WO2015036011A1

WO2015036011A1 - Switching device comprising a damping element for contact arrangement

Info

Publication number: WO2015036011A1
Application number: PCT/EP2013/068708
Authority: WO
Inventors: Tobias KEMPTNER; Martin Steinbauer; Günter WIESENT
Original assignee: Siemens Aktiengesellschaft
Priority date: 2013-09-10
Filing date: 2013-09-10
Publication date: 2015-03-19

Abstract

The invention relates to a switching device comprising a contact slide element (1), which has a contact slide (2), in which a movable switching piece (3) with contacts (4) is guided, and a fixed switching piece (5) with contacts (6), which is arranged opposite the movable switching piece (3). The invention is characterized in that a damping element (11) is arranged above the contact slide (2) and is designed in such a way that a reflection of the accelerated contact slide (2) on a switching lever (10) of a switching mechanism (9) and subsequent reopening of the contacts (4, 6) of the movable and fixed switching pieces (3, 5) is ruled out.

Description

description

^Switching device with a damping element for the Kontaktanord ^¬ tion

The invention relates to a switching device with a contact ^¬ slide unit, which has a contact slide, in wel ^¬ chem a movable contact piece is guided with contacts, and a fixed contact piece with contacts, which is arranged opposite to the movable contact piece.

Switching devices, in particular circuit breakers, serve, among other things, the safe switching off in the event of a short circuit and thus protect consumers and systems. Further, electrical or mechanical switching devices for loading ^¬ instinctive manual switching of consumers and for si ^¬ Cheren separation of a plant from the power supply during maintenance work or changes in the plant are suitable. Electrical switching ^¬ units are often operated electromagnetically.

That is, such switching units are high-quality electrical switching devices with integrated protection for Mo ^¬ gates, lines, transformers and generators. They are used more closely at workstations with a lower switching frequency. Such switching units are suitable in addition to the short circuit protection for overload protection.

In the case of a short circuit, an electrical switch

Switching unit safely disconnects an electrical system. Thus, this provides a protection against overload. Every conductor through which electricity flows heats up more or less. The heating depends on the ratio of the current to the conductor cross-section, the so-called current density. The current density must not be too large, otherwise the conductor insulations may be spattered or possibly cause a fire due to excessive heating. To protect electrical equipment against these damaging effects, switching units are used as overcurrent protective devices. Circuit breakers have two separate release mechanisms for overload and short-circuit protection. Both triggers are connected in series. The protection in the event of a short-circuit takes over a temporally almost instantaneous act ^¬ the electromagnetic release. In the event of a short circuit, the electromagnetic release unlocks without delay a circuit breaker of the circuit breaker. A switching armature disconnects the contactor before the short-circuit current can reach its maximum value.

Known switching units have a contact slide unit with a contact slide and a movable contact piece. The movable contact piece also has electrical contacts. Furthermore, such switching units have first contacts to a power line. In an on state, the electrical contacts of the movable contact piece contact the fixed contacts of the switching unit. In the short ^{¬ case} , the electrical contacts of the movable contact piece are released from the fixed contacts, so that the flow of current is interrupted. Here, the movable contact is released from the fixed contacts.

In addition to their protective functions as overload and short-circuit releases, as already mentioned above, circuit breakers also fulfill the normative switching on and off of motors. To prove these functions, the circuit-breakers must be able to switch on ten times the rated motor current according to the product standard. In order to be able to ensure this limit load, it is necessary that the circuit breaker the Doppelunterbre ^¬ tion of the three current paths in the form of a respective movable bridge with two contact points and two fixed Kontaktstel ^¬ len, almost simultaneously and in a jump function

closes.

To realize this function is via a hand-operated mechanism in the form of an actuating element, a switch ^{¬ castle} and a transmission chain, the contact apparatus Contact slide and a moving bridge released. The release takes place by a so-called quick turn-on. The three contact systems are only released by a mechanism after the switch lock has already been switched on.

Now, the spring-loaded in the form of a contact load spring determines the kinematics of the contact system when switching. After striking the bridges on the Festschaltstücken the contact slide accelerates until it is reflected at a stop. Due to the reflection and the resulting kinetic energy of the contact slide, a he ^¬ neute opening of the contact system. This can lead to welds with a simultaneously increased current in this current path.

