EP1794768A1 - Apparatus for monitoring a state of an electrical switching device - Google Patents

Abstract

Disclosed is an electrical switching device (1) comprising a state indicator (8) which is covered or uncovered in accordance with the state of the switching device (1). In order to reduce the amount of moved masses, the state indicator (8) remains in a resting position during a switching process of the electrical switching device (1). The state indicator (8) can be covered at least in part by the movable switching contact pieces (2a, 3a, 4a) of the electrical switching device (1), for example.

Description

description

Device for monitoring a state of an electrical switching device

The invention relates to a device for monitoring a state of an electrical switching device with a status indicator which is covered or enabled as a function of the state of the switching device.

Such a device is known for example from the interpreting ^¬ rule Offenlegungsschrift DE 199 55 588 Al. The ^{¬ known} switching device is designed as a circuit breaker and includes a housing, a power supply and a Lastan- conclusion. Between the mains connection and the load connection a switchable contact point is arranged. In a triggering of the electrical switching device, a so-called trigger ^¬ is actuated cam and there is an opening of the switchable contact point of the known electrical switching device. To make the switching state of the switching device to the outside visible, a state indicator is provided. The state indicator is designed in the form of a pivotable rocker. This rocker is pivoted as a function of the switching state of the ^¬ known switching device and is either visible through a window or pivoted ge behind a cover.

In addition to ^applying during a switching operation ^¬ the force for the movement of the switching contact piece of the switchable contact point of the switching device is a force to apply the movement of the status indicator. In order to keep the additional force required ^¬ as small as possible, a lightweight construction is selected for the condition indicator. WEI terhin the pivot bearing of the condition indicator is inferior to a frequent switching a greater wear. Thus, there is a contradiction between a smooth design Ausges¬ the state indicator to achieve a power-saving movement and a reliable permanent storage of the state indicator.

The invention is therefore based on the object, a Vorrich ^¬ processing for monitoring to provide an electrical switching device which has auf¬ a state indicator having a long life and ensures a reli ^¬ transmissive display of the switching state of a condition.

The object is achieved in a device of the type mentioned in the present invention that the state ^indicator remains ^¬ tor during a switching operation at rest.

The switching operations on electrical switching devices often take place suddenly. Due to a rapid switching operation and vibrations can occur, which extend over the entire switching device. If one chooses a state indicator which remains at rest during a switching operation, shock and vibration phenomena can no longer be superposed with a movement of the status indicator. This improves the durability of the condition indicator. Since now the movement of the switching contacts of the switching device is decoupled from an optionally existing movement of the state indicator, the necessary drive energy can be reduced. Characterized the energy storage can be reduced as well as the kinematic chain for transmitting the movement ge ^¬ be dimensioned ringer. A further advantageous embodiment can provide that the status indicator maps the switching state of the electrical switching device.

The switching contacts of an electrical switching device are often ^¬ times not directly visible. Envelopes, such as arc extinguishing chambers or the like, prevent di¬ direct insight. For an operator or user of an electrical switching device, however, it is necessary to detect the switching state. As a result, for example, a reliable determination of a disconnected Leitungsabschnit ^¬ tes done.

Advantageously, can further be provided that tapers to the state indicator comprises a visual axis for reading, which is interrupted or due to a driving movement of a kinematic chain for driving a switching contact piece give freige ^¬.

By interrupting a visual axis for reading the state indicator can be dispensed with elaborate design Ausgestal ^¬ lines. In this case, for example, be vorgese ^¬ hen that elements of the kinematic chain, as in ^¬ example, linkage, bolts, gears, chains, flaps or the like are moved into the visual axis. Since in a kine ^¬ matic chain for moving a movable Schaltkontakt¬ piece of electrical switching device is to transmit a movement, the associated shift of individual elements can be used to cover or release the status indicator. This ensures that no additional parts or masses to be moved are to be introduced into the kinematic system. A further advantageous embodiment can provide that the status indicator can be covered at least partially by a switching contact piece of the switching device.

If the switching contact pieces are used to cover the state ^indicator , a very reliable status indication is ensured. Thus, even with a fault, for example, ^¬ bending a lever in the kinematic chain of the drive train always the current switching position of the switching contact pieces are displayed. It can be provided that move the movable switching contact pieces of a switching contact of the electrical switching device in a view ^¬ axis for reading the status indicator.

Advantageously, it can further be provided that the status indicator is subdivided into a plurality of coverable areas.

A subdivision of the status indicator can be effected, for example, by arranging a scaling at which a progress of the switching operation can be read off. Thus, it is also easily possible to carry out a risk assessment, for example in the case of a faulty position or blocking of a movable switching contact piece during a switching operation. Furthermore, it can also be provided that the status ^indicator has different areas, which are characterized, for example, by color-different markings, by a coding in the form of letters, numbers, barcodes or the like. Thus, it can be ensured that a real opening of the Schaltkon¬ contact pieces is signaled only after the release of ^¬ certain sections. Furthermore, the Zustandsin ^¬ dicator in different areas for several movable bare switch contact pieces be divided so that each of the switching contact pieces is a separate area to be covered supplied ^¬ assigns.

