EP2230678A2 - Arc welding resistant contactor - Google Patents
Arc welding resistant contactor Download PDFInfo
- Publication number
- EP2230678A2 EP2230678A2 EP20100001056 EP10001056A EP2230678A2 EP 2230678 A2 EP2230678 A2 EP 2230678A2 EP 20100001056 EP20100001056 EP 20100001056 EP 10001056 A EP10001056 A EP 10001056A EP 2230678 A2 EP2230678 A2 EP 2230678A2
- Authority
- EP
- European Patent Office
- Prior art keywords
- contactor
- contact
- arc
- arcs
- protective cover
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 238000003466 welding Methods 0.000 title 1
- 230000001681 protective effect Effects 0.000 claims description 59
- 238000010791 quenching Methods 0.000 claims description 22
- 230000000171 quenching effect Effects 0.000 claims description 22
- 229910052751 metal Inorganic materials 0.000 claims description 6
- 239000002245 particle Substances 0.000 abstract description 14
- 230000003628 erosive effect Effects 0.000 abstract 1
- 238000007664 blowing Methods 0.000 description 20
- 239000000463 material Substances 0.000 description 10
- 239000000919 ceramic Substances 0.000 description 7
- 230000004913 activation Effects 0.000 description 5
- 229910052878 cordierite Inorganic materials 0.000 description 4
- JSKIRARMQDRGJZ-UHFFFAOYSA-N dimagnesium dioxido-bis[(1-oxido-3-oxo-2,4,6,8,9-pentaoxa-1,3-disila-5,7-dialuminabicyclo[3.3.1]nonan-7-yl)oxy]silane Chemical compound [Mg++].[Mg++].[O-][Si]([O-])(O[Al]1O[Al]2O[Si](=O)O[Si]([O-])(O1)O2)O[Al]1O[Al]2O[Si](=O)O[Si]([O-])(O1)O2 JSKIRARMQDRGJZ-UHFFFAOYSA-N 0.000 description 4
- 230000002787 reinforcement Effects 0.000 description 4
- 238000002485 combustion reaction Methods 0.000 description 3
- 238000000034 method Methods 0.000 description 3
- 230000008033 biological extinction Effects 0.000 description 2
- 238000011109 contamination Methods 0.000 description 2
- 230000005611 electricity Effects 0.000 description 2
- 238000009434 installation Methods 0.000 description 2
- 229910000906 Bronze Inorganic materials 0.000 description 1
- 206010033546 Pallor Diseases 0.000 description 1
- 239000010974 bronze Substances 0.000 description 1
- 229910010293 ceramic material Inorganic materials 0.000 description 1
- KUNSUQLRTQLHQQ-UHFFFAOYSA-N copper tin Chemical compound [Cu].[Sn] KUNSUQLRTQLHQQ-UHFFFAOYSA-N 0.000 description 1
- 238000012217 deletion Methods 0.000 description 1
- 230000037430 deletion Effects 0.000 description 1
- 230000001066 destructive effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 230000005672 electromagnetic field Effects 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 230000002452 interceptive effect Effects 0.000 description 1
- 239000002184 metal Substances 0.000 description 1
- 230000001007 puffing effect Effects 0.000 description 1
- 230000003014 reinforcing effect Effects 0.000 description 1
- 230000035939 shock Effects 0.000 description 1
- 229920001187 thermosetting polymer Polymers 0.000 description 1
Images
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H9/00—Details of switching devices, not covered by groups H01H1/00 - H01H7/00
- H01H9/30—Means for extinguishing or preventing arc between current-carrying parts
- H01H9/34—Stationary parts for restricting or subdividing the arc, e.g. barrier plate
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H9/00—Details of switching devices, not covered by groups H01H1/00 - H01H7/00
- H01H9/30—Means for extinguishing or preventing arc between current-carrying parts
- H01H9/44—Means for extinguishing or preventing arc between current-carrying parts using blow-out magnet
- H01H9/443—Means for extinguishing or preventing arc between current-carrying parts using blow-out magnet using permanent magnets
Definitions
- the invention relates to a contactor for DC and AC operation with at least one contact point with a fixed contact and a movable contact, which forms an arc when opening the contacts, and with an arc quenching device for extinguishing the arcs.
- Such contactors are used for example in railway operation for switching loads and for interrupting circuits with high currents or high voltages.
- switching operation i.
- an arc is created between the fixed contact and the movable contact.
- This arc maintains the flow of current between the contacts.
- the arc releases a large amount of heat, which leads to the burning of the contacts and thus can reduce the life of the contactor.
- the entire area affected by the influence of the arc is subjected to very high thermal loads. It is therefore a quick extinction of the arc required.
- a contactor for use in DC operation with a constant current direction usually has permanent magnetic blowing fields, which are arranged so that their field direction is perpendicular to the arc.
- the Blasfelder exert on the arc of a force, the Lorentz force, through which the arc is driven towards an extinguishing device. That's how it shows DE 10 2007 023 326 B4 an electrical switching device with a switching contact and two adjacent to the switching contact arranged magnetic body.
- the magnetic bodies drive arcs generated during switching into an arc quenching device.
- the coil only at the turn-off, i. when opening the contactor, activate and turn on the circuit. Since the inductances of the puff coils counteract sudden increases in current, the current transfer through the puff coils takes place with a time delay (E-function). The electromagnetic field is also built up with a time delay. This prolongs the residence time of the arcs in the contact zone of the contactor.
- the DE 10 2006 035 844 B4 shows a contactor for DC and AC operation.
- the contactor comprises adjacent to the contact points arranged permanent magnets and coils that drive the arcs generated during switching in a quenching device.
- the coils are activated by the arcs.
- DE 298 23 717 U1 discloses a switch having a pad associated therewith a permanent magnet and a blow coil that blow and extinguish an arc generated during switching. Again, the coil is activated by the switching arc.
- the invention provides that adjacent to the arc quenching device of the contactor a collecting device for the generated by the switching arcs in the contactor Abbrandpitate is arranged. If the switching arcs are blown into the arc quenching device, they produce burnup particles there. These burnup particles can fall on the contact points of the contactor, whereby the contact and thus the ability to transmit electricity is disturbed. This leads to unacceptably high thermal loads on the contact points, which can ultimately damage the contactor.
- the collecting device which is arranged between the arc quenching device and the contact bridge, the falling Abbrandpgregate be collected so that they can not fall on the contact points. It will therefore Dirt at the contact points and thus damage to the contactor avoided.
- the contactor has a double interruption, wherein the two contact points of the double interruption are constructed mirror-symmetrically to each other and the movable contacts are arranged on a contact bridge.
- the contactor thus comprises a second contact point which is identical to the first contact point and also has a fixed contact, a movable contact, an arc guide plate associated with one of the contacts, and a blow coil.
- the collecting device is designed as a collecting trough superior to the contact points. This enables a safe collection of burn-off particles, especially in large shooters with high switching load.
- the collecting trough may be designed to taper in a V-shaped manner on its underside facing the contact bridge.
- the drip pan is thus designed to be very narrow at the bottom, so that switching arcs at the contact points are blown through the blower fields on the drip pan on both sides in the direction of the extinguishing devices. The switching arcs do not linger on the underside of the tank.
- the drip pan is arranged protected by metal elements on the side walls of the housing of the contactor. Since the arcs can overflow such metal elements, without damaging them, a secure attachment of the tub on the side walls of the housing of the contactor is possible.
- the trough may have attachment pins that are secured in the sidewalls of the housing. The mounting pins are surrounded by the metal elements and so protected from the arcs.
- the collecting device can also be provided to form the collecting device as a U-shaped deflecting plate, wherein the U-shaped deflecting plate is arranged on the contact bridge, so that the legs of the U-shaped deflecting plate extend substantially perpendicular to the longitudinal extent of the contact bridge.
- This deflector has only a small footprint, so it is also in small shooters with smaller air and Creepage distances can be used easily.
- the burned particles strike the inside area of the deflector plate and drop sideways past the deflector plate out of the area of the contact bridge.
- the distance between the legs of the U-shaped Abweisblechs is slightly larger than the distance between the contact points facing the ends of the arc guide.
- the legs of the U-shaped Abweisblechs come to rest in the closed state of the contactor, in which the movable contacts and the fixed contacts of the contact points to lie in the air gaps between the arc guide and the respective associated fixed contact.
- a secure closing of the protection is possible despite the U-shaped Abweisblechs.
- Yet another embodiment provides that the region in which a switching rod of a drive of the contact bridge emerges from the drive is provided with a protective covering.
- a protective covering Due to the resulting when opening the contact points of the contactor switching arcs is produced in the interior of the contactor, for example in an arc quenching device in which the arcs are blown by means of the Blasfelder combustion.
- the protective sheath is provided.
- a bellows may be mounted around the exit area of the shift rod. This is especially relevant for a horizontal installation of the contactor, in which the arc quenching device is arranged over the contact points.
