EP0945881A2 - Electrical switch - Google Patents

Abstract

The electric switch has a pivotable switching lever (6) of at least two parts switchable between a closed position and an open position by an actuator (71). The lever is mounted with a high pressure in the closed position to reduce the contact transition resistance. The lever is held closed by a spring under tension. The spring force is supported at the bearing points (41,51) to form the electrical contact. The spring device acts between the parts (61,62) of the switching lever.

Description

The invention relates to an electrical switch for power supply networks, in particular a medium-voltage switch, with a pivoted gear lever, that by means of an actuator between a closed position and an angle standing open position is switchable, the shift lever in the Closed position to reduce the contact resistance with high surface pressure is stored.

Such switches are used in practice for the transmission of high voltages and high switching currents. In energy supply networks, i.a. Transfer voltages in the range between 1000 V and 60000 V, often with nominal currents between 400 A and 6300 A occur. Especially with high nominal currents are high contact pressures with well-fitting contact elements large contact area required to ensure proper functioning.

An example of such electrical switches are disconnectors, which have so-called knife packs that are lamellar in the closed position Intervene with counter contacts. The knife packs are replaced by a Operating lever pivoted between an open position and a closed position. When these disconnectors are closed, the knife packs and the counter contacts slide on the contact surfaces against each other until they fully engage with each other are. Since very large contact areas are required at high rated currents, In practice, this usually involves very large actuation forces, especially as the knife packs should be as good as possible on the counter contacts and thereby an investment pressure unfold. The number of knife packages to be switched depends on the one hand on the height the nominal current and, on the other hand, it depends on whether, for example, a 1-pole or a 3-pole Disconnector is used. Especially with a 3-pole disconnector With high nominal currents, actuation forces result which are only with great effort are producible.

Since the knife packs and the mating contacts engage in a lamella-like manner, are such switches also sensitive to contamination on the contact surfaces, even if such contact inserts, for example, with self-lubricating Silver graphite coating are provided. Therefore, the usability of such electrical switch even with relatively little contamination due to this resulting significantly higher friction on the contact surfaces is not reliable be guaranteed. In particular, the required operating forces are hardly producible.

It is therefore an object of the present invention to provide an electrical switch To provide, which has a low contact resistance and with relatively low effort is reliable and permanently operable.

This object is achieved according to claim 1 in that the shift lever at least in two parts with a spring device effective between the parts is formed, and that the shift lever is held in the closed position such that the spring device comes under tension and the spring force at the bearing points of the electrical switch is supported to form the electrical contact.

According to the invention, therefore, the construction is advantageous interlocking knives or counter-contacts with the one provided here Production of the surface pressure in the transverse direction to actuate the shift lever farewell taken. Instead, the invention provides the necessary To produce surface pressure in the longitudinal direction of the shift lever at the bearing points. This has the main advantage that the force exerted by the actuator can be implemented more effectively. This allows more favorable balance of power on the switch, which in particular significantly reduces the actuation force can be.

Another advantage is that the required surface pressure on the Bearings is made by the spring device and not as in the prior art Technology through the contact pressure of the knives on the counter contacts. Therefore, it is targeted adjustable. This enables a reliable and constant transmission of the electrical current even over long periods of time and many switching operations become. The spring preload of the shift lever in the closed position permanently guarantees a good contact fit and thus a low contact resistance value.

Furthermore, the arrangement is therefore insensitive to manufacturing tolerances of the components.

In addition, the arrangement according to the invention is also considerably less sensitive against pollution as the prior art, since here relatively large areas and also easy-to-clean bearing points can be produced.

Another advantage of the arrangement according to the invention is that the constructive effort compared to the conventional arrangement significantly reduced is. In particular, no knife packs need to be trained and adjusted. In the state The technology required a certain amount of construction work in order to interlock exactly the knife packs in the counter contacts. Such special However, measures can be largely avoided in the subject matter of the invention become.

The electrical switch according to the invention is therefore very reliable and durable and can also be used with very high nominal currents.

Advantageous developments of the invention result from the features of subclaims.