Accordingly, the object of the present invention da ^¬ rin to provide a switching device with a contact slide unit with ei ^¬ NEM contact slide and a movable contact ^piece , in which a reflection of the contact slide during the switching and thus reopening of the contacts of the movable and the fixed contact piece prevented becomes . This object is achieved by a switching device with the features of claim 1. More exporting ^¬ approximately examples of the invention emerge from the dependent claims, the description and the drawing. According to the invention this object is achieved by a switching device with a contact slide unit having a Kontaktschie ^¬ ber, in which a movable contact piece is guided with contacts, and a fixed contact piece with contacts, which is opposite to the movable contact ^piece . The invention is characterized in that above the contact slide, a damping element is arranged, which is designed such that a reflection of the accelerated contact slide on a Shift lever of a switching mechanism and a subsequent repeated opening of the contacts of the movable and the fes ^¬ th switching piece is excluded. For switching devices with a high rated current and the normative established fact that it must be possible to switch ei ^¬ nen ten times the rated motor current, it is necessary to bring the Einschaltdynamik the switch as much as possible a step function. This is done by a

Fast activation realized.

The principle of quick turn-on, ie a spontaneous activation, based on the fact that the closing movement of the contact device of contact slide, movable contact piece and fixed contact piece of the switch-on movement of the switching mechanism, ie superordinate actuated by the hand Mecha ^¬ nik, decoupled from actuator, switch lock and transmission ^¬ chain becomes. The contact apparatus and hence the Brü ^¬ bridge is held during the switch to a certain distance from the fixed contact members until the latching mechanism or the parent hand-operated mechanism of Be ^¬ tätigungselement, switch latch and transmission chain, have completed the switch-on. Only then is the contact device released, as a result of which the contacts are closed by the prestressed spring accumulator in a kind of jump function.

Due to the high forces of the contact load spring, which are necessary due to the large device ratings, the contact slide is further accelerated after the contacts are closed, thereby strikes the lever, is reflected by this and opens during the collision with the bridge again the contacts , which can lead to Ver ^¬ welds, which in turn can lead to the failure of the device.

The essence of the invention is now to use a damping element which is either part of the upper part itself. can be part of a present in the upper part assembly or a part. The object of this Dämpfungsele ^¬ ment is the contact slide, after the device has been turned on by means of quick turn on, the kineti- see energy to avoid and thus to avoid reflecting the contact slide and thus opening the contacts.

In a particularly advantageous exemplary embodiment of the invention ^¬ it can be provided that the damping element is formed such that the kinetic energy of Kon ^¬ clock slider is convertible into a self-deformation energy. That is, the damping element according to the invention is deformed upon impact of the contact slide to minimize the kineti ^¬ cal energy of the contact slide.

A further advantageous embodiment of the invention can be designed such that the damping element is designed as an elastomeric cushion or as a counter-spring, which dampens the kinetic energy of the contact slide and prevents the contact slide from coming into contact with the switching lever.

In a further advantageous embodiment of the invention, it may be provided that the damping element has a rebound slope. This would mean that a contact slide which accelerates in the direction of the shift lever is braked by the action of force. Depending on how the

Rebound slope is executed, the contact slide is now subjected to a transverse force and a torsional moment in non-central arrangement of the rebound bevel. These in turn result in frictional forces between the contact ^slide and the contact ^slide guide in the lower part, which brake the contact ^slide and prevent it from reflecting. It also corresponds to the invention that the switching device is preferably a circuit breaker. The invention is characterized in that by using a damping element which is arranged on the upper part or on an assembly located in the upper part or part, the contact slide is effectively damped and a reflection and a subsequent opening of the Kon ^¬ clocks of the movable and fixed contact is prevented. It is particularly advantageous to execute the Dämpfungsele ^¬ ment with a rebound slope, since the rebound ^¬ oblique part of an existing module or a part may be, so that no additional part is needed. The invention is also distinguished by the fact that it is not necessary to deviate from the usual assembly processes. The damping element also assumes also the radio ^¬ tion of a stop, that is, so it prevents Welding of the copper current paths when the silver material is burned.

Further advantages and embodiments of the invention will be explained below with reference to an embodiment and with reference to the drawing.

Here are shown schematically:

Figure 1 is a sectional view of a switching device in the reflection of the accelerated contact slide on the shift lever from the prior art.