- the contactor may further comprise at least one blow coil for generating an electromagnetic blow field and a protective cover made of an arc-resistant material, e.g. Ceramic, wherein the blow coil is disconnected in the closed state of the contactor from the circuit of the contactor and when opening the contactor in the circuit of the contactor is switched on and the protective cover in the area of the contactor, in which when opening the contacts and when connecting the blinding coil forms an arc is arranged.
- a blow coil for generating an electromagnetic blow field
- a protective cover made of an arc-resistant material, e.g. Ceramic
- the protective cover can be used to prevent damage to the contactor due to the lingering arcing. As a result, no damage is caused to the contactor and the service life of the blower coil during the time that the electromagnetic blower field of the blower coil is being built up Contactor can be extended.
- ceramic such as steatite or cordierite
- an arc guide plate is arranged adjacent to one of the contacts, which is separated by an air gap from the contact, the blow coil is electrically conductively connected to the arc guide plate and the contact, so that the blow coil by commutation of a switching arc can be activated on the arc guide plate, and the protective cover is arranged in the region of the air gap.
- the blow coil Since the current is passed through the blow coil only gradually (after an E-function), the differential currents to the main circuit total current are realized by parallel to the coil forming current paths. This results in short-lived arcs that span the air gap between the arc guide plate and the associated contact.
- the protective cover located in this area prevents damage to the contactor. At the time of full current transfer through the puff coils, the arcs in the area of the ceramic protective cover will be extinguished.
- the arc guide plate and the associated contact are arranged in a V-shape with each other, wherein the arc guide plate forms a first leg of the Vs and the associated contact of the second leg of the Vs, so that the air gap adjacent to the tip of the Vs is arranged, the blower coil is disposed between the arc guide plate and the associated contact and the protective cover between the air gap and the blow coil is arranged. This creates the arc in an area in which no sensitive components are arranged. The blow coil is protected by the arc guide plate, the associated contact and the protective cover.
- a simple commutation of the switching arc to activate the coil can be made possible by the fact that between the arc guide plate and the associated contact adjacent to the air gap a Primärblas noticed is arranged, which is at least partially surrounded by the protective cover.
- a Primärblas for example, a permanent magnet or a permanent current-carrying coil can be used. Since the Primärblas issued is adjacent to the air gap and thus located very close to the contact point, it can immediately on a resulting Acting arc and thereby enable the commutation of the arc on the arc guide plate. Due to the protective lining, the primary blowing device is well protected from the switching arc and the arc which arises in the air gap.
- Yet another variant provides that the arc guide plate is arranged adjacent to the fixed contact of the contact point and the blow coil is arranged between the fixed contact and the arc guide plate.
- the protective cover has a groove, which engages in a guide rail of a housing of the contactor, and that the protective cover is attached to the housing.
- the groove in the protective cover and the guide rail on the housing of the contactor which is preferably arranged on the side wall of the housing, the position of the protective cover is fixed to the housing of the contactor.
- the protective cover can thus not be mounted in a wrong position.
- a simple attachment of the protective cover to the housing of the contactor is possible.
- the guide rail of the housing can be glued to the groove of the protective cover.
- the side walls of a housing of the contactor are provided in the region of at least one contact point with a reinforcement of an arc-resistant material.
- a reinforcement of an arc-resistant material For example, if the contactor is in the critical current range, i. operated at low currents but high voltages and thus small driving forces for the arcs, the arcs are not immediately blown away from the contact point. It can then happen that the arcs burn in the housing wall and cause damage. The reinforcement avoids these damages.
- reinforcing plates of arc-resistant materials such as ceramics such as steatite or cordierite, are provided.
- Fig. 1 is a perspective view of the interior of a contactor 1 is shown.
- the contactor comprises two contact points 2, 3, each with a fixed contact 4, 5 and a respective movable contact 6, 7.
- the movable contacts 6, 7 of the two contact points are arranged on a common contact bridge 8.
- the contact bridge 8 can be moved by a magnetic drive (not shown) and from a closed state of the contactor 1, in which the movable contacts 6, 7, the fixed contacts 4, 5 touch and thus the contact points 2, 3 are closed, are transferred to an open position , In the open position, the movable contacts 6, 7 are separated from the fixed contacts 4, 5. Due to the high currents and high voltages that are connected to the contactor, when opening the contact points switching arcs 15, 16, which extend between the respective fixed contact 4, 5 and the associated movable contact 6, 7.
- an arc guide plate 9, 10 Adjacent to the fixed contacts 4, 5, an arc guide plate 9, 10 is arranged at each contact point 2, 3.
- the arc guide plates 9, 10 are each insulated by an air gap 11, 12 of the respective fixed contact 4, 5.
- the arc guide plates 9, 10 are bent, so that they form a V-shaped arrangement with the contact rail of the respective fixed contact 4, 5.
- the arc guide plates 9; 10 are formed so that they form between the contact points 2, 3 a Lichtbogenleitschacht 19 which extends substantially perpendicular to the longitudinal extent of the contact bridge 8 and through which the arcs 15 or 16 (depending on the arc direction) by means of the Blasfelder the Primärblas adopted and the bladders 17th , 18 are blown toward an arc quenching device 24.
- the arc guide plates 9 expand; 10.
- Adjacent to the arc guide plates 9; 10, the arc quenching device 24 is arranged.
- a primary blowing device 13, 14 is arranged at each of the contact points 2, 3.
- the Primärblas owneden 13, 14 are formed as permanent magnets. It would also be conceivable, however, to use permanent current-carrying blow coils instead of the permanent magnets.
- the primary blowing devices 13, 14 are arranged in the contactor such that their magnetic field is perpendicular to the switching arcs 15, 16 arising when the contact points 2, 3 are opened and perpendicular to the longitudinal extent of the contact bridge 8.
- the contactor 1 further comprises two blower coils 17, 18, which are also arranged in the V-shaped region between the respective fixed contact 4, 5 and the associated arc guide plate 9, 10.
- the blow coils 17, 18 are further from the contact point than the respective primary blower 13, 14.
- the first blow coil 17, which is associated with the first contact point 2 is electrically conductive with the fixed contact 4 of the contact point 2 and the arc guide plate 9 arranged adjacent thereto connected. Since the contactor is preferably mirror-symmetrical to a plane extending perpendicular to the longitudinal extent of the contact bridge 8 between the two contact points 2, 3, the contact point 3 has the same components as the contact point 2. Therefore, the second blow coil 18 is electrically conductive with the fixed contact. 5 the second contact point 3 and connected to the associated arc guide plate 10. Again, the primary blowing device 14 is preferably located closer to the contact point 3 than the blow coil 18th
- the primary blowing device 13 arranged at the contact point 2 is assigned a pole plate pair 20.
- the two pole plates of the Polplattencrus 20 are located on opposite sides of the contact bridge. 8
- the second primary blowing device 14 is also assigned a pair of pole plates 21 whose pole plates are located on opposite sides of the contact bridge 8.
- Fig. 1 is at each of the contact points 2, 3 only one pole plate of the Polplattenpare 20; 21 to see.
- the pole plates of the pole plate pairs 20; 21 are made of magnetizable material and are polarized by the Primärblas owneden 13, 14 and generate a Primärblasfeld.
- the pole plate pairs 20; 21 are formed so that the magnetic fields generated by them penetrate the region of the contact points 2, 3.
- first blow coil 17 and the second blow coil 18 is each a Polplattencru 22; 23 assigned.
- the pole plates of the pole plate pairs 22; 23 are shaped so that they especially the area of the arc guide shaft 19 and the arc guide 9; 10 overreach. Since the puffing coils 17, 18 are activated only when an arc root point of an arc jumps over one of the arc guide plates 9, 10, the electromagnetic blowing fields must act primarily in this area.
- a protective cover 25, 26 are arranged at each of the two contact points 2; 3 is adjacent to the air gap 11; 12 .
- the protective cover 25, 26 is disposed between the air gap 11, 12 and the other components of the contactor 1, so the Primärblas addresseden 13, 14 and the blow coils 17, 18 and extends from the respective fixed contact 4, 5 upwards to the respective arc guide plate. 9 , 10, so that a closed space is formed by the protective coverings 25, 26, the fixed contacts 4, 5 and the respective arc guide plates 9, 10.
- Fig. 4 the area around the air gap 12 is shown enlarged.
- Adjacent to the fixed contact 5, the associated arc guide plate 10 is arranged so that between the end of the fixed contact 5 and the end of the arc guide plate 10, the air gap 12 is formed.
- the protective cover 26 extends between the fixed contact 5 and the arc guide plate 10.
- the fixed contact 5, the arc guide plate 10 and the protective cover 26 thus form a cavity into which an arc 12 emerging upon activation of the blow coil 18 can penetrate and remain without causing any damage ,
- the protective cover 26 is thus arranged between the air gap 12 and the Primärblas adopted 15 and may surround the Primiliablas issued 14 partially. As a result, good protection of the primary blowing device 14 is made possible.
- Fig. 5a shows a perspective enlarged view of a protective cover 25, 26.
- the protective cover 25, 26 is formed of an arc-resistant material.
- a ceramic material is used for this purpose, for example steatite or cordierite. These materials have a certain porosity, so that they are relatively stable even at temperature shocks. This is particularly necessary because the arc temperature is up to 20,000 Kelvin.