Characterized in that the two parts of the shift lever are articulated to each other are, the spring device, the two parts in the open position in one bent relative position holds against the when reaching the closed position Tension of the spring device under the force of the actuator in a less kinked position can be transferred, a very good power conversion to produce the surface pressure. The lengthens effective total length of the shift lever, which makes a very good pressure on the Bearing points and thus a good power line is achieved. The thus manufactured "Kink kinematics" is particularly suitable for applying the actuating force a minimum, without sacrificing the achievable surface pressure and the reliability of the arrangement are required. The construction effort for the electrical switch can also be kept very low.

It is a further advantage if the two parts of the shift lever in the less bent position near the extended position of the articulated coupling available. So that the holding force applied by the actuator can on Shift levers in the closed position can be kept even lower because of the two-part Shift lever is in a relatively inherently stable position. It is essential that the two parts of the shift lever in this almost extended position essentially automatically support each other and therefore a relatively low force component in the transverse direction.

It is also advantageous if the two parts of the shift lever with joint play are stored together. It can thereby be achieved that the resulting Surface pressure at the bearing points through the action of the spring device is produced and therefore no tension on the joint between the two parts of the shift lever. This will make the two parts articulate maintain each other in a tensioned state and permanently ensured. Damage to the articulation between the two parts of the shift lever can also be avoided more effectively.

Preferably, the joint play between the two parts of the Shift lever made by a slot bolt connection, which on a structurally very simple and functional way a reliable articulation of the two Allows parts.

The fact that a bearing as a concave cylindrical surface in a bearing body is formed on which there is a cylindrical end of the pivoting part of the Shifter lever supports in the closed position, a particularly large contact area provided at a storage area. This means that even very high currents can be reliably be transmitted. In addition, the arrangement thereby has a more stable structure.

When the cylindrical end of the swivel part swivels with bearing play the bearing body is coupled, a reliable pivotable design the pivoting part can be achieved without the bearing element used for this purpose Example a bolt with which the contact pressure of the switch would be applied. Here is measure the bearing clearance in the usual way so that the pressure is not on the bearing element, but at the cylindrical end of the swivel part over the concave Cylinder surface is recorded on the bearing body. This pivot bearing can therefore be designed in a simple design and reliable and durable.

It is a further advantage if the other bearing is concave, wherein one end of the switching part of the shift lever is curved analogously to the outside and engages in the other bearing during the closing process and therein during the Relative movement of the parts of the shift lever slides. The same to each other trained arched bearing surfaces also leave large contact surface dimensions achieve. This means that high currents can also be generated in this bearing be transmitted. Furthermore, a reliable fit of the Switching part in the bearing are made by using the shift lever Spring preload slides into the bearing point.

Alternatively, the other bearing point can be designed as a corner area, with a End of the switching part of the shift lever is formed analogously and during the Closing intervenes in the other bearing and in it during the Relative movement of the parts of the shift lever slides. Due to the flat design the other bearing point can advantageously be of even simpler design Be trained way.

The sliding bearing element can also be used in both bearing points advantageously cause a cleaning of the bearing points, whereby Dirt, scale and fire marks etc. automatically during the switching process can be eliminated.

It is a further advantage if the electrical switch is a Has vacuum switching device. This can cause voltage flashovers and Arcs in the contact area can be reliably avoided. Further open up numerous additional for the electrical switch according to the invention Applications, since the advantages of such a known Vacuum switching device can also be used.

The fact that the switching part has an arm that is so articulated to a Movable contact element of the vacuum switching device is coupled that the Contact elements of the vacuum switching device when closing the electrical Switch by means of the pivoting movement of the two parts of the shift lever to each other close, can advantageously a simultaneously with the closing of the shift lever Closing the contact elements of the vacuum switching device can be achieved. In particular can be realized in this way that the shift lever during the Closing movement itself is already engaged with both bearing points without one Electricity flows. The current flow is then only after the contact elements of the Vacuum switching device opposite during the tilting process of the swivel part the switching part of the shift lever. The one for arcing critical area when approaching the contact points can be reliably inside the vacuum switchgear. This also applies analogously to the Opening process at the electrical switch, in which arcing occurs usually occurs. The vacuum switching device can be such Limit voltage flashover reliably in a known manner. Another yourself The resulting advantage is that the switch is closed due to the kinematic conditions can take place at high speed. Also lies in such an embodiment, a short closing distance.

