero point of the input voltage is found, such as a sine wave or a square wave). The following operation is identical to that of the system shown in FIG.
13
A.
FIG. 15
illustratively shows a current waveform to be taken for when a conventional circuit breaker opening phase control system detects a current zero point and implements the opening phase control, and the timings for operations and the times.
A stand-by time plus an operating motive time correspond to a control time, an operation time corresponds to a CB opening operation, a contact separation time point corresponds to a CB opening start point, and a desired breaking point corresponds to a final breaking point.
Furthermore,
FIG. 16
shows an operational sequence of the circuit breaker opening phase control system taking this breaking operation.
When the circuit breaker
2
receives an opening command, the reference phase detecting section
41
takes a system current to be broken from a meter current transformer CT in the interior of the current measuring section
71
to measure the current zero time point, thereafter calculating a current zero time point Tai in each phase.
At the same time, the opening and closing control section
42
for each phase receives an ambient temperature Temp of an operating mechanism from a temperature measuring section
51
, an operating pressure or spring operating force Edrive from an operating force measuring section
52
and a control voltage Vcontrol from a control voltage measuring section
53
in a control room to calculate an operation time Topen given in advance as a function of these. Further, an arcing time Tarc is previously set to a predetermined time.
Following this, on the basis of the calculated current zero time point Tai, a reference (standard) point Tstandard of the opening operation start is set from a current zero point estimated to appear at the point of time of the occurrence of an opening command for the circuit breaker
2
. Subsequently, a desired breaking point Ttarget is set from a current zero point estimated in like manner. At this time,
Hidaka Mikio
Ito Hiroki
Kohyama Haruhiko
Mitsubishi Denki & Kabushiki Kaisha
Sherry Michael J.
Sughrue Mion Zinn Macpeak & Seas, PLLC
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