- Both the edge region 30 of the protective cover 25; 26, which is associated with the arc guide plate, as well as the edge region 31 of the protective cover 25; 26, which is assigned to the associated fixed contact, is reinforced.
- the protective cover 25; 26 laterally projecting arms 32, 33.
- the arms 32, 33 serve in addition to protect the behind the protective cover 25; 26 arranged components.
- a groove 49 is provided on the back 48 of each protective cover 25, 26. Via the groove 49, the protective cover 25, 26 are fixed and positioned in the housing of the contactor.
- a guide strip is formed on the housing of the contactor, whose shape corresponds to the shape of the groove 49 of the protective cover 25, 26. The protective cover 25, 26 can thus be plugged onto the guide bar of the housing, so that the guide bar engages in the groove 49.
- Fig. 6 shows a section through the contact point 2 of a contactor.
- the protective cover 25 is disposed between the fixed contact 4 and the arc guide plate 9 and protects the underlying components of the contactor, such as the Primärblas issued 13.
- the groove 49 is provided, into which a guide rail of the housing 34 of the contactor 1 inserted is.
- the guide rail 32 is preferably formed on a projection 35 of the side wall of the housing 34, wherein the projection 35 projects into the interior of the contactor.
- the protective cover 25 is arranged in the housing 34 of the contactor 1 that the arm 32 abuts the projection 35.
- the protective cover 25 is glued to the arm 32 and the groove 49 with the projection 35 and the guide rail. The attachment of the protective covering 25 thus takes place via the housing 34 of the contactor 1.
- the protective cover 26 of second contact point 3 of the contactor 1 is analogously attached to the housing 34 of the contactor 1.
- Fig. 7 shows a portion of another embodiment of a contactor in partial section. Separate protection is also claimed for this embodiment and the embodiments of the contactor shown in the following figures.
- Contactor 1 ' has essentially the same structure as the contactor already described. For identical components, therefore, the same reference numerals are used. In the following, only the differences are shown.
- Fig. 7 shows essentially only the deletion area of the contactor 1 ', for the sake of clarity, the contact bridge was omitted with the movable contacts arranged thereon.
- the contactor 1 ' is again designed as a contactor with double interruption and comprises two fixed contacts 4, 5. Adjacent to each of the fixed contacts 4, 5, an arc guide plate 9, 10 is arranged. The ends of the arc guide plates 9, 10 are arranged slightly spaced from the respective fixed contacts 4, 5, so that between the ends of the fixed contact 4 and the associated end of the arc guide plate 9, an air gap 11 is formed. Likewise, the end of the fixed contact 5 is spaced from the corresponding end of the arc guide 10, so that there is an air gap 12 is formed.
- a protective covering 25 is arranged, which shields the other components of the contactor, for example, a first Primärblas adopted 13 and a first blow coil 17 of the air gap 11.
- a second protective cover 26 is arranged between the second fixed contact 5 and the associated second arc guide plate 10, which shields the second primary blowing device 14 and the second blowing coil 18 with respect to the air gap 12.
- reinforcements 36 are arranged on the side walls of the housing of an arc-resistant material.
- a ceramic plate is preferably used. Suitable materials are steatite or cordierite. The ceramic plates can be glued to the housing wall, for example.
- the arc guide plates 9, 10 in the region of the contact points, that is adjacent to the fixed contact 4 and the fixed contact 5 are formed substantially parallel to each other.
- the arc guide plates form a Lichtbogenleitschacht there 19 out.
- the distance between the arc guide plate 9 and the arc guide plate 10 widens, so that an arc between the arc guide plates 9, 10 is stretched.
- the arc quenching device 24 of the contactor 1 ' is arranged.
- a collecting trough 37 is arranged between the arc quenching device 24 and the arc guide plates 9, 10 .
- the drip pan 37 is thus arranged above the contact bridge.
- the collecting trough 37 is preferably made of a plastic material, for example a duroplastic.
- the drip tray 37 is attached to the side wall of the housing 34. In this case, a gap is formed between the side wall of the housing 34 and the collecting trough 37.
- Switching arcs arising at the contact points are blown through the blower devices 13, 14, 17, 18 through the arc guide shaft 19 in the direction of the extinguishing device 24 of the contactor 1 '.
- the arcs are widened at the Lichtbogenleitblechen 9, 10, run past the drip pan 37 and are finally brought to extinction in the extinguishing device 24.
- a collecting device for the combustion particles in the form of the collecting trough 37 is provided.
- the drip pan 37 is preferably so large that it projects beyond the contact points. From the quenching device 24 falling combustion particles are therefore collected in the sump 37.
- the burn-off particles, which fall past the drip pan 37, no longer meet the contact bridge, but accumulate in the region of the drive of the contact bridge.
- the collecting trough 37 is preferably V-shaped in cross section. The drip pan 37 thus tapers at its underside facing the contact bridge and tapers to a point. This ensures that the arcs on both sides of the drip pan 37 over in the direction of the arc quenching device 34 run and not dwell on the drip pan 37.
- Fig. 8 shows an enlarged view of the area VIII Fig. 7 , In this area, the attachment of the sump 37 is shown on the side wall of the housing 34. It can be clearly seen that the drip pan 37 is V-shaped in cross section, so that arcs are driven past the side walls of the drip pan 37 in the direction of the extinguishing device 24 and do not dwell on the underside of the drip pan 37.
- the drip pan 37 has pins 38 which are received in recesses 40 of the side wall of the housing 34. It arises between the respective Side wall of the housing 34 and the collecting trough 37, a gap 41. To protect the pins 38 from the arcs, the region of the pins 38, which is arranged in the gap 41, surrounded by a metal element 39.
- a bronze sleeve can be used for this purpose.
- the metal elements 39 are not damaged by the arcs.
- the collecting trough 37 is positioned symmetrically directly above the contact bridge in the region of the arc line between the arc guide pieces 9, 10.
- the width of the formed between the sump 37 and the two side walls of the housing 34 air gaps 41 is about 4 mm.
- the switching arcs move due to the blowing fields through these air gaps 41 at random on both sides of the sump 37 in the upper region of the quenching chamber.
- the arc unfolding and the arc extinguishing takes place in the arc quenching device 24. Due to the high arc speed of the drip tray 37, which preferably consists of a thermosetting plastic, not damaged even at high switching cycles.
- the switching characteristics of the contactor are not significantly changed by the collecting trough 37 in any area.
- Fig. 9 shows a further embodiment of a collecting device for burn-up.
- the structure of the contactor with this collecting device for the burn-up substantially corresponds to the shooter already described.
- the same reference numerals are used. In the following, only the differences are shown.
- Fig. 9 only the contact bridge 8 of a contactor with a contact bridge drive 42 is shown.
- a U-shaped deflector 43 is arranged on the contact bridge 8.
- This deflector 43 serves as Abbrandauffangvoriques for shooters with smaller air and creepage distances, in which no space can be used for space reasons.
- Abweisblech 43 is prevented, as well as by the drip tray, that arise in the contactor Abbrandpiety on the contact points and thereby cause that no stable contact is made, which can cause high thermal loads in the contactor.
- the U-shaped deflection plate 43 is arranged on the side facing away from the contact points of the contact bridge 8, so that the legs 44, 45 of the Abweisblechs 43 extend substantially perpendicular to the longitudinal extent of the contact bridge 8 and protrude from the contact bridge to the outside in the direction of the arc quenching device.
- the legs 44, 45 are arranged adjacent to the respective movable contact 6, 7. Originating burnup is therefore in Inside the U-shaped Abweisblechs 43 collected or falls laterally past the contact bridge.
- a protective sheath is arranged.
- a bellows 47 can be used. This protective sheath or the bellows 47 is preferably also used in shooters in which a drip pan is provided. By the bellows 47 prevents the burned particles fall into the sliding bearing of the shift rod 46 and thus block the drive of the contact bridge 8.
- Fig. 10 shows the region of the contact points 2, 3 of a contactor with a U-shaped deflection plate in the closed state.
- the U-shaped deflection plate 43 is arranged in the middle of the contact bridge 8.
- the distance between the legs 44, 45 of the U-shaped Abweisblechs 43 is chosen so that it is slightly larger than the distance between the contact points 2, 3 facing ends of the Lichtbogenleitbleche 9, 10.
- In the closed position of the contactor come Leg 44, 45 of the Abweisblechs 43 in the air gaps 11, 12 to lie between the respective fixed contact 4; 5 and the associated arc guide plate 9; 10 are formed.
- the contactor 1 has a double break with two contact points 2, 3. But it would also be possible to form the contactor as a simple interrupting contactor, which then has only one contact point. This one contact point may be formed as one of the two contact points described above.
- FIG. 1 the contactor 1 is shown in the opening moment.
- the contact bridge 8 is moved downward, so that the movable contacts arranged thereon 6, 7 are separated from the fixed contacts 4, 5.
- the two contact points 2, 3 are thus opened.
- arise at the contact points 2, 3 switching arcs 15, 16, each between the fixed contact 4; 5 and the associated movable contact 6; 7 extend.