If the movable contact element has a roller device which with a rolling surface of the arm interacts, so a low-friction Closing process can be achieved. In addition, the timing of the closing process can be specifically controlled by the design of the rolling surface. The electrical switch is therefore designed for many closing processes and allows short closing times to be achieved.

Characterized in that the movable contact element of the vacuum switching device is biased by a spring, this spring being part of the spring device of the is electrical switch, its construction is significantly simplified. According to the invention can so on the vacuum switching device for producing the contact pressure required spring simultaneously to produce the spring force to form the electrical contact at the bearings can be used. With that one can still achieve a more compact structure of the arrangement. Due to the simple construction with relative few components results in an even more reliable switch arrangement, what has a positive effect on the life expectancy of the electrical switch.

If the vacuum switching device another spring with less spring force than that of the other spring, which opens the contact elements in the Vacuum switching device accomplished, the opening movement of the Contact elements can be carried out more reliably and at high speed. This further reduces the risk of arcing. This increases the Lifetime of the switch.

It is a further advantage if the swivel angle between the open and Closed position of the electrical switch larger than that for closing the contact elements the vacuum switching device is the required angle. This means that Actuator for initiating the closing process hardly overcome any friction. Furthermore, the closing process can be due to the mass of the vacuum switching device or of the shift lever can be closed even faster since the moving mass Operation supported. In addition, a separation section that is visible from the outside can Switches are manufactured, so that it is visible from a distance whether the Switch is closed or not.

Fig. 1 eine perspektivische Ansicht des erfindungsgemäßen elektrischen Schalters; und

Fig. 2 eine Seitenansicht einer weiteren Ausführungsform eines erfindungsgemäßen Schalters.

The invention is explained in more detail below in exemplary embodiments with reference to the figures of the drawing. It shows:

Figure 1 is a perspective view of the electrical switch according to the invention. and

Fig. 2 is a side view of another embodiment of a switch according to the invention.

As shown in FIG. 1, an electrical switch 1 has a frame 2 on which insulators 3 are spaced apart. On an isolator 3, a first bearing body 4 is arranged, while on a further insulator 3 second bearing body 5 of the electrical switch 1 is arranged.

A shift lever 6 is functional between the two bearing bodies 4 and 5 arranged. This shift lever 6 is by means of an actuator 7 between an open and a closed position back and forth, wherein in Fig. 1 the Closed position is shown. Here, the shift lever 6 by a predetermined Angle pivoted about a pivot point on the first bearing body 4.

The first bearing body 4 is formed with a first bearing 41, which is present as a cylindrical, inwardly curved surface. The second bearing body 5 also has a bearing 51 which is substantially cylindrical is domed inside.

The shift lever 6 includes a pivoting part 61 and a switching part 62, which are articulated to each other.

The end of the swivel part 61 which is not adjacent to the switching part 62 has one cylindrical end portion 63, which is adapted in its shape to the first bearing 41 is. This creates a large contact area between the end region 63 and the first bearing 41 realized. Furthermore, the swivel part 61 is in FIG. 1 Articulated connection not shown pivotable with bearing play on the first Bearing body 4 coupled. The camp game is chosen such that at closed electrical switch 1 and the application of the required Surface pressure at the bearing point does not exert any pressure on the swivel bearing is, but this pressure is received by the first bearing 41.

The switching part 62 has at the end not adjacent to the swivel part 61 a curved end region 64 which, in its shape, corresponds to the second bearing 51 is adjusted. As a result, there is also a large contact area here.