A further advantageous embodiment can provide that the status indicator can be covered by a plurality of switching contact pieces.

In the presence of a plurality of switching contacts on an electrical switching device, for example in a switching device in a 3-phase design, it is desirable to detect the Schaltzu ^¬ state of all three switching contacts. In an ent ^¬ speaking arrangement of the movable switching contact pieces, for example with a diagonal offset to a visual axis for reading the status indicator, the switching state of the entire device can be reliably monitored. Even with a separate drive each of the switching contact pieces reliable monitoring is possible ^¬ lich. Thus, the unreliability of a switching contact piece selected representatively for the switching state of all the movable switch contact pieces can be overcome. Now it is ensured that the state of each switching ^¬ contact piece can be monitored.

A further advantageous embodiment can provide that the status indicator is arranged within a pressure-gas-tight capsule housing.

Compression-gas-tight encapsulating housings are generally made of an opaque material. Optionally, individual small viewing windows are embedded in the encapsulating housing. By means of these viewing windows, for example, the viewing axis can run to evaluate the status indicator. Since this visual axis does not have to be bound to specific devices, such as cables and wires, a design revision of the encapsulating must not be taken ^¬ before. The status indicator can thereby be beispiels- example attached to a wall of the encapsulating housing or the wall of the encapsulating housing may be designed as stand indicator to ^¬ itself.

Furthermore, it may be advantageously provided that the state indicator is optically detectable.

An optical detection of the condition indicator is also possible without additional technical devices alone by the human eye. As a result, very cost-effective monitoring of the contact points of an electrical switching device can take place. The electrical switching devices can be, for example, disconnectors, earthing switches, combined disconnecting earthing switches, load switches, switch disconnectors or even circuit breakers. A subdivision of the status indicator into several areas allows a fast and safe reading.

A further embodiment variant can provide that the status indicator is monitored by an optical sensor, in particular a camera.

By using an optical sensor, the information readable by the status indicator can be converted and transported in electronic form over long distances. Thereby, it is possible for example that in a routing ^¬ place of distance of the switching state of a switching device via ^¬ is monitored. It is particularly advantageous in this case if passes as op ^¬ genetic sensor, a camera used. By means of Camera can be a real image of switching contacts and status indicator transmitted to the control room. In addition to the monitoring of the status indicator, an additional coding can be arranged in the detection field of the optical sensor. This coding can for example be a designation of the switchgear, the switchgear, place or ähnli ^¬ ches. This makes it possible to easily obtain an overview even with remote operation or monitoring. This reduces the risk of malfunctions. Even with electronic data processing of a camera image, the information about the switching point and the additional coding remain coherent. Furthermore, the state of the switching contacts can also be diagnosed by means of the optical detection. Thus, for example, an increased abrasion of material or an increased burn-off of contact areas can be detected.

An advantageous embodiment may further provide that the status indicator is a planar marking.

A surface-like marking makes it possible to read the state ^indicator from a distance easily and reliably. Area-like markings can be easily attached to housing walls. As such, they are inexpensive. Additional display elements are therefore not required.

In the following, the invention is shown schematically with reference to a Ausführungsbei ^¬ game in a drawing and described in more detail below.

It shows the Figure 1 three switching contacts of an electrical

Switching device in an open position, the

Figure 2 shows the three switching contacts of the electrical switching device in an intermediate position, the

Figure 3 shows the three switching contacts of the electrical

Switching device in a closed position and the

Figure 4 shows the three switching contacts of the electrical switching device in the intermediate position in

Direction of a visual axis for reading a

Status indicator.

