EP1897111A1

EP1897111A1 - Contact system, especially for a switchgear

Info

Publication number: EP1897111A1
Application number: EP06763705A
Authority: EP
Inventors: Michael Soukup
Original assignee: Siemens AG
Current assignee: Siemens AG
Priority date: 2005-06-20
Filing date: 2006-06-14
Publication date: 2008-03-12
Anticipated expiration: 2026-06-14
Also published as: CN101194334A; WO2006136524A1; DE102005028474B4; US20100108484A1; DE502006004391D1; EP1897111B1; DE102005028474A1

Abstract

The invention relates to a contact system (2) comprising a contact bridge (15) that can be pivoted about an articulated axis (16) and is provided with a moving contact (11b, 12b) on the respective opposing ends (13, 14) thereof, each moving contact forming a contact point (K1, K2) with a fixed contact (11a, 11b) associated therewith. The articulated axis (16) is arranged in such a way that it can be displaced in the opening direction (19) of the contact points (K1, K2) along a guide (17) such that only a first contact point (K1) opens during normal operation, while both contact points (K1, K2) open in the event of an overcurrent and/or short circuit.

Description

Contact system, in particular for a switching device

The invention relates to a contact system for closing ^¬ Shen and opening a current path. Under current path here is in particular a Polpfad a single or multi-pole switching and / or protective device, in particular a power switch ^¬ understood to switch a load.

Such a contact system usually comprises at least one contact having a moving contact and a fixed contact, which enables a manual closing and opening of a current path via a switching mechanism. In addition to manual switching function, the contact system responds to ^¬ particular when they are used in a circuit breaker, in the over-current or short-circuit case having a thermally-magne ^¬ table or electronically indexed automatic overcurrent tripping, as a result, a power-operated contact opening of the at least one contact point within of

Current paths takes place. Services for the control of high ^¬ shutdown of the contact point in the form of so-called running extinguishing plates arc extinguishing chambers ^¬ are provided in the opening region.

Also, two contact points can be provided in a contact system, the moving contacts are connected via a contact bridge syn ^¬ chron relative to the associated fixed contacts. Thus, from DE 198 36 549 Al a translationally displaceable for closing and opening the contact points contact bridge is provided, with which the moving contacts are moved ^¬ time in the closed or open position. A contact system with a rotationally moving contact bridge for simultaneously actuating the moving contacts of both contact points is known from EP 0 538 149 B1. The invention is based on the object of specifying a particularly ge ^¬ One suitable contact system with two contact points.

This object is achieved by the features of claim 1. For this purpose, a pivotable about a hinge axis ^¬ bare contact bridge is provided in which the hinge axis is slidably disposed in the opening direction of the contact points along a web guide. Here, le ^¬ opens during operation diglich while gegenüberlie- constricting second contact point is closed a first contact point. Open in the overcurrent and / or short-circuit case, both the first contact ^¬ point and the second contact point.

According to a preferred variant, the contact bridge is coupled with a switch lock via a shift lever which is displaceable along the web guide. For this purpose, the shift lever engages the bridge side on the hinge axis. Although the joint axis ^¬ can in principle be arranged on the shift lever, whereas the led expediently designed as slot-like link, hereinafter also referred to as guide link

Web guide is provided on the contact crutch. Preferably, however, the guide slot on the shift lever and the Ge ^¬ steering axis are provided on the contact bridge, coupled and.

The web guide forming the guide slot has two spaced ^¬ to each other and - with respect to the opening direction of the contact points - opposing contact edges on. Here, a first (upper) bearing edge of the web guide ^¬ a pressure stop which when the hinge axis is present in the closed first contact point. In this Be ^¬ drove case closed first and second contact point expediently ^¬ affects a first spring element as a compression spring, in the area of the hinge axis on the contact link. For operational opening only the first contact point of this spring element then acts as a tension spring. A second (lower) abutment edge of the web guide represents a pull stop on which the hinge axis rests when the first contact point is open. In the event of overcurrent or short circuit, this pull stop acts as a fixed bearing for the articulated axle.

According to an essential aspect of the invention, the second contact point is always closed during operational opening of the first contact point. For this purpose, in a useful embodiment, a second engages at the second contact point

Spring element, which acts on the corresponding moving contact in the ^¬ sen closed position with a spring force. The spring force acting in the closing direction of the second contact point is preferably greater than the tensile force of the first spring element. A simple and reliable opening and closing ^¬ the first contact point in the undisturbed operating case SEN to enable a pivot ^¬ or rotary bearing is formed at the second contact point. For this purpose, the moving contact of the second contact point has a curved or hemispherical contact surface.

In a preferred embodiment of ge between the hinge axis and the moving contact of the first contact point ^¬ formed lever arm is longer than the overall genüberliegende along the contact bridge, between the hinge axis and the Move ^¬ the second contact point contact arm formed.

