This application is a US National Phase of PCT/EP2018/000167, filed Apr. 6, 2018, which claims priority to German Application No. 10 2017 107 441.4, filed Apr. 6, 2017, the entireties of which are incorporated by reference herein.
The present invention refers to a switch device according to the preamble of independent claim 1.
A generic switch device has at least one contact point, the contact point having a first contact and a second contact, the first and second contacts being spaced apart in an open position and electrically contacting each other in a closed position. An arc blowout device for generating a magnetic blowout field is assigned to the contact point, whereby the blowout field is designed in such a way that an arc generated when the contact point is opened is blown away from the contact point.
Switch devices according to the preamble of independent claim 1 are known from the state of the art. For example, patent specification EP 0380012B1 describes a current-limiting circuit-breaker with one contact and one mating contact, each located on a pivoting switching arm. In the event of a short circuit, the two switching arms swing apart so that the contact point is opened. The resulting switching arc is driven into an arcing chamber by a magnetic blowout field. To prevent the base point of the switching arc on one of the two arms from running in the wrong direction, part of this switching arm is fitted with a plastic insulating cap. The insulating cap is located on the side of the switching arm facing the second switching arm. The switching arm with the insulating cap is connected via a current path to a terminal contact of the circuit-breaker. The current path serves as an arc guide plate on which the base point of the switching arc jumps when the switching arc is blown away from the contact point, and which guides the switching arc on its way to the arcing chamber and stretches it accordingly.
A further switch device according to the preamble of independent claim 1 is known from WO 2012/076605 A1. This switch device has a double interruption with two contact points. Each contact point consists of a fixed contact and a corresponding movable contact, whereby the two movable contacts are part of a contact bridge aligned parallel to the blowout field. The switch device is designed for bidirectional operation and therefore has arc extinguishing means on both sides of the contact bridge. The switching arc is blown away from the respective contact point in one of the two directions depending on the current direction. The direction of movement of the switching arc thus runs transversely to the longitudinal extension of the contact bridge. In order to guide the switching arc into one of the associated arc extinguishing means, corresponding arc guide plates are provided. These extend both from the respective fixed contact as well as from the associated movable contact on the contact bridge laterally to the outside up to the corresponding arc extinguishing means.
The object of the present invention is to provide a switch device of the generic type with a particularly simple and compact design, while at the same time ensuring reliable extinguishing of the arc. For the purpose of simplicity, the switching arc is referred to as an arc in the following designs.
The object is solved by the features of the independent claim 1. According thereto a solution to the object according to the invention exists in a switch device according to the preamble of independent claim 1 if at least one of the two contacts has a non-conductive cover on a non-contact-facing side which prevents a base point of the arc from crossing the non-contact-facing side.
The solution according to the invention offers the advantage that the arc can be particularly strongly bent and thus stretched, without the danger that the base point of the arc will circle the contact and thus cannot be extinguished. At the same time, the switch device according to the invention remains particularly compact. At the contact provided with the cover according to the invention, no arc guide plate is required to which the base point of the arc jumps when the arc is blown away from the contact point and which serves to stretch the arc and lead it to a corresponding arc extinguishing device. This makes the switch device according to the invention not only particularly compact, but also light and inexpensive to manufacture, since various parts required for conventional switch devices of the generic type can be dispensed with. The side of the covered contact facing the other contact does not have a cover.
The blowout field of the switch device according to the invention is preferably generated purely by permanent magnetism. This means that no electromagnetic blowout coils are required to generate the magnetic blowout field. One or more permanent magnets are preferably used to generate the magnetic blowout field. The permanent magnets can be assigned to pole plates which ensure a homogeneous magnetic field in the required areas. The use of permanent magnets contributes to a compact, lightweight and cost-effective design.
Advantageous embodiments of the present invention are the subject of the subclaims.
According to a particularly preferred embodiment of the present invention, the cover extends from the non-contact-facing side of the respective contact over an edge of the respective contact which runs essentially orthogonal to magnetic field lines of the blowout field to a free end face of the respective contact, so that the end face is also at least partially covered by the cover. This prevents the base point of the arc from running along the end face of the contact. The end face is preferably completely covered by the cover. Further preferably the end face is also orthogonal to the magnetic field lines of the blowout field. If the switch device according to the invention is a switch device with double interruption and a contact bridge aligned parallel to the magnetic blowout field, both ends of the contact bridge are preferably covered by the cover.
According to another particularly preferred embodiment of the present invention, the cover, on a longitudinal side of the contact which is substantially parallel to magnetic field lines of the blowout field, has a recess which is arranged and formed in such a way that the base of the arc runs into the recess when the arc is blown away from the contact point. The non-contact-facing side of the respective contact is thus not partially covered by the cover in this design. This allows the base point of the arc to run into the recess. It is captured, so to speak, in the recess. In front of and behind the recess, the cover preferably extends across the entire width of the respective contact up to its long sides. This embodiment is particularly effective in preventing that the base point of the arc goes around the contact, so to speak, and that the arc cannot be extinguished. It also prevents the base point from breaking out in an undesirable direction. It turned out to be advantageous if the recess is arched. The recess is particularly preferred to be circular in shape. As an alternative, the recess can also be non-arch-shaped, e.g. rectangular. However, a curved recess has proved to be particularly advantageous.
According to another preferred embodiment of the present invention, the cover is made of plastic. Furthermore, it is preferably a high-temperature resistant plastic. The use of polyetherimide (PEI) has proven to be particularly suitable. This ensures a long service life. At the same time, the use of plastic as the material for the cover makes it possible to manufacture the switch device in accordance with the invention at low cost. Other insulating or non-conductive materials are also conceivable as material for the cover. The cover can also be made of ceramic, for example. The cover can either be glued to the respective contact, latched to the contact or otherwise connected to the corresponding contact.