The figures show an electrical switching device 1. The electrical switching device 1 has a first, a second and a third switching contact 2, 3, 4. The first Schaltkon¬ clock 2 has a first movable switching contact piece 2a so ^¬ as a first mating contact piece 2b. Likewise, the second and the third switching contact 3, 4 each have a movable switching contact piece 3a, 4a and a stationary Ge ^¬ genkontaktstück 3b, 4b. The movable contact pieces 2a, 3a, 4a are bolt-shaped. The mating contact pieces 2b, 3b, 4b are tubular. The movable switching contact pieces 2 a, 3 a, 4 a go into the tubular counter-contact pieces 2 b, 3 b, 4 b during a switch-on operation. The movable switching contact pieces 2a, 3a, 4a are movable via a kinematic chain, which has a pivotable lever 5. The pivotable lever 5 is pivotable, for example, by means of an electromagnetic drive or a spring-loaded drive. The switching device 1 is arranged within an encapsulating housing 6. The encapsulating housing 6 is formed as a pressure gas-tight Ge ^¬ housing surrounding the switching contacts 2, 3, 4. The interior of the encapsulating 6 is with an under elevated pressure insulating gas, spielsweise SF ₆ or N ₂ , filled. Within the Kapselungsge ^¬ häuses 6, an optical sensor 7 is arranged an¬ in the form of a camera. Alternatively, it can also be provided that the camera 7 is arranged outside the encapsulating housing 6 and looks into the interior of the arrangement through a viewing window. The camera 7 detects the shift range of the three be ^¬ wegbaren switching contact pieces 2a, 3a and 4a. In the viewing direction of the camera 7 behind the movable switching contact pieces 2a, 3a, 4a lying, a status indicator 8 is arranged. In the present example, the status indicator 8 is arranged on the inner wall of the encapsulating housing 6. The state ^¬ indicator 8 is formed areally and has a plurality of regions. On the one hand, the areas are marked in color and, on the other hand, they are provided with an alphanumeric description. In the open state of the switching contacts 2, 3, 4, as shown in Figure 1, a viewing axis 9 of the Ka ^¬ mera 7 is directed freely on the status indicator. The area marked "OPEN" can be viewed through the camera 7. During a switching operation, the movable switching contact pieces 2a, 3a, 4a move in the direction of the mating contact pieces 2b, 3b, 4b. As the movement of the movable switching contact pieces 2a, 3a, 4a, the viewing axis 9 of the camera is interrupted in the direction of the Ge ^¬ genkontaktstücke 2b, 3b, 4b .Thereby only individual areas of the state indicator 8 are visible through the camera 7. In the intermediate position shown in Figure 2, the beispielswei¬ se also corresponds to a fault position, a free view ^¬ axis 9 is only on the with "???" provided area. The area symbolically marked with "???" indicates that the switching state is currently unclear. In the switched-on state of the switching contacts 2, 3, 4 shown in FIG. 3, the viewing axis 9 of the camera 7 is completely covered by the movable switching contact pieces 2 a, 3 a, 4 a. The status indicator 8 is now no longer visible. In addition, it can be provided that markings 10, such as grooves, colored rings or other display devices, are attached to the moveable switching contact pieces. These are only visible when a reliable Ein¬ switching position of the movable switching contact pieces 2a, 3a, 4a is reached.

Alternatively, it can also be provided that the optical sensor, in particular the camera 7, detects the position of the pivotable lever 5 or another part of the kinematic chain and the viewing axis of the camera can be covered by the pivotable lever 5. Accordingly, then the align and To ^¬ stood indicator 8 to adjust.

In the figure 4 is a perspective view of the intermediate position of the movable switching contact pieces 2a, 3a, 4a shows ge ^¬. The perspective view corresponding to the view axis of the camera 7 can be seen is the already partially Verde ^¬ ckung of the condition indicator 8. Further, the status can be divided indicator 8 in further zones 11 at a der¬ like layout of the switching contacts 2, 3, 4, wherein each ^¬ each of the other zones 11 one of the movable Schalt¬ contact pieces 2a, 3a, 4a is assigned. This is to check mög ^¬ Lich each of the switching contacts on its reliable A ^¬ switchable or off position. Furthermore, an additional coding can be provided in the detection area of the camera, which contains, for example, indications of the location, the type of switch, the switchgear, etc.

Claims

claims 1. Device for monitoring a state of a elektri¬'s switching device (1) with a status indicator (8), which is covered or released depending on the state of the switching device (1), characterized in that the state indicator (8) during a switching operation at rest remains. 2. Device according to claim 1, characterized in that the status indicator (8) displays the switching state of the electrical switching device (1). 3. Device according to claim 1 or 2, characterized in that on the status indicator (8) a visual axis (9) for Ausle ^¬ sen runs interrupted due to a drive movement of a kinematic chain to drive a switching contact piece (2a, 3a, 4a) or released. 4. Device according to one of claims 1 to 3, d a d u r c h e k e n e c e in that the status indicator (8) at least partially from a Switch contact piece (2a, 3a, 4a) of the switching device (1) cover ^¬ bar is. 5. The device according to claim 4, characterized in that the state indicator (8) of a plurality of switching contact pieces (2a, 3a, 4a) can be covered. 6. The device according to one of claims 1 to 5, characterized in that the status indicator (8) is subdivided into a plurality of coverable regions (11). 7. Device according to one of claims 1 to 6, d a d u r c h e c e n e c i n e in that the status indicator (8) within a pressure gas-tight encapsulating housing (6) is arranged. 8. The device according to one of claims 1 to 7, characterized in that the status indicator (8) is optically detectable. 9. Device according to claim 8, characterized in that the status indicator (8) is monitored by an optical sensor (7), in particular a camera. 10. The device according to claim 1, wherein the status indicator is a surface-type marking.