- the primary blowing field generated by the primary blowing devices 13, 14 acts immediately on the switching arcs 15, 16.
- the primary blowing means 13, 14 are permanent magnets formed, which are polarized in a direction perpendicular to the longitudinal axis of the contact bridge 8 opposite to each other.
- the two switching arcs 15, 16 are blown to the left.
- the left switching arc 15 is stretched, the right arc 16 commutes from the fixed contact 5 on the arc guide plate 10.
- a foot of the arc 16 thus skips the air gap 12.
- the inductance of this blow coil 18 counteracts a sudden increase in current.
- the current transfer through the blow coil 18 is increasing according to an E-function. Therefore, a second arc 28 forms at the air gap 12.
- the protective cover 26 is disposed between the arc guide plate 10 and the fixed contact 5.
- the circuit in the contactor 1 is now still closed and the current flows from the fixed contact 4 via the arc 15, the contact bridge 8, the arc 16, the arc guide plate 10 and the second blow coil 18 for fixed contact 5.
- Parallel to the current path over the second Blass coil 18 is formed by the arc 28, a second current path. If the current is fully taken over by the blow coil 18, so this arc extinguished 28. There is then only one more current path. Since the blow coil 18 is now activated, it generates an electromagnetic blow field, which acts on the arc 16. This causes the second arc root of the arc 16 from the contact bridge 8 on the arc guide plate 9 skips (see Fig. 3 ). The arc 15 goes out.
- the still existing arc 16 is blown in the direction of the arc quenching device 24, widened and finally extinguished by the blowing fields of the first blowing coil 17 and the second blowing coil 18.
- the ceramic protective linings 25, 26 ensures that the secondary arcs 28, 29, the activation the two blow coils 17, 18 arise, cause no arcing damage in the contactor.
- the protective panels 25, 26 must therefore be arranged in the area in which an arc is created when the puff coils are switched on.
- Abbrand-catching devices such as a drip pan 37 or a deflector 43, between the contact bridge 8 and the Arc quenching device 24 may be provided.
Landscapes
- Arc-Extinguishing Devices That Are Switches (AREA)
- Relay Circuits (AREA)
Abstract
Description
Die Erfindung betrifft einen Schütz für Gleichstrom- und Wechselstrombetrieb mit mindestens einer Kontaktstelle mit einem Festkontakt und einem beweglichen Kontakt, an der sich beim Öffnen der Kontakte ein Lichtbogen ausbildet, und mit einer Lichtbogenlöscheinrichtung zum Löschen der Lichtbögen.The invention relates to a contactor for DC and AC operation with at least one contact point with a fixed contact and a movable contact, which forms an arc when opening the contacts, and with an arc quenching device for extinguishing the arcs.
Solche Schütze werden beispielsweise im Bahnbetrieb zum Schalten von Lasten und zur Unterbrechung von Stromkreisen mit großen Strömen bzw. hohen Spannungen eingesetzt. Bei dem Schaltvorgang, d.h. beim Öffnen der Kontaktstellen, entsteht zwischen dem Festkontakt und dem beweglichen Kontakt ein Lichtbogen. Durch diesen Lichtbogen wird der Stromfluss zwischen den Kontakten aufrechterhalten. Zudem wird durch den Lichtbogen eine große Wärmemenge freigesetzt, die zum Abbrennen der Kontakte führt und somit die Lebensdauer des Schützes verringern kann. Darüber hinaus wird der gesamte vom Lichtbogeneinfluss betroffenen Gerätebereich thermisch sehr stark belastet. Es ist daher eine schnelle Löschung des Lichtbogens erforderlich.Such contactors are used for example in railway operation for switching loads and for interrupting circuits with high currents or high voltages. In the switching operation, i. When opening the contact points, an arc is created between the fixed contact and the movable contact. This arc maintains the flow of current between the contacts. In addition, the arc releases a large amount of heat, which leads to the burning of the contacts and thus can reduce the life of the contactor. In addition, the entire area affected by the influence of the arc is subjected to very high thermal loads. It is therefore a quick extinction of the arc required.
Je nach Anwendungsfall sind verschiedene Methoden zur Lichtbogenlöschung bekannt. Ein Schütz für den Einsatz im Gleichstrombetrieb mit gleich bleibender Stromrichtung weist üblicherweise permanentmagnetische Blasfelder auf, die so angeordnet sind, dass ihre Feldrichtung senkrecht zu dem Lichtbogen verläuft. Die Blasfelder üben auf den Lichtbogen eine Kraft, die Lorentzkraft, aus, durch die der Lichtbogen in Richtung einer Löscheinrichtung getrieben wird. So zeigt die
Für Wechselstrombetrieb können aufgrund der wechselnden Stromrichtung der Lichtbögen keine rein permanentmagnetischen Felder eingesetzt werden. In diesem Bereich ist daher der Einsatz von sogenannten Blasspulen üblich, die ein elektromagnetisches Blasfeld erzeugen, dessen Feldrichtung durch die Stromrichtung bestimmt wird. Unabhängig von der Stromrichtung wird dadurch in jedem Fall eine korrekt gerichtete Kraftwirkung auf den Lichtbogen erzielt.For AC operation, due to the alternating current direction of the arcs, no purely permanent magnetic fields can be used. In this area, therefore, the use of so-called blinding coils is common, which generate an electromagnetic blow field whose field direction is determined by the current direction. Regardless of the current direction, a correctly directed force effect on the arc is achieved in each case.
Der Einsatz von Spulen bringt allerdings eine Reihe von Nachteilen mit sich. Ist die Spule in den Stromkreis eingeschaltet und daher dauerhaft von hohen Strömen durchflossen, wie dies im Bahnbereich üblich ist, so tritt eine starke Erwärmung der Spule auf.The use of coils, however, brings a number of disadvantages. If the coil is switched into the circuit and therefore flows through permanently high currents, as is common in the railway sector, so there is a strong heating of the coil.
Daher ist es bekannt, die Spule erst im Abschaltmoment, d.h. beim Öffnen des Schützes, zu aktivieren und in den Stromkreis einzuschalten. Da die Induktivitäten der Blasspulen sprunghaften Stromanstiegen entgegenwirken, erfolgt die Stromübernahme durch die Blasspulen mit zeitlicher Verzögerung (E-Funktion). Auch das elektromagnetische Blasfeld wird mit zeitlicher Verzögerung aufgebaut. Dadurch wird die Verweilzeit der Lichtbögen in der Kontaktzone des Schützes verlängert.Therefore, it is known, the coil only at the turn-off, i. when opening the contactor, activate and turn on the circuit. Since the inductances of the puff coils counteract sudden increases in current, the current transfer through the puff coils takes place with a time delay (E-function). The electromagnetic field is also built up with a time delay. This prolongs the residence time of the arcs in the contact zone of the contactor.
Die
Auch die
Ein weiteres Problem bei Hochspannungsschaltgeräten ist, dass im Betrieb Störpartikel entstehen, die die Betriebssicherheit beeinflussen können. In der
Es ist daher die Aufgabe der vorliegenden Erfindung, einen Schütz bereitzustellen, bei dem eine Verschmutzung der Kontaktstelle vermieden wird und der eine lange Lebensdauer aufweist.It is therefore the object of the present invention to provide a contactor, in which a contamination of the contact point is avoided and has a long life.
Hierzu ist erfindungsgemäß vorgesehen, dass benachbart zu der Lichtbogenlöscheinrichtung des Schützes eine Auffangvorrichtung für die durch die Schaltlichtbögen im Schütz erzeugten Abbrandpartikel angeordnet ist. Werden die Schaltlichtbögen in die Lichtbogenlöscheinrichtung geblasen, so erzeugen sie dort Abbrandpartikel. Diese Abbrandpartikel können auf die Kontaktstellen des Schützes fallen, wodurch die Kontaktgabe und damit die Fähigkeit zur Stromübertragung gestört wird. Dies führt zu unzulässig hohen thermischen Belastungen der Kontaktstellen, die letztendlich den Schütz beschädigen können. Durch die Auffangvorrichtung, die zwischen der Lichtbogenlöscheinrichtung und der Kontaktbrücke angeordnet ist, werden die herabfallenden Abbrandpartikel aufgefangen, so dass sie nicht auf die Kontaktstellen fallen können. Es werden daher Verschmutzungen an den Kontaktstellen und somit Beschädigungen am Schütz vermieden.For this purpose, the invention provides that adjacent to the arc quenching device of the contactor a collecting device for the generated by the switching arcs in the contactor Abbrandpartikel is arranged. If the switching arcs are blown into the arc quenching device, they produce burnup particles there. These burnup particles can fall on the contact points of the contactor, whereby the contact and thus the ability to transmit electricity is disturbed. This leads to unacceptably high thermal loads on the contact points, which can ultimately damage the contactor. By the collecting device, which is arranged between the arc quenching device and the contact bridge, the falling Abbrandpartikel be collected so that they can not fall on the contact points. It will therefore Dirt at the contact points and thus damage to the contactor avoided.