In another particularly preferred embodiment of the present invention, the switch device has a double interruption with two contact points, the first contact of each of the two contact points being a fixed contact, and the second contact of each of the two contact points being part of a common contact bridge aligned parallel to magnetic field lines of the blowout field. With this design, the cover can preferably extend over the entire side of the contact bridge that faces away from the two fixed contacts. The two non-contact-facing sides of the moving contacts thus form a single non-contact-facing side of the contact bridge. Since the blowout field of this embodiment is essentially aligned parallel to the longitudinal extension of the contact bridge, the arc is blown away from the respective contact point at right angles to the contact bridge. The advantageously provided recesses in the cover are thus located on the long sides of the contact bridge.
Furthermore, each contact point is preferably assigned an arc extinguishing means for this embodiment. This allows the arc to be extinguished reliably. The switch device is particularly preferred for bidirectional operation, with the arc extinguishing means having extinguishing elements arranged at both sides of the contact bridge. The arc extinguishing means or its extinguishing elements can also be made of plastic. Here the use of polyamide (PA) is suitable in order to achieve a cooling effect on the arc by evaporation of the polyamide when the arc is applied. The extinguishing elements can, of course, also be made of another suitable material, such as ceramic.
In accordance with a particularly preferred further development of this embodiment, the extinguishing elements are also arranged at the non-contact-facing side of the contact bridge. The extinguishing elements preferably have a certain distance to the contact bridge. Despite its particularly compact design, this embodiment achieves a particularly high extinguishing capacity. The arc can be particularly strongly bent by the magnetic blowout field and thus stretched until it is finally extinguished by the extinguishing elements of the arc extinguishing means.
According to another preferred further development of this embodiment, the fixed contacts are wider than the contact bridge in a direction orthogonal to the magnetic field lines of the blowout field. Further preferably the fixed contacts reach up to the arc extinguishing means and serve at the same time as arc guide plates. At this point it should be emphasized again that no arc guide plate is necessary at the opposite moving contact or at the contact bridge.
According to another particularly preferred embodiment of the present invention, the arc extinguishing means together with the arc blowout device forms a removable assembly without tools, which can be attached to a housing of the switch device by means of snap-in hooks. This makes it particularly easy to maintain the switch device according to the invention or to replace the arc extinguishing and blowout device. The snap-in hooks are preferably elastic tongues, which are also preferably part of the arc extinguishing means or the assembly consisting of arc extinguishing means and arc blowout device. They snap into place with the corresponding snap-in elements of the housing. Furthermore, preferably one bracket on the housing side is provided per snap hook, which surrounds the latched end of the snap hook and prevents unintentional loosening of the latch by attaching a latch, for example by means of sealing, and overstressing of the material caused by overstretching when the latch is loosened. Furthermore, all arc extinguishing means and arc blowout devices at the two contact points are preferably combined into a single removable assembly.
According to another preferred embodiment of the present invention, the switch device according to the invention also has an arcing chamber cover which is designed in such a way that plasma generated by the arc and exiting between the extinguishing elements arranged on the non-contact-facing side of the contact bridge is deflected laterally. The deflection preferably takes place in such a way that the plasma exits at two opposite sides of the switch device. This prevents plasma from escaping from the top of the switch device, such that the distance between the switch device according to the invention and other components arranged above the switch device can be reduced. This makes it considerably easier to install the switch device according to the invention in a corresponding device in which the switch device is to be used.
According to another preferred embodiment of the present invention, the arcing chamber cover can be attached to the assembly consisting of arc extinguishing means and arc blowout device without tools by means of snap-in hooks. The arcing chamber cover can thus be easily replaced or retrofitted to the switch device in accordance with the invention.
An embodiment of the present invention is explained in more detail below using drawings.
For the following embodiments, identical parts are designated by identical reference numerals. If a Figure contains reference numerals which are not described in detail in the corresponding Figure description, reference is made to preceding or subsequent Figure descriptions.
When the contact point is opened, a switching arc 24 is created between the contact surfaces 4 and 5, which is blown away from the contact point by the magnetic blowout field transverse to the longitudinal extension of the contact bridge. Depending on the current direction, the switching arc 24 is blown either to the left or to the right as shown in
The cover 8 is best shown in the plan view from
As
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Number | Date | Country | Kind |
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102017107441.4 | Apr 2017 | DE | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2018/000167 | 4/6/2018 | WO |
Publishing Document | Publishing Date | Country | Kind |
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WO2018/184727 | 10/11/2018 | WO | A |
Number | Name | Date | Kind |
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9406465 | Fasano | Aug 2016 | B1 |
20140346144 | Coquil | Nov 2014 | A1 |
Number | Date | Country |
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106252164 | Dec 2016 | CN |
19 46 065 | Sep 1966 | DE |
1 168 392 | Jan 2002 | EP |
H08-45411 | Feb 1996 | JP |
2002-352653 | Dec 2002 | JP |
2007-305468 | Nov 2007 | JP |
2014-146502 | Aug 2014 | JP |
2015144309 | Oct 2015 | WO |
Entry |
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Chinese Office Action in related Chinese Patent Application No. 201880037437.9, dated Mar. 15, 2021 (13 pages). |
International Search Report (ISR) dated Jul. 2, 2018 from the corresponding International Patent Application PCT/EP2018/000167 (six pages). |
Notice of Reasons for First Refusal in related Japanese Patent Application No. 2019-553827, dated Dec. 1, 2020 (seven pages). |
Number | Date | Country | |
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20220310342 A1 | Sep 2022 | US |