FIG. 2 is a sectional view of a switching device according to the invention with a damping element in the switched-on state; FIG.

3 shows a sectional view of an inventive switching device with damping element in the off state.

4 is a sectional view of an inventive switching device with an elastomeric pad or a counter-spring as a damping element. Fig. 5 in a sectional view of an inventive switching device with a damping element with rebound bevel.

Fig. 1 shows a switching device of the prior art with a contact slide unit 1, which has a contact slide 2, in which a movable contact piece 3 is guided with contacts 4. Opposite to the moving one

Switching piece 3 with the contacts 4 is a fixed contact piece 5 is arranged with contacts 6. Below the mobile

Switching piece 3, a spring element 8 is arranged in the lower part 7 of the contact slide 2. The switching device also has a switching mechanism 9, which is in operative connection with a shift lever 10. Fig. 1 shows the switching device in the on ^¬ switched state.

Fig. 2 shows an inventive switching device with the same arrangement of the components as in Fig. 1 and with an additional damping element 11. The switching device is also in the on state. The damping element 11 according to the invention is above the contact slide 2 is ^¬ arranged at a height such that a reflection of the ACCEL ^¬-adjusted contact slide 2 on the gear lever 10 of the switching Schlos ^¬ ses 9 and a subsequent repeated opening of the Kontakt ^¬ te 4, 6 of the movable and of the fixed contact piece 3, 5 is excluded. The damping element 11 may preferably be formed as an elastomer cushion or as a counter-spring, which dampen the kinetic energy of the contact slide 2 and prevent the contact slide 2 comes into contact with the shift lever 10.

Fig. 3 shows the embodiment of FIG. 2, wherein the switching device is now in the off state.

Fig. 4 shows the embodiment of FIGS. 2 and 3, wherein the impact moment of the contact slide 2 on the inventive ^¬ Shen damping element 11 is shown. 5, a further embodiment of the inventions ^{¬ to the} invention damping element 11 is shown, which has a rebate slope 12. Due to the rebound slope 12, an accelerated in the direction of lever 10 contact slide 2 is braked by force. Depending on how the Abprallschräge is executed 12, the contact slide 2 with egg ^¬ _Q ner transverse force F _T M and torsional moment is applied at not central to the proper ^¬ Abprallschräge 12th These have as ^¬ derum frictional forces F _R between the contact slider 2 and the contact-slide guide in the lower part 7 of the contact slide 2 result, which brake the contact slide 2 and prevent reflection.

The invention is characterized in that by using a damping element which is arranged on the upper part or on an assembly located in the upper part or part, the contact slide is effectively damped and a reflection and a subsequent opening of the Kon ^¬ clocks of the movable and the fixed contact is prevented. It is particularly advantageous to execute the Dämpfungsele ^¬ ment with a rebound slope, since the rebound ^¬ oblique part of an existing module or a part may be, so that no additional part is needed. The invention is also distinguished by the fact that it is not necessary to deviate from the usual assembly processes.

The damping element also assumes also the radio ^¬ tion of a stop, that is, so it prevents Ver ^¬ weld the copper current paths when the silver material is burned.

Claims

claims

1. Switching device with a contact slide unit (1), the egg ^¬ nen contact slide (2), in which a movable contact piece (3) with contacts (4) is guided, and a fixed contact piece (5) with contacts (6), which opposite to the movable contact piece (3) is arranged, characterized in that above the contact slide (2) a damping element (11) is arranged, which is designed such that a reflection of the accelerated contact ^¬ slider (2) on a shift lever (10) of a switching mechanism (9) and a subsequent repeated opening of the contacts (4,6) of the movable and the fixed contact piece (3,5) from ^¬ closed.

2. Switching device according to claim 1, characterized in that the damping element (11) is designed such that the kinetic energy of the contact slide (2) is convertible into a self-deformation energy.

3. Switching device according to claim 1 or 2, characterized in that the damping element (11) is formed as an elastomeric pad from ^¬ .

4. Switching device according to claim 1 or 2, characterized in that the damping element (11) is ausgebil ^¬ det as a counter spring.

5. Switching device according to claim 1, characterized in that the damping element (11) has a rebound bevel (12).

6. Switching device according to one of claims 1 to 5, characterized ge ^¬ indicates that the switching device is a circuit breaker.