In einer weiteren Ausführungsform kann vorgesehen sein, dass der Schütz eine Doppelunterbrechung aufweist, wobei die beiden Kontaktstellen der Doppelunterbrechung spiegelsymmetrisch zueinander aufgebaut sind und die beweglichen Kontakte auf einer Kontaktbrücke angeordnet sind. Der Schütz umfasst also eine zweite Kontaktstelle, die identisch zur ersten Kontaktstelle ausgebildet ist und ebenfalls einen Festkontakt, einen beweglichen Kontakt, ein einem der Kontakte zugeordnetes Lichtbogenleitblech und eine Blasspule aufweist. Dadurch ist eine einfache und raumsparende Ausgestaltung des Schützes möglich.In a further embodiment it can be provided that the contactor has a double interruption, wherein the two contact points of the double interruption are constructed mirror-symmetrically to each other and the movable contacts are arranged on a contact bridge. The contactor thus comprises a second contact point which is identical to the first contact point and also has a fixed contact, a movable contact, an arc guide plate associated with one of the contacts, and a blow coil. As a result, a simple and space-saving design of the contactor is possible.
Zweckmäßigerweise kann vorgesehen sein, dass die Auffangvorrichtung als eine die Kontaktstellen überragende Auffangwanne ausgebildet ist. Dadurch wird ein sicheres Auffangen von Abbrandpartikeln vor allem bei großen Schützen mit großer Schaltbelastung ermöglicht.Conveniently, it can be provided that the collecting device is designed as a collecting trough superior to the contact points. This enables a safe collection of burn-off particles, especially in large shooters with high switching load.
In einer besonders bevorzugten Variante kann vorgesehen sein, dass die Auffangwanne an ihrer der Kontaktbrücke zugewandten Unterseite V-förmig zulaufend ausgebildet ist. Die Auffangwanne ist unten also sehr schmal ausgebildet, so dass an den Kontaktstellen entstehende Schaltlichtbögen durch die Blasfelder an der Auffangwanne beidseitig vorbei in Richtung der Löscheinrichtungen geblasen werden. Die Schaltlichtbögen verweilen nicht an der Wannenunterseite.In a particularly preferred variant, provision may be made for the collecting trough to be designed to taper in a V-shaped manner on its underside facing the contact bridge. The drip pan is thus designed to be very narrow at the bottom, so that switching arcs at the contact points are blown through the blower fields on the drip pan on both sides in the direction of the extinguishing devices. The switching arcs do not linger on the underside of the tank.
In noch einer weiteren Ausführungsform kann vorgesehen sein, dass die Auffangwanne durch Metallelementen geschützt an den Seitenwänden des Gehäuses des Schützes angeordnet ist. Da die Lichtbögen solche Metallelemente überlaufen können, ohne diese zu beschädigen, ist eine sichere Befestigung der Wanne an den Seitenwänden des Gehäuses des Schützes möglich. Beispielsweise kann die Wanne Befestigungszapfen aufweisen, die in den Seitenwänden des Gehäuses befestigt sind. Die Befestigungszapfen sind von den Metallelementen umgeben und so vor den Lichtbögen geschützt.In yet another embodiment, it may be provided that the drip pan is arranged protected by metal elements on the side walls of the housing of the contactor. Since the arcs can overflow such metal elements, without damaging them, a secure attachment of the tub on the side walls of the housing of the contactor is possible. For example, the trough may have attachment pins that are secured in the sidewalls of the housing. The mounting pins are surrounded by the metal elements and so protected from the arcs.
Es kann aber auch vorgesehen werden, die Auffangvorrichtung als U-förmiges Abweisblech auszubilden, wobei das U-förmige Abweisblech auf der Kontaktbrücke angeordnet ist, so dass die Schenkel des U-förmigen Abweisblechs im Wesentlichen senkrecht zur Längserstreckung der Kontaktbrücke verlaufen. Dieses Abweisblech weist nur einen geringen Platzbedarf auf, so dass es auch in kleinen Schützen mit kleineren Luft- und Kriechstrecken problemlos eingesetzt werden kann. Dadurch kann auch hier ein Schutz der Kontaktstellen vor herabfallenden Abbrandpartikeln ermöglicht werden. Die Abbrandpartikel treffen im Innenbereich des Abweisblechs auf und fallen seitlich an dem Abweisblech vorbei aus dem Bereich der Kontaktbrücke heraus.However, it can also be provided to form the collecting device as a U-shaped deflecting plate, wherein the U-shaped deflecting plate is arranged on the contact bridge, so that the legs of the U-shaped deflecting plate extend substantially perpendicular to the longitudinal extent of the contact bridge. This deflector has only a small footprint, so it is also in small shooters with smaller air and Creepage distances can be used easily. As a result, a protection of the contact points from falling Abbrandpartikeln can also be made possible here. The burned particles strike the inside area of the deflector plate and drop sideways past the deflector plate out of the area of the contact bridge.
Zweckmäßigerweise kann vorgesehen werden, dass der Abstand zwischen den Schenkeln des U-förmigen Abweisblechs etwas größer ist als der Abstand zwischen den den Kontaktstellen zugewandten Enden der Lichtbogenleitbleche. Somit wird ermöglicht, dass die Schenkel des U-förmigen Abweisblechs im Schließzustand des Schützes, bei dem die beweglichen Kontakte und die Festkontakte der Kontaktstellen aneinander anliegen, in den Luftspalten zwischen den Lichtbogenleitblechen und dem jeweiligen zugeordneten Festkontakt zu liegen kommen. Dadurch ist trotz des U-förmigen Abweisblechs ein sicheres Schließen des Schutzes möglich.Appropriately, it may be provided that the distance between the legs of the U-shaped Abweisblechs is slightly larger than the distance between the contact points facing the ends of the arc guide. Thus, it is possible that the legs of the U-shaped Abweisblechs come to rest in the closed state of the contactor, in which the movable contacts and the fixed contacts of the contact points to lie in the air gaps between the arc guide and the respective associated fixed contact. As a result, a secure closing of the protection is possible despite the U-shaped Abweisblechs.
Noch eine weitere Ausgestaltung sieht vor, dass der Bereich, in dem eine Schaltstange eines Antriebs der Kontaktbrücke aus dem Antrieb austritt, mit einer Schutzumhüllung versehen ist. Für diese und die folgenden Ausführungsformen wird auch gesondert Schutz beansprucht. Durch die beim Öffnen der Kontaktstellen des Schützes entstehenden Schaltlichtbögen wird im Inneren des Schützes, beispielsweise in einer Lichtbogenlöscheinrichtung, in die die Lichtbögen mittels der Blasfelder geblasen werden, Abbrand erzeugt. Um zu verhindern, dass der Abbrand in das Gleitlager der Schaltstange fällt, ist die Schutzumhüllung vorgesehen. Beispielsweise kann ein Faltenbalg um den Austrittsbereich der Schaltstange herum angebracht werden. Dies ist vor allem bei einem horizontalen Einbau des Schützes relevant, bei dem die Lichtbogenlöscheinrichtung über den Kontaktstellen angeordnet ist.Yet another embodiment provides that the region in which a switching rod of a drive of the contact bridge emerges from the drive is provided with a protective covering. Separate protection is also claimed for this and the following embodiments. Due to the resulting when opening the contact points of the contactor switching arcs is produced in the interior of the contactor, for example in an arc quenching device in which the arcs are blown by means of the Blasfelder combustion. In order to prevent the burnup falling into the sliding bearing of the shift rod, the protective sheath is provided. For example, a bellows may be mounted around the exit area of the shift rod. This is especially relevant for a horizontal installation of the contactor, in which the arc quenching device is arranged over the contact points.
Der Schütz kann ferner mindestens eine Blasspule zur Erzeugung eines elektromagnetischen Blasfelds und eine Schutzverkleidung aus einem lichtbogenresistenten Material, z.B. Keramik, aufweisen, wobei die Blasspule im Schließzustand des Schützes vom Stromkreis des Schützes getrennt ist und beim Öffnen des Schützes in den Stromkreis des Schützes einschaltbar ist und die Schutzverkleidung in dem Bereich des Schützes, in dem sich beim Öffnen der Kontakte und beim Zuschalten der Blasspule ein Lichtbogen ausbildet, angeordnet ist.The contactor may further comprise at least one blow coil for generating an electromagnetic blow field and a protective cover made of an arc-resistant material, e.g. Ceramic, wherein the blow coil is disconnected in the closed state of the contactor from the circuit of the contactor and when opening the contactor in the circuit of the contactor is switched on and the protective cover in the area of the contactor, in which when opening the contacts and when connecting the blinding coil forms an arc is arranged.
Durch die Schutzverkleidung können Schäden am Schütz durch verweilende Lichtbögen vermieden werden. Dadurch entstehen in der Zeit, in der das elektromagnetische Blasfeld der Blasspule aufgebaut wird, keine Schäden am Schütz und die Lebensdauer des Schützes kann verlängert werden. Bei der Verwendung von Keramik, z.B. Steatit oder Cordierit, als Material für die Schutzverkleidung wird eine einfache Ausgestaltung und ein guter Schutz vor Lichtbogenschäden ermöglicht.The protective cover can be used to prevent damage to the contactor due to the lingering arcing. As a result, no damage is caused to the contactor and the service life of the blower coil during the time that the electromagnetic blower field of the blower coil is being built up Contactor can be extended. When using ceramic, such as steatite or cordierite, as a material for the protective lining a simple design and good protection against arc damage is possible.