There is no one in FIG. 1 between the pivoting part 61 and the switching part 62 Spring device shown, which these two parts of the shift lever 6 in the Holds open position in a kinked relative position. Next are the two parts 61 and 62 of the shift lever 6 are supported with articulated play so that the applied one Surface pressure at the first bearing point 41 and at the second bearing point 51 from the Spring force of the spring device depends.

The actuating device 7 has an actuating lever 71 which is connected to the Swivel part 61 is rotatably coupled. When operating lever 71 pivots the shift lever 6 around the bearing on the first bearing body 4 around the predetermined angle between the open and the closed position. Since the parts 61 and 62 of the shift lever 6 in the open position due to the action of the spring device are held in a relative position bent to each other Swinging the shift lever 6 into the closed position, first the curved one End region 64 of the switching part 2 in abutment with the second bearing 51 continued pivoting into the closed position then reduces the Kink angle between the pivoting part 61 and the switching part 62 such that these in an almost stretched location can be transferred. The end region 64 of the switching part 2 slides in the second bearing 51 and finally lies on it over a large area on.

Since the pivoting part 61 is also supported on the first bearing body 4 Game is provided, as the bearing of the pivot member 61 to the switching part 62 results a surface pressure predetermined by the spring device in the area of the first and second bearing 41 and 51. The electrical switch 1 is thus with predefined surface pressure for large contact surfaces at the bearing points closed. Because of the "kink kinematics", which one against the other Swiveling the pivoting part 61 to the switching part 62 in the end region of the Establishes the closing process, thereby low actuation forces on Actuation lever 71.

2 shows a further embodiment of the electrical device according to the invention Switch 1 shown. For identical or analog elements of the electrical switch in the following description the same reference numerals as in FIG. 1 used, the detailed explanation of which is omitted.

In Fig. 2, the open position of the electrical switch 1 with dash-dotted lines Lines indicated, while the closed position is fully excellent.

According to the illustration in FIG. 2, a vacuum switching device 8 is on Swivel part 61 of the shift lever 6 arranged. The vacuum switching device 8 has a vacuum interrupter 81 and a biasing device 82 for the movable one Contact of the vacuum interrupter 81. The fixed contact of the Vacuum interrupter 81 is functional with the cylindrical end portion 63 of the Swivel part 61 electrically connected. As shown in Fig. 2, this is Swivel part 61 over the bearing pin 42 with play on the first bearing body 4 coupled, the cylindrical end portion 63 being received in the first bearing 41 is.

The switching part 62 also has an arm 65, which with the Biasing device 82 of the vacuum interrupter chamber 81 interacts. This is on the arm 65 has a rolling surface 66 on which a roller device 83 Vacuum switching device 8 during the closing movement or opening movement rolls off.

The biasing device 82 for the movable contact of the Vacuum switching device 8 contains a spring 84, which between the contact pressure the movable contact and the fixed contact of the vacuum interrupter 81 manufactures. The biasing device 82 also has a spring 85, which is a has less spring force than the contact pressure spring 84. The spring 85 is supported on Swivel part 61 and causes the contact elements of the vacuum interrupter to open 81 in the absence of counterhold by the arm 65 of the switching part 62.

The biasing device 82 acts functionally as a spring device between the pivoting part 61 and the switching part 62 and generates the desired one Surface pressure at bearings 41 and 51 with switch 1 closed The size of the surface pressure is essentially determined by the spring force Contact pressure spring 84 determines, the opening spring 85 acts as a support.

On the switching part 62, a conduction band 67 is also arranged, which electrical contact with the movable contact of the vacuum interrupter 81 manufactures. To a voltage flashover between the switching part 62 and the To avoid pivoting part 61 before closing the contacts of the vacuum interrupter chamber 81, the swivel part 61 is designed to be electrically insulating. This ensures that the current transmission takes place in the vacuum switching device 8.

When moving the shift lever 6 from the open to the closed position First of all, a free swivel angle is bridged, which is the line of sight of the switch serves. As soon as the curved end region 64 of the switching part 62 with the second Bearing point 51 engages, the preloading device 82 reduces it predetermined kinked relative position of the switching part 62 to the swivel part 61 at another Actuation of the actuation lever 71. However, no current flows in this position via the electrical switch 1, since the contacts of the vacuum switching device 8 are still are not closed.