The fixed contact of the respective contact point is arranged on a the associated moving contact facing rail leg of a busbar, which is for example U-shaped out ^¬ forms. Means of the current rail, in particular due to their shaping, is at or at least one contact point, be ^¬ vorzugt at both contact points, causes a reversal of the current direction in the busbars. This results in the over-current or short-circuit case, at the respective contact ^¬ location to a dynamic power and magnetic force from ^¬ abutting effect from the corresponding moving contact wear- the lever arm of the contact bridge. The spring element acting on the second contact point ^¬ is dimensioned such that its spring or return force is smaller than that occurring in the over-current or short-circuit case, dynamic forces.

For a conditional basis of these dynamic forces triggering of the protective function of the contact system, the Ge ^¬ proposes steering axle of the tension stop the web guide. As a result, arises for the hinge axis, a fixed bearing about which pivots the contact bridge automatically in the opening direction of the contact points.

The contact system is particularly suitable for single and multi-pole switching devices used in AC networks or

Compact circuit-breakers with rated currents of, for example, 10 A to 2500 A and high breaking capacities of 20 kA and higher. In this case, the opening area of each contact point is assigned a quenching chamber.

An embodiment of the invention will be explained in more detail with reference to a drawing. Show:

1 shows schematically within a circuit breaker a contact system with different switching positions of a contact bridge at two contact points,

2 shows the contact system in the case of operation with closed

Contact points,

3 shows the contact system in the operating case with a geöff ^¬ Neten and a closed contact point,

4 shows the contact system in the event of a short circuit with opening contact points, and 5 shows the contact system during a short circuit with completeness, ^¬ dig open contact points.

Corresponding parts are provided in all figures with the same reference numerals.

1 shows a switching and / or protective device, for example a modular compact circuit breaker 1, with a contact system 2 that is coupled via a switching lever 3 with a switching mechanism 4. About the switch latch 4, the contact system 2 for closing and opening a rudimentary only 5 shown rung 5 can be manually operated in a manner not shown by means of an actuating lever or a rocker switch. The circuit breaker 2 further comprises a trip unit 6.

The current path 5 executes within the contact system 2 to a power rail 7 to a first contact point Kl and opposite ^¬ lying at a further current rail 8 to a second contact point K2. In the opening region of the two contact points Kl and K2 one of so-called extinguishing plates gebil ^¬ finished extinguishing chamber 9 and 10 are respectively provided. The two busbars ^NEN 7 and 8 are each U-shaped to form a ^¬ each of the respective contact points Kl, K2 facing first rail Schenkeis 7a, 8a and one of the respective contact point Kl, K2 facing away from rail leg 7b and 8b U-shaped bent , The respective contact point Kl, K2 facing rail leg 7a and 8a carries on the outside each a Festkon ^¬ clock IIa, 12a of the contact point Kl or K2. The respective contact point Kl, K2 respectively associated movement contact IIb, 12b is held at a respective bridge end 13 and 14 of a contact ^¬ bridge 15 of the contact system 2.

The contact bridge 15 has a hinge axis 16 in the region between the two contact contacts IIb and 12b. This is guided along a web guide 17, which is a slot-like Recess in the shift lever 3 in the region of the contact bridge 15 facing the lever end 18 is introduced.

In Figure 1, the contact bridge 15 is shown by a solid line in the closed operating case, in which both the first contact Kl and the second contact K2 is closed. The contact ^¬ is shown in dashed lines bridge 15 on the one hand in normal operation with open contact point 1 and the closed contact point 2, and on the other hand in case of short circuit in the open contact point Kl and K2 open contact point. Depending on the position or position of the contact bridge 15, the shift lever 3 is in different displacement positions along the opening or closing direction 19, which is also referred to below as the displacement direction.

These different positions, namely the position Pl of the shift lever 3 and thus the hinge axis 16 for the ge ^¬ closed position of both contact points Kl, K2 and the position P2 of the shift lever 3 and the hinge axis 16 with open contact point Kl and closed contact point K2 in normal operation is in FIG 2 and 3 illustrated ^¬ light.

According to the imple mentation form of FIG 2 engages at the second contact point K2 on this facing lever arm 14 of the contact bridge 15 on the corresponding moving contact 12b ge ^¬ facing bridge side executed in the embodiment as a compression spring (second) spring element 20 at. Another (first) spring element 21 is fastened with its spring ends on the one hand on the shift lever 3 and on the other hand on the hinge axis 16 be ^¬ . This spring element 21 acts in the illustrated in FIG 2 Darge ^¬ closed position Pl of the contact bridge 15 on the joint axis 16 connected thereto as a compression spring. In this position Pl, the hinge axis 16 is located at a

Pressure stop effective contact contour 22 of the web guide guide slot 17 forming. In the position P2 of the articulation axis 16 shown in FIG. 3, the spring element 21 acts as a tension spring. In this position P2, the hinge axis 16 is located on one of the system or sliding block contour 22 opposite and effective as a train stop system or backdrop contour 23 of the guide slot 17. For the opening or closing movement of the contact bridge 15 in the operating case, the contact point K2 forms a rotary or pivot bearing for the contact bridge 15. To support the thereby occurring rotational or pivotal movement of the contact bridge 15, the moving contact 12b of the second contact point K2 in Area of the fixed contact 12a facing contact surface arched or hemispherical curved.