In einer bevorzugten Ausführungsform kann vorgesehen werden, dass benachbart zu einem der Kontakte ein Lichtbogenleitblech angeordnet ist, welches durch einen Luftspalt von dem Kontakt getrennt ist, die Blasspule elektrisch leitend mit dem Lichtbogenleitblech und dem Kontakt verbunden ist, so dass die Blasspule durch Kommutierung eines Schaltlichtbogens auf das Lichtbogenleitblech aktivierbar ist, und die Schutzverkleidung im Bereich des Luftspaltes angeordnet ist. Auf diese Weise ist eine sehr einfache Aktivierung der Blasspule durch Kommutierung des Schaltlichtbogens möglich. Da die Stromübergabe durch die Blasspule nur allmählich erfolgt (nach einer E-Funktion), werden die Differenzströme zu dem Hauptkreisgesamtstrom durch sich parallel zu der Spule ausbildende Strompfade realisiert. Es entstehen dadurch kurzlebige Lichtbögen, die den Luftspalt zwischen dem Lichtbogenleitblech und dem zugeordneten Kontakt überspannen. Durch die in diesem Bereich angeordnete Schutzverkleidung werden Schäden am Schütz vermieden. Zum Zeitpunkt der vollen Stromübernahme durch die Blasspulen erlöschen die Lichtbögen im Bereich der keramischen Schutzverkleidung.In a preferred embodiment it can be provided that an arc guide plate is arranged adjacent to one of the contacts, which is separated by an air gap from the contact, the blow coil is electrically conductively connected to the arc guide plate and the contact, so that the blow coil by commutation of a switching arc can be activated on the arc guide plate, and the protective cover is arranged in the region of the air gap. In this way, a very simple activation of the blow coil by commutation of the switching arc is possible. Since the current is passed through the blow coil only gradually (after an E-function), the differential currents to the main circuit total current are realized by parallel to the coil forming current paths. This results in short-lived arcs that span the air gap between the arc guide plate and the associated contact. The protective cover located in this area prevents damage to the contactor. At the time of full current transfer through the puff coils, the arcs in the area of the ceramic protective cover will be extinguished.
In noch einer weiteren Variante kann vorgesehen werden, dass das Lichtbogenleitblech und der zugeordnete Kontakt V-förmig zueinander angeordnet sind, wobei das Lichtbogenleitblech einen ersten Schenkel des Vs und der zugeordnete Kontakt des zweiten Schenkels des Vs ausbildet, so dass der Luftspalt benachbart zur Spitze des Vs angeordnet ist, die Blasspule zwischen dem Lichtbogenleitblech und dem zugeordneten Kontakt angeordnet ist und die Schutzverkleidung zwischen dem Luftspalt und der Blasspule angeordnet ist. Dadurch entsteht der Lichtbogen in einem Bereich, in dem keine empfindlichen Bauteile angeordnet sind. Die Blasspule wird durch das Lichtbogenleitblech, den zugeordneten Kontakt sowie die Schutzverkleidung geschützt.In yet another variant, it can be provided that the arc guide plate and the associated contact are arranged in a V-shape with each other, wherein the arc guide plate forms a first leg of the Vs and the associated contact of the second leg of the Vs, so that the air gap adjacent to the tip of the Vs is arranged, the blower coil is disposed between the arc guide plate and the associated contact and the protective cover between the air gap and the blow coil is arranged. This creates the arc in an area in which no sensitive components are arranged. The blow coil is protected by the arc guide plate, the associated contact and the protective cover.
Eine einfache Kommutierung des Schaltlichtbogens zur Aktivierung der Spule kann dadurch ermöglicht werden, dass zwischen dem Lichtbogenleitblech und dem zugeordneten Kontakt benachbart zum Luftspalt eine Primärblaseinrichtung angeordnet ist, die zumindest teilweise von der Schutzverkleidung umgeben ist. Als Primärblaseinrichtung kann beispielsweise ein Permanentmagnet oder eine permanent stromdurchflossene Spule eingesetzt werden. Da die Primärblaseinrichtung benachbart zum Luftspalt und somit sehr nahe an der Kontaktstelle angeordnet ist, kann sie sofort auf einen entstehenden Lichtbogen einwirken und dadurch die Kommutierung des Lichtbogens auf das Lichtbogenleitblech ermöglichen. Durch die Schutzverkleidung wird die Primärblaseinrichtung vor dem Schaltlichtbogen und dem im Luftspalt entstehenden Lichtbogen gut geschützt.A simple commutation of the switching arc to activate the coil can be made possible by the fact that between the arc guide plate and the associated contact adjacent to the air gap a Primärblaseinrichtung is arranged, which is at least partially surrounded by the protective cover. As a primary blowing means, for example, a permanent magnet or a permanent current-carrying coil can be used. Since the Primärblaseinrichtung is adjacent to the air gap and thus located very close to the contact point, it can immediately on a resulting Acting arc and thereby enable the commutation of the arc on the arc guide plate. Due to the protective lining, the primary blowing device is well protected from the switching arc and the arc which arises in the air gap.
Noch eine weitere Variante sieht vor, dass das Lichtbogenleitblech benachbart zu dem Festkontakt der Kontaktstelle angeordnet ist und die Blasspule zwischen dem Festkontakt und dem Lichtbogenleitblech angeordnet ist. Dadurch wird eine einfache Ausführung des Schützes ermöglicht, da bei der Ausgestaltung des Lichtbogenleitblechs nicht die Bewegungen des beweglichen Kontakts berücksichtigt werden müssen.Yet another variant provides that the arc guide plate is arranged adjacent to the fixed contact of the contact point and the blow coil is arranged between the fixed contact and the arc guide plate. As a result, a simple embodiment of the contactor is made possible, since in the configuration of the arc guide plate, the movements of the movable contact need not be considered.
Vorteilhafterweise kann vorgesehen sein, dass die Schutzverkleidung eine Nut aufweist, in die eine Führungsleiste eines Gehäuses des Schützes eingreift, und dass die Schutzverkleidung an dem Gehäuse befestigt ist. Durch das Zusammenwirken der Nut in der Schutzverkleidung und der Führungsleiste an dem Gehäuse des Schützes, die vorzugsweise an der Seitenwand des Gehäuses angeordnet ist, wird die Position der Schutzverkleidung an dem Gehäuse des Schützes festgelegt. Die Schutzverkleidung kann somit nicht an einer falschen Position angebracht werden. Zudem ist eine einfache Befestigung der Schutzverkleidung an dem Gehäuse des Schützes möglich. Beispielsweise kann die Führungsleiste des Gehäuses mit der Nut der Schutzverkleidung verklebt werden.Advantageously, it can be provided that the protective cover has a groove, which engages in a guide rail of a housing of the contactor, and that the protective cover is attached to the housing. By the cooperation of the groove in the protective cover and the guide rail on the housing of the contactor, which is preferably arranged on the side wall of the housing, the position of the protective cover is fixed to the housing of the contactor. The protective cover can thus not be mounted in a wrong position. In addition, a simple attachment of the protective cover to the housing of the contactor is possible. For example, the guide rail of the housing can be glued to the groove of the protective cover.
Zweckmäßigerweise kann vorgesehen werden, dass die Seitenwände eines Gehäuses des Schützes im Bereich der mindestens einen Kontaktstelle mit einer Verstärkung aus einem lichtbogenresistenten Material versehen sind. Wird der Schütz beispielsweise im kritischen Strombereich, d.h. bei kleinen Strömen aber hohen Spannungen und somit kleinen treibenden Kräften für die Lichtbögen, betrieben, so werden die Lichtbögen nicht sofort aus der Kontaktstelle weggeblasen. Es kann dann vorkommen, dass sich die Lichtbögen in der Gehäusewand einbrennen und Schäden verursachen. Durch die Verstärkung werden diese Schäden vermieden. Vorzugsweise sind als Verstärkung Platten aus lichtbogenresistenten Materialen, beispielsweise Keramik wie Steatit oder Cordierit, vorgesehen.Appropriately, it can be provided that the side walls of a housing of the contactor are provided in the region of at least one contact point with a reinforcement of an arc-resistant material. For example, if the contactor is in the critical current range, i. operated at low currents but high voltages and thus small driving forces for the arcs, the arcs are not immediately blown away from the contact point. It can then happen that the arcs burn in the housing wall and cause damage. The reinforcement avoids these damages. Preferably, reinforcing plates of arc-resistant materials, such as ceramics such as steatite or cordierite, are provided.