With increasing transfer of the parts of the shift lever 6 into the stretched Location of the arm 65 acts on the movable contact of the roller device 83 Vacuum interrupter 81 and thus closes the contacts of the vacuum interrupter 81 against the spring force of the pretensioning device 82. In the one shown in FIG In the end position, the electrical switch carries 1 current, since the contacts of the vacuum switching device 8 are closed. The transmission of high nominal currents required surface pressure to achieve a low Contact resistance is due to the spring force of the Preload device 82 on the large contact surfaces of the first bearing 41 and the second bearing 51 produced.

The closing process takes place on the basis of the "kink kinematics" present extremely fast and with little effort, the weight of the Switch lever 6 also acts accelerating with a corresponding arrangement.

To open the electrical switch 1, the operating lever 71 is such activated that the shift lever 6 is pivoted, the pivot member 61 and Switching part 62 against each other according to the spring force of the biasing device 82 buckle. The end regions 63 and 64 of the parts of the shift lever 6 remain initially continue to engage bearings 41 and 51 while the electrical Switch 1 is already interrupted since the contacts of the vacuum switching device 8 after a certain actuation path are separate from each other. A flashover with arcing therefore only occurs in the vacuum interrupter 81 and will be deleted there. The spring 85 causes the contacts to open Vacuum interrupter 81.

With further actuation of the actuating lever 71, finally End portion 64 of the switching part 62 out of engagement with the second bearing 51 and the visible isolating distance of the electrical switching 1 is established.

2 schematically indicates how the total length of the Shift lever 6 when transferring the switching part 62 and the pivoting part 61 in the almost stretched location extended. The circular arc 9 represents the total length of the Shift lever 6 in the closed state. Shown in dash-dotted lines Open position of the electrical switching 1 is correspondingly a game t, which disappears when switch 1 is closed.

The electrical switch 1 is relatively insensitive to contamination and branding, since the sliding of the end regions 63 and 64 in the bearing points 41 and 51 leads to a cleaning effect. There are hardly any brands at all not open because the switch is only closed when the contacts in the Vacuum interrupter are closed. At this point the end ranges are 63 and 64 already with a certain contact pressure in the bearing points 41 and 51.

In addition to the embodiments shown here, the invention allows further Design approaches too.

The shift lever 6 according to the invention can also be telescoped from two interacting parts are formed. The necessary compression The two parts of the shift lever 6 in the closed position can then, for example by sliding or rolling off a corresponding guide device of the Switching part can be realized in a cam track.

In the exemplary embodiments shown, the kinks are bent towards each other Parts of the shift lever 6 transferred to an almost extended position. Furthermore, it is possible to transfer the parts of the shift lever 6 directly into the extended position, the shift lever 6 by the action of the operating lever 71 in the is in the correct position.

The switch 1 according to the invention is in accordance with an illustrated embodiment designed as a medium voltage switch. However, it can also be used as a high-current disconnector or any other electrical switch can be used.

Furthermore, the shift lever 6 can also consist of more than two parts.

The shape of the bearing points is not limited to a cylindrical one, but can also have a different curve shape, which, however, is preferred in Transverse direction to the shift lever 6 has a linear course. This is especially true for the bearing 51, in which the end portion 64 of the switching part 62 during the Switching process slides into it.

Furthermore, in particular the bearing point 51 can also be planar as a corner area Surfaces are formed to simplify the construction of the switch. The End region 64 of the switching part 62 then does not have to be arched.

The size of the contact area at the end regions 63 and 64 and Bearing points 41 and 51 can be extended in the transverse direction by the extension of the elements can be varied to the shift lever 6. This allows the switch 1 to be transferred Current strength can be aligned.

