High-voltage switches with arc preventing or extinguishing devic – Arc preventing or extinguishing devices – Multiple break
Reexamination Certificate
2001-11-07
2004-06-01
Donovan, Lincoln (Department: 2832)
High-voltage switches with arc preventing or extinguishing devic
Arc preventing or extinguishing devices
Multiple break
C218S007000, C218S014000, C218S154000, C218S155000
Reexamination Certificate
active
06743999
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an integrated type gas-insulated switching apparatus for electrical power systems, which has a container made of an insulating material and is filled with an insulating gas. More particularly, the present invention relates to an integrated type gas-insulated switching apparatus that includes a plurality of switching devices.
2. Description of the Related Art
Conventionally, various integrated type gas-insulated switching apparatuses are well known, and a typical example thereof is described in U.S. Pat. No. 5,841,087, which is shown in FIG.
18
.
With the integrated type gas-insulated switching apparatus shown in
FIG. 18
, an isolating switch
1
is housed in a grounded metal housing
2
filled with an insulating gas, such as SF
6
. Stationary electrodes
3
and
4
forming switching points (contacts) are fixed to insulating spacers, and are fixed to the grounded metal housing
2
by flanges
5
and
6
.
On the other hand, a stationary electrode
8
electrically connected to the grounded metal housing
2
is fixed to a flange
7
. A drive shaft
10
is provided from the outside of the grounded metal housing
2
into it with the gastight of the insulating gas kept. A current terminal
11
is connected to a different device, which is not shown, to a circuit breaker, for example.
Cylindrical movable electrodes
12
,
13
, and
14
shown in
FIG. 18
are companion to the stationary electrodes
3
,
4
, and
8
, forming switching points (contacts)
15
,
16
, and
17
, respectively. The movable electrodes
12
,
13
, and
14
are electrically conductively connected to the current terminal
11
via a metal container
18
and sliding contacts (not shown).
Busbars are connected to the stationary electrodes
3
and
4
so that the switching points
15
and
16
serve as bus selection disconnecting switches, respectively. The stationary electrode
8
is grounded, and the switching point
17
acts as a grounding switch.
A drive mechanism
19
is adapted to transmit rotational power caused from the drive shaft
10
to the movable electrodes
12
,
13
, and
14
. The drive mechanism
19
has cams
20
and
21
connected to the movable electrodes
12
and
13
and a cam (not shown) connected to the movable electrode
15
. These cams are linearly reciprocally displaced from the rotation of the drive shaft
10
. The drive mechanism
19
also has levers attached to the shaft
10
so as to interact with these cams.
In the conventional integrated type gas-insulated switching apparatus described above, however, both of the switching points
15
and
16
acting as two disconnecting switches are disposed in the same metal housing
2
, and the movable electrodes
12
,
13
, and
14
are provided directly to the common drive mechanism
19
. Thus, in cases where one of the disconnecting switches (one of the switching points
15
and
16
) malfunctions, it is impossible to replace the only malfunctioning switching point (i.e., disconnecting switch), because the remaining switching point (i.e., disconnecting switch) also loses its disconnecting function. It is therefore necessary to replace both switching points
15
and
16
(disconnecting switches) at the same time. This makes the replacement cost increase.
In addition, when replacing the disconnecting switches, it is necessary to disassemble the disconnecting switches on site and reassemble new disconnecting switches thereon, lengthening the time required for the replacement work.
When, on the other hand, replacing the entire apparatus including the disconnecting switches, because of transporting a large apparatus in which the disconnecting switches are assembled, the transporting work requires tremendous cost.
With the above conventional switching apparatus, the two switching points
15
and
16
acting as two disconnecting switches are provided in the same gas compartment. That is, there is no gas partition between the two switching points
15
and
16
. In this state, the two switching points
15
and
16
are connected with double-busbars via no other switching points. In this configuration, in cases where, for example, one of the busbars is hit by lightning, the lightning reaches all the way into its disconnecting switch. This causes insulation breakdown in the disconnecting switch to be short-circuited to the earth, with the result that the remaining switching point connected to the remaining disconnecting switch also loses its disconnecting function. The reason is that such remaining switching point is also housed in the same gas compartment in which the short-circuiting to the earth occurred. Accordingly this makes it impossible to transmit power for all systems connected via no other switching points to the gas compartment of each of the disconnecting switches.
That is, both operations of the double-busbars stop so that it is difficult to fulfill the object of the double-busbar configuration allowing, when one of the double-busbars does not transmit power, the other thereof transmits power.
SUMMARY OF THE INVENTION
The present invention is directed to overcome the foregoing problems.
Accordingly, it is an object of the present invention to provide an integrated type gas-insulated switching apparatus that is capable of decreasing the cost required for replacing at least one contact (switching point) that malfunctions and reducing the time required for replacing it, thereby making low cost the integrated type gas-insulated switching apparatus.
Another object of the present invention to provide an integrated type gas-insulated switching apparatus that is capable of being applied to a power transmission system with double-bus bar configuration, and being used to select one of the double-busbars without damaging the essential role of the double-busbar configuration.
To achieve such objects, according to one aspect of the present invention, there is provided an integrated type gas-insulated switching apparatus comprising:
a plurality of switching devices each including a contact and an insulated container in which the contact is contained, the contact comprising electrodes adapted to be contacted with each other and separated therefrom, the insulated container filling with an insulating gas;
a conductive container to which the plurality of switching devices are connected, respectively; and
an insulated structure supporting the conductive container.
According to one aspect of the present invention, the switching devices can be easily separated from or connected to the conductive container as a single unit, so that, when a single switching device causes malfunction, it is extremely easy to replace only the switching device causing malfunction.
To achieve such objects, according to one aspect of the present invention, there is provided an integrated type gas-insulated switching apparatus comprising:
a plurality of switching devices each including a contact and an insulated container in which the contact is contained, the contact comprising electrodes adapted to be contacted with each other and separated therefrom, the insulated container filling with an insulating gas;
a conductive container filling with an insulating gas, to which the plurality of switching devices are connected, respectively;
an insulated structure supporting the conductive container;
a partition wall provided between at least one of the switching devices and the conductive container so as to form a first gas compartment in the at least one of the switching devices and a second gas compartment in the conductive container; and
means disposed to the partition wall and adapted to cause the insulating gas to flow in a forward direction from one of the first and second gas compartments toward other thereof and not to flow in opposite direction to the forward direction.
To achieve such objects, according to further aspect of the present invention, there is provided an integrated type gas-insulated switching apparatus comprising: a plurality of switching devices each including a contact and an insulat
Kobayashi Akio
Muraki Sachio
Murase Hiroshi
Ohara Reiji
Takagi Hirokazu
Donovan Lincoln
Kabushiki Kaisha Toshiba
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