Im Folgenden wird die Erfindung anhand einer Zeichnung näher erläutert. Es zeigen:
- Fig. 1
- perspektivische Teilansicht eines Schützes im Schnitt im Öffnungsmoment,
- Fig. 2
- perspektivische Teilansicht eines Schützes im Schnitt nach Aktivierung der ersten Blasspule,
- Fig. 3
- perspektivische Teilansicht eines Schützes im Schnitt nach Aktivierung beider Blasspulen,
- Fig. 4
- vergrößerte Darstellung des Bereiches um einen Festkontakt,
- Fig. 5a
- dreidimensionale vergrößerte Darstellung der Schutzverkleidung,
- Fig. 5b
- Schutzverkleidung von hinten,
- Fig. 6
- vergrößerte Darstellung der Befestigung der Schutzverkleidung an einem Gehäuse des Schützes,
- Fig. 7
- Teilschnitt einer weiteren Ausführungsform eines Schützes mit einer Abbrandauffangvorrichtung,
- Fig. 8
- vergrößerte Darstellung des Details VIII aus
Fig. 7 , - Fig. 9
- Darstellung einer Kontaktbrücke eines Schützes mit einer weiteren Ausführungsform einer Abbrandauffangvorrichtung und
- Fig. 10
- vergrößerte Darstellung der Kontaktstellen eines Schützes mit der Abbrandauffangvorrichtung aus
Fig. 9 .
- Fig. 1
- partial perspective view of a contactor in section at the moment of opening,
- Fig. 2
- partial perspective view of a contactor in section after activation of the first blow coil,
- Fig. 3
- partial perspective view of a contactor in section after activation of both blow coils,
- Fig. 4
- enlarged view of the area around a fixed contact,
- Fig. 5a
- three-dimensional enlarged representation of the protective covering,
- Fig. 5b
- Protective cover from the back,
- Fig. 6
- enlarged view of the attachment of the protective cover to a housing of the contactor,
- Fig. 7
- Partial section of another embodiment of a contactor with a burn-up device,
- Fig. 8
- enlarged view of detail VIII
Fig. 7 . - Fig. 9
- Representation of a contact bridge of a contactor with another embodiment of a Abbrandauffangvorrichtung and
- Fig. 10
- enlarged view of the contact points of a contactor with the Abbrandauffangvorrichtung from
Fig. 9 ,
In
Benachbart zu den Festkontakten 4, 5 ist an jeder Kontaktstelle 2, 3 ein Lichtbogenleitblech 9, 10 angeordnet. Die Lichtbogenleitbleche 9, 10 sind durch je einen Luftspalt 11, 12 von dem jeweiligen Festkontakt 4, 5 isoliert. Die Lichtbogenleitbleche 9, 10 sind gebogen, so dass sie mit der Kontaktschiene des jeweiligen Festkontakts 4, 5 eine V-förmige Anordnung ausbilden. Die Lichtbogenleitbleche 9; 10 sind so geformt, dass sie zwischen den Kontaktstellen 2, 3 einen Lichtbogenleitschacht 19 bilden, der im Wesentlichen senkrecht zur Längserstreckung der Kontaktbrücke 8 verläuft und durch den die Lichtbögen 15 oder 16 (je nach Lichtbogenlaufrichtung) mittels der Blasfelder der Primärblaseinrichtung und der Blasspulen 17, 18 hindurch in Richtung einer Lichtbogenlöscheinrichtung 24 geblasen werden. Im Anschluss an den Lichtbogenleitschacht 19 weiten sich die Lichtbogenleitbleche 9; 10. Benachbart zu den Lichtbogenleitblechen 9; 10 ist die Lichtbogenlöscheinrichtung 24 angeordnet.Adjacent to the fixed
Zwischen dem jeweiligen Festkontakt 4, 5 und dem zugeordneten Lichtbogenleitblech 9, 10 ist an jeder der Kontaktstellen 2, 3 eine Primärblaseinrichtung 13, 14 angeordnet. Im dargestellten Fall sind die Primärblaseinrichtungen 13, 14 als Permanentmagneten ausgebildet. Es wäre aber auch denkbar, anstelle der Permanentmagneten permanent stromdurchflossene Blasspulen einzusetzen. Die Primärblaseinrichtungen 13, 14 sind derart im Schütz angeordnet, dass ihr Magnetfeld senkrecht zu den beim Öffnen der Kontaktstellen 2, 3 entstehenden Schaltlichtbögen 15, 16 und senkrecht zur Längserstreckung der Kontaktbrücke 8 verläuft.Between the respective fixed
Der Schütz 1 umfasst ferner zwei Blasspulen 17, 18, die ebenfalls in dem V-förmigen Bereich zwischen dem jeweiligen Festkontakt 4, 5 und dem zugeordneten Lichtbogenleitblech 9, 10 angeordnet sind. Vorzugsweise sind die Blasspulen 17, 18 weiter von der Kontaktstelle entfernt als die jeweilige Primärblaseinrichtung 13, 14. Die erste Blasspule 17, die der ersten Kontaktstelle 2 zugeordnet ist, ist elektrisch leitend mit dem Festkontakt 4 der Kontaktstelle 2 und dem benachbart dazu angeordneten Lichtbogenleitblech 9 verbunden. Da der Schütz vorzugsweise spiegelsymmetrisch zu einer senkrecht zur Längserstreckung der Kontaktbrücke 8 zwischen den beiden Kontaktstellen 2, 3 verlaufenden Ebene ausgebildet ist, weist die Kontaktstelle 3 die gleichen Bauteile auf wie die Kontaktstelle 2. Daher ist die zweite Blasspule 18 elektrisch leitend mit dem Festkontakt 5 der zweiten Kontaktstelle 3 sowie mit dem zugeordneten Lichtbogenleitblech 10 verbunden. Auch hier ist die Primärblaseinrichtung 14 vorzugsweise näher an der Kontaktstelle 3 angeordnet als die Blasspule 18.The contactor 1 further comprises two
Um ein homogenes Blasfeld zu erhalten, ist der an der Kontaktstelle 2 angeordneten Primärblaseinrichtung 13 ein Polplattenpaar 20 zugeordnet. Die beiden Polplatten des Polplattenpaars 20 befinden sich auf gegenüberliegenden Seiten der Kontaktbrücke 8.In order to obtain a homogeneous blowing field, the
Da der Schütz 1 im Wesentlichen spiegelsymmetrisch ausgebildet ist, ist auch der zweiten Primärblaseinrichtung 14 ein Polplattenpaar 21 zugeordnet, dessen Polplatten sich auf gegenüberliegenden Seiten der Kontaktbrücke 8 befinden. In
Auch der ersten Blasspule 17 und der zweiten Blasspule 18 ist je ein Polplattenpaar 22; 23 zugeordnet. Die Polplatten der Polplattenpaare 22; 23 sind dabei so geformt, dass sie vor allem den Bereich des Lichtbogenleitschachts 19 und der Lichtbogenleitbleche 9; 10 überstrecken. Da die Blasspulen 17, 18 erst dann aktiviert werden, wenn ein Lichtbogenfußpunkt eines Lichtbogens auf eines der Lichtbogenleitbleche 9, 10 überspringt, müssen die elektromagnetischen Blasfelder vor allem in diesem Bereich wirken.Also, the
An jeder der beiden Kontaktstellen 2; 3 ist benachbart zu dem Luftspalt 11; 12 eine Schutzverkleidung 25, 26 angeordnet. Die Schutzverkleidung 25, 26 ist zwischen dem Luftspalt 11, 12 und den weiteren Bauteilen des Schützes 1, also den Primärblaseinrichtungen 13, 14 und den Blasspulen 17, 18 angeordnet und erstreckt sich von dem jeweiligen Festkontakt 4, 5 nach oben zu dem jeweiligen Lichtbogenleitblech 9, 10, so dass durch die Schutzverkleidungen 25, 26, die Festkontakte 4, 5 und die jeweiligen Lichtbogenleitbleche 9, 10 ein abgeschlossener Raum ausgebildet wird.At each of the two
In
Wie in
Wie in
In
Im dargestellten Ausführungsbeispiel weist der Schütz 1 eine Doppelunterbrechung mit zwei Kontaktstellen 2, 3 auf. Es wäre aber auch denkbar, den Schütz als einfach unterbrechenden Schütz auszubilden, der dann nur eine Kontaktstelle aufweist. Diese eine Kontaktstelle kann so ausgebildet sein, wie eine der beiden oben beschriebenen Kontaktstellen.In the illustrated embodiment, the contactor 1 has a double break with two
Im Folgenden werden nun anhand der
Der Stromkreis im Schütz 1 ist nun immer noch geschlossen und der Strom fließt von dem Festkontakt 4 über den Lichtbogen 15, die Kontaktbrücke 8, den Lichtbogen 16, das Lichtbogenleitblech 10 und die zweite Blasspule 18 zum Festkontakt 5. Parallel zu dem Strompfad über die zweite Blasspule 18 ist durch den Lichtbogen 28 ein zweiter Strompfad ausgebildet. Wird der Strom voll durch die Blasspule 18 übernommen, so erlöscht dieser Lichtbogen 28. Es existiert dann nur mehr ein Strompfad. Da die Blasspule 18 nun aktiviert ist, erzeugt sie ein elektromagnetisches Blasfeld, das auf den Lichtbogen 16 einwirkt. Dies führt dazu, dass der zweite Lichtbogenfußpunkt des Lichtbogens 16 von der Kontaktbrücke 8 auf das Lichtbogenleitblech 9 überspringt (siehe