The invention thus creates an electrical switch 1, which at least one has two-part shift lever 6. This acts between the two parts of the Shift lever 6 a spring device such that the shift lever 6 in the The closed position is energized and the spring force at bearing points 41 and 51 of the electrical switch 1 is supported to form the electrical contact. In In a special embodiment, a swivel part 61 and a switching part 62 of the Shift lever 6 in the open position in a bent relative position to each other. When the closed position is reached, this is counter to the voltage of the Spring device under the force of the actuator in a less transferred kinked position, in which the total length of the shift lever 6 thus represents larger. With such an electrical switch 1 can be short Closing distances and short closing times with high surface pressure on the Realize contact points. The contact surfaces lie well against each other and have large areas. This means that even high currents can be reliably and be transmitted permanently. Furthermore, there are only relatively low actuation forces Switching required.

Claims (15)

Electrical switch (1) for power supply networks, in particular medium-voltage switches, with a pivotally mounted switching lever (6) which can be switched between a closed position and an open position at an angle to it by means of an actuating member (71), the switch lever (6) in the closed position for reduction of the contact resistance with high surface pressure,
characterized, that the shift lever (6) is formed at least in two parts with a spring device effective between the parts (61, 62), and that the switching lever (6) is held in the closed position such that the spring device is under tension and the spring force is supported at the bearing points (41, 51) of the electrical switch (1) to form the electrical contact. Electrical switch according to claim 1, characterized in that the two Parts (61, 62) of the shift lever (6) are articulated to one another, the Spring device the two parts (61, 62) in the open position in a kinked Relative position holds against the when reaching the closed position Tension of the spring device under the action of the actuator (71) can be moved into a less kinked position. Electrical switch according to claim 2, characterized in that the two Parts (61, 62) of the shift lever (6) in the less kinked position near the stretched situation. Electrical switch according to claim 2 or 3, characterized in that the two parts (61, 62) of the shift lever (6) are mounted together with play are. Electrical switch according to claim 4, characterized in that the Joint play between the two parts (61, 62) of the shift lever (6) by a Elongated bolt connection is established. Electrical switch according to one of claims 1 to 5, characterized in that a bearing (41) as a concave cylindrical surface in a bearing body (4) is formed on which there is a cylindrical end (63) of a pivoting part (61) of the shift lever (6) is supported in the closed position. Electrical switch according to claim 6, characterized in that the cylindrical end (63) of the pivoting part (61) pivotable with bearing play the bearing body (4) is coupled. Electrical switch according to one of claims 1 to 7, characterized in that the other bearing (51) is concave, one end (64) of the Switching part (62) of the shift lever (6) is curved analogously to the outside and while of the closing process engages in the other bearing (51) and during the relative movement of the parts (61, 62) of the shift lever (6) slides. Electrical switch according to one of claims 1 to 7, characterized in that the other bearing (51) is designed as a corner area, one end (64) of the switching part (62) of the shift lever (6) is formed analogously and during of the closing process engages in the other bearing (51) and during the relative movement of the parts (61, 62) of the shift lever (6) slides. Electrical switch according to one of claims 1 to 9, characterized in that it has a vacuum switching device (8). Electrical switch according to claim 10, characterized in that the Switching part (62) has an arm (65) which is articulated to a movable Contact element of the vacuum switching device (8) is coupled that the Contact elements of the vacuum switching device (8) when closing the electrical switch (1) by means of the pivoting movement of the two parts (61, 62) of the shift lever (6) close to each other. Electrical switch according to claim 11, characterized in that the Movable contact element has a roller device (83), which with a Rolling surface (66) of the arm (65) cooperates. Electrical switch according to one of claims 10 to 12, characterized characterized in that the movable contact element of the Vacuum switching device (8) is biased by means of a spring (84) Spring is part of the spring device of the electrical switch (1). Electrical switch according to one of claims 10 to 13, characterized characterized in that the vacuum switching device (8) with a further spring (85) has less spring force than that of the other spring (84) which opens of the contact elements in the vacuum switching device (8). Electrical switch according to one of claims 10 to 14, characterized characterized in that the pivot angle between the open and closed positions of the electrical switch (1) larger than that for closing the contact elements the vacuum switching device (8) required angle.

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