FIGS. 4 and 5 illustrate the contact opening of both contact points K1 and K2 in the case of a short circuit or overcurrent. Such, in comparison to the normal operating case many times higher Kurschlussstrom caused due to the U-shaped configuration of the busbars 7 and 8 generated reversal of the current direction - as symbolized by the arrows in the region of the busbars 7, 8 - at the contact points Kl and K2 corresponding dynamic forces Fl, F2 in the opening direction 19 of the moving contacts IIb and 12b. Initially, the contact point opens Kl, as a result, the hinge axis 16 along the web guide 17 abuts the cable stop 23. In this position P3 thus creates a fixed ^¬ bearing for the hinge axis 16, by which the contact bridge 15 is pivoted in the opening direction 19. The dynamic forces Fl, F2 overcome the spring force of the spring element 20 at the second contact point K2 with the result that the contact bridge 15 pivots with simultaneous opening of both contact points Kl and K2 in the full open position.

Following the disconnection of the short circuit, the second contact point K2 closes automatically as a result of the spring force of the spring element 20 acting as a compression spring. To support the dynamic forces Fl, F2, the lever arms H1 or H2 of the contact bridge 15 formed between the first contact point K1 and the hinge axis 16 and between this and the second contact point K2 can be designed to be of different lengths. Preferably, the lever arm Hl is longer than the lever arm H2.

The spring elements 21 and 20 acting on the articulation axis 16 and on the second contact point K2, in conjunction with the contact bridge 15 and their lever arms H1 and H2, constitute a lever arm construction for transmitting power. This lever arm system or this lever arm construction initially permits the permanent closed position of a lever arm system the contact points Kl, K2 in the case of operation on the one hand and the reliable opening of both contact points Kl and K2 in the event of a short circuit.

In this way, a contact system 2 for realizing a double interruption of the contact points K1, K2 in the event of a short circuit as well as a single interruption, in particular of the first contact points K1, is provided in the case of operation.

Such a contact system 1 is therefore particularly suitable for a compact circuit breaker 1 for switching and for overcurrent tripping and thus for the protection of high-performance system components, eg. B. an engine. With such a

Contact system 2 equipped circuit breaker 1 is therefore also particularly suitable for connection to other system components within a complex power distribution system.

Claims

claims

1. contact system (2) for closing and opening a current path (5), with a about a hinge axis (16) pivotable contact bridge (15) at gegenüberlie ^¬ ing bridge end (13, 14) each have a moving contact (IIb, 12b), each of which with a this respectively ^¬ associated fixed contact (IIa, 12a) forms a contact point (Kl, K2), wherein the hinge axis (16) processing in Öffnungsrich- (19) of the contact points (Kl, K2) along a path guide (17) is arranged displaceably that in case of operation, only a first contact point (Kl) opens, and that in overcurrent and / or short circuit both contact points (Kl, K2) open.

2. Contact system (2) according to claim 1, wherein the web guide (17) has a pressure stop (22) on which the hinge axis (16) with the first contact point closed

(Kl) is present.

3. contact system (2) according to claim 1 or 2, wherein the web guide (17) has a pull stop (23), on which the hinge axis (16) when the first contact point

(Kl) is present.

4. contact system (2) according to claim 3, wherein the Zuganschlag (23) in the event of overcurrent or short circuit as a fixed ^¬ bearing for the hinge axis (16) is effective.

5. contact system (2) according to one of claims 1 to 4, with a with the contact bridge (15) via the hinge axis (16) coupled and along the web guide (17) displaceable lever (3).

6. contact system (2) according to claim 5, wherein the shift lever (3) with a switching lock (4) is coupled.

7. contact system (2) according to one of claims 1 to 6, with a for operational closing and operatio ^¬ moderate opening of the first contact point (Kl) on the Ge ^¬ steering axis (16) acting as a compression spring or as a tension spring first end spring element (21).

8. contact system (2) according to any one of claims 1 to 7, with an effective at the second contact point (K2) two ^¬ th spring element (20) whose spring force beat the associated motion contact (12b) in its closed position beauf ^¬ .

9. contact system (2) according to claim 8, wherein the spring force of the second spring element (20) is dimensioned larger than the tensile force of the first spring element (21).

10. contact system (2) according to one of claims 1 to 9, wherein the moving contact (12b) of the second contact point

(K2) has a curved contact surface (10).

11. contact system (2) according to one of claims 1 to 10, wherein the opening region of each contact point (Kl, K2) is associated with a quenching chamber (9, 10)

12. Contact system (2) according to one of claims 1 to 11, wherein the current direction reversal at the first and / or second contact point (Kl, K2) whose fixed contact (IIa, 12a) on a the associated moving contact (IIb, 12b) facing rail leg (7a, 8a) of an at least approximately U-shaped busbar (7, 8) is arranged.

13. Switchgear, in particular circuit breaker (1) or

Compact circuit breaker, comprising a contact system (2) according to one of Claims 1 to 12.