Da auch die erste Blasspule 17 aufgrund der Induktivität der Blasspule den Strom nur allmählich (ansteigend nach einer E-Funktion) übernehmen kann, bildet sich auch hier ein paralleler Strompfad aus, indem am Luftspalt 11 ein Sekundärlichtbogen 29 entsteht. Durch die Schutzverkleidung 25 werden die Bauteile der zweiten Kontaktstelle 2 vor dem Sekundärlichtbogen 29 geschützt. Auch dieser Sekundärlichtbogen 29 erlischt zum Zeitpunkt voller Stromübernahme durch die Blasspule 17.Since the
Durch die Blasfelder der ersten Blasspule 17 und der zweiten Blasspule 18 wird der noch vorhandene Lichtbogen 16 in Richtung der Lichtbogenlöscheinrichtung 24 geblasen, geweitet und schließlich zum Erlöschen gebracht. Durch die keramischen Schutzverkleidungen 25, 26 wird sichergestellt, dass die Sekundärlichtbögen 28, 29, die bei der Aktivierung der beiden Blasspulen 17, 18 entstehen, keine Lichtbogenschädigungen im Schütz hervorrufen. Die Schutzverkleidungen 25, 26 müssen also in dem Bereich angeordnet, in dem beim Zuschalten der Blasspulen ein Lichtbogen entsteht.The still existing
Um die Kontaktstellen 2, 3 auch bei horizontaler Einbaulage, in der die Lichtbogenlöscheinrichtung 24 über den Kontaktstellen 2, 3 angeordnet ist, vor Abbrandpartikeln zu schützen, können Abbrand-Auffangvorrichtungen, beispielsweise eine Auffangwanne 37 oder ein Abweisblech 43, zwischen der Kontaktbrücke 8 und der Lichtbogenlöscheinrichtung 24 vorgesehen werden.In order to protect the contact points 2, 3 even with a horizontal mounting position, in which the
Claims (8)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE200910013337 DE102009013337B4 (en) | 2009-03-16 | 2009-03-16 | Arc-resistant contactor |
Publications (3)
Publication Number | Publication Date |
---|---|
EP2230678A2 true EP2230678A2 (en) | 2010-09-22 |
EP2230678A3 EP2230678A3 (en) | 2013-01-30 |
EP2230678B1 EP2230678B1 (en) | 2015-11-11 |
Family
ID=42078912
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP10001056.0A Active EP2230678B1 (en) | 2009-03-16 | 2010-02-02 | Arc welding resistant contactor |
Country Status (3)
Country | Link |
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EP (1) | EP2230678B1 (en) |
DE (1) | DE102009013337B4 (en) |
RU (1) | RU2451359C2 (en) |
Cited By (9)
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DE102014019713A1 (en) | 2014-02-27 | 2015-08-27 | Schaltbau Gmbh | Extinguishing chamber for a contactor and a contactor for extinguishing electric arcs |
DE102014002902A1 (en) | 2014-02-27 | 2015-08-27 | Schaltbau Gmbh | Extinguishing chamber for a contactor and a contactor for extinguishing electric arcs |
WO2015149895A1 (en) * | 2014-03-31 | 2015-10-08 | Schaltbau Gmbh | Multipolar power contactor |
EP3048626A1 (en) | 2015-01-22 | 2016-07-27 | Schaltbau GmbH | Switching device with permanent magnetic arc extinction |
CN105981123A (en) * | 2014-02-08 | 2016-09-28 | 埃伦贝格尔及珀恩斯根有限公司 | Switching system |
EP3349232A1 (en) * | 2017-01-12 | 2018-07-18 | ABB Schweiz AG | Electromechanical contactor |
EP3349231A1 (en) * | 2017-01-12 | 2018-07-18 | ABB Schweiz AG | Electromechanical contactor |
KR20210111564A (en) * | 2020-03-03 | 2021-09-13 | 엘에스일렉트릭(주) | Arc extinguishing assembly |
KR20210115584A (en) * | 2020-03-13 | 2021-09-27 | 엘에스일렉트릭(주) | Arc extinguish part and air circuit breaker include the same |
Families Citing this family (3)
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DE102011118418B4 (en) | 2011-11-12 | 2015-07-16 | Ellenberger & Poensgen Gmbh | switching system |
DE102016213073A1 (en) | 2016-07-18 | 2018-01-18 | Ellenberger & Poensgen Gmbh | switching system |
DE102021214615A1 (en) | 2021-12-17 | 2023-06-22 | Ellenberger & Poensgen Gmbh | arcing chamber of a mechanical switch |
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- 2009-03-16 DE DE200910013337 patent/DE102009013337B4/en not_active Expired - Fee Related
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EP1569313B1 (en) | 2004-02-27 | 2006-10-18 | ABB Technology AG | High Voltage apparatus with particle trap |
DE102006035844A1 (en) | 2006-08-01 | 2008-02-07 | Schaltbau Gmbh | Contactor for DC and AC operation |
DE102007023326A1 (en) | 2007-05-16 | 2008-11-27 | Abb Ag | Electrical switchgear particularly power protection switch or protective motor switch comprises housing with connection units for electrical connection with bus bars or power lines, where arc discharge unit is provided to discharge arc |
Cited By (22)
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CN105981123A (en) * | 2014-02-08 | 2016-09-28 | 埃伦贝格尔及珀恩斯根有限公司 | Switching system |
CN105981123B (en) * | 2014-02-08 | 2019-03-05 | 埃伦贝格尔及珀恩斯根有限公司 | Switching system |
EP3349230A1 (en) * | 2014-02-27 | 2018-07-18 | Schaltbau GmbH | Arc extinguishing chamber for a protective switch and a protective switch for extinguishing arcing |
DE102014019713A1 (en) | 2014-02-27 | 2015-08-27 | Schaltbau Gmbh | Extinguishing chamber for a contactor and a contactor for extinguishing electric arcs |
CN108777241B (en) * | 2014-02-27 | 2019-11-19 | 沙尔特宝有限公司 | Contactor for the explosion chamber of contactor and for eliminating electric arc |
DE102014002902B4 (en) | 2014-02-27 | 2019-08-01 | Schaltbau Gmbh | Extinguishing chamber for a contactor and a contactor for extinguishing electric arcs |
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WO2015127948A1 (en) * | 2014-02-27 | 2015-09-03 | Schaltbau Gmbh | Quenching chamber for a contactor and a contactor for quenching arcs |
DE102014002902A1 (en) | 2014-02-27 | 2015-08-27 | Schaltbau Gmbh | Extinguishing chamber for a contactor and a contactor for extinguishing electric arcs |
CN108777241A (en) * | 2014-02-27 | 2018-11-09 | 沙尔特宝有限公司 | Contactor for the explosion chamber of contactor and for eliminating electric arc |
US9646784B2 (en) | 2014-02-27 | 2017-05-09 | Schaltbau Gmbh | Arc chamber for a contactor and contactor to extinguish electric arcs |
US9799471B2 (en) | 2014-03-31 | 2017-10-24 | Schaltbau Gmbh | Multipolar power contactor |
RU2646620C1 (en) * | 2014-03-31 | 2018-03-06 | Шальтбау ГмбХ | Multipole power contactor |
WO2015149895A1 (en) * | 2014-03-31 | 2015-10-08 | Schaltbau Gmbh | Multipolar power contactor |
EP3157032A1 (en) | 2015-01-22 | 2017-04-19 | Schaltbau GmbH | Switching device with permanent magnetic arc extinction |
DE102015000796B4 (en) | 2015-01-22 | 2017-03-02 | Schaltbau Gmbh | Switching device with permanent magnetic arc extinguishing |
DE102015000796A1 (en) | 2015-01-22 | 2016-07-28 | Schaltbau Gmbh | Switching device with permanent magnetic arc extinguishing |
EP3048626A1 (en) | 2015-01-22 | 2016-07-27 | Schaltbau GmbH | Switching device with permanent magnetic arc extinction |
EP3349232A1 (en) * | 2017-01-12 | 2018-07-18 | ABB Schweiz AG | Electromechanical contactor |
EP3349231A1 (en) * | 2017-01-12 | 2018-07-18 | ABB Schweiz AG | Electromechanical contactor |
KR20210111564A (en) * | 2020-03-03 | 2021-09-13 | 엘에스일렉트릭(주) | Arc extinguishing assembly |
KR20210115584A (en) * | 2020-03-13 | 2021-09-27 | 엘에스일렉트릭(주) | Arc extinguish part and air circuit breaker include the same |
Also Published As
Publication number | Publication date |
---|---|
EP2230678A3 (en) | 2013-01-30 |
RU2451359C2 (en) | 2012-05-20 |
DE102009013337A1 (en) | 2010-11-18 |
DE102009013337B4 (en) | 2011-01-27 |
RU2010107366A (en) | 2011-08-27 |
EP2230678B1 (en) | 2015-11-11 |
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