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EP1141985B1 - Electromagnetic relay - Google Patents

Electromagnetic relay Download PDF

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Publication number
EP1141985B1
EP1141985B1 EP99967875A EP99967875A EP1141985B1 EP 1141985 B1 EP1141985 B1 EP 1141985B1 EP 99967875 A EP99967875 A EP 99967875A EP 99967875 A EP99967875 A EP 99967875A EP 1141985 B1 EP1141985 B1 EP 1141985B1
Authority
EP
European Patent Office
Prior art keywords
electromagnetic relay
relay according
contact
coil
armature
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.)
Expired - Lifetime
Application number
EP99967875A
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German (de)
French (fr)
Other versions
EP1141985A1 (en
Inventor
Josef Kern
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
TE Connectivity Solutions GmbH
Original Assignee
Tyco Electronics Logistics AG
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Filing date
Publication date
Application filed by Tyco Electronics Logistics AG filed Critical Tyco Electronics Logistics AG
Publication of EP1141985A1 publication Critical patent/EP1141985A1/en
Application granted granted Critical
Publication of EP1141985B1 publication Critical patent/EP1141985B1/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/54Contact arrangements
    • H01H50/56Contact spring sets
    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H50/00Details of electromagnetic relays
    • H01H50/54Contact arrangements

Definitions

  • Such a relay is for example from EP 0 211 446 B1 known.
  • a tension spring serves as the return spring which between the two, via your storage location in the yoke extended anchors is arranged. This relay serves to safely interrupt a load circuit. Through the Series connection of the two anchors and thus the two contact points the load circuit is interrupted even if a contact point is welded.
  • Another generic relay is from the US-PS 2,353,377 known. With this relay, the two point Contact springs and the two counter-contact elements each a common connection. The relay is used for safe Closing a load circuit even with strong vibrations and accelerating, such as when landing an airplane, which is achieved by connecting the two anchors in parallel becomes.
  • FIGS. 8 and 9 of US 2,353,377 A second embodiment is shown in FIGS. 8 and 9 of US 2,353,377 shown, in which two contact springs per anchor are arranged. With the relay of this embodiment two load circuits can thus be safely connected.
  • the anchors are also reset using a tension spring, which extended beyond the storage points Anchor attacks.
  • the invention has for its object the generic To further develop relays such that two brushless DC motors each with three arranged in a star connection Windings in the star center through the electromagnetic Relays connected or separated from each other can be.
  • the object is achieved in that Generic relay described above, the contact spring each provided with a connection and two contact pieces is and each contact piece with a separate connector arranged counter-contact element cooperates.
  • the relay thus has two connections on the contact springs and four connections, each with the mating contact elements connected. About these six Connections can therefore be made using a single relay partial windings of the two motors connected in parallel be connected or separated at the star center.
  • the contact spring is preferably E-shaped, wherein the contact pieces at the free ends of the outer legs are arranged and the free end of the middle leg is set and as a return spring means for the respective Serves anchor. Due to the E-shaped design of the contact spring a compact and inexpensive construction is achieved. This is further promoted by the fact that the free fixed end of the middle leg of the contact spring with the connection of the contact spring is connected.
  • the anchor is also E-shaped, the legs of the anchor essentially under the legs of the E-shaped contact spring are arranged.
  • This has the advantage that to achieve a maximum and equal contact force of the double contacts Manufacturing-related tolerances through an overstroke adjustment of all four contacts arranged on the contact spring in can be easily eliminated.
  • the anchor preferably has notches at the bending points to get a defined target bending point.
  • the connections on the contact springs as well two connections on the mating contact elements conductive connected with each other. Due to the parallel connection redundancy and thus a secure connection or Separate the two star centers of the three Windings of the motors connected in parallel.
  • the relay shown in Figures 1 to 7 consists of a bobbin 1 with two side symmetrical flanges 2A and 2B, between which the bobbin 1 with a Winding 3 is provided.
  • As connections for the winding 3 are round or in the side flanges 2A and 2B injected rectangular wires 4A and 4B.
  • the coil former 1 is hollow in the middle and is axially continuous round or rectangular core 5.
  • On the bobbin 1, a yoke 6 is arranged parallel to the axis of the core 5, at each of its two end faces movable armature 7A and 7B is mounted.
  • the yoke 6 serves for flux guidance in the magnetic circuit and is designed as a flat sheet and to provide holes on four pins be plugged onto the flanges 2A and 2B of the coil former 1.
  • the connection is made, for example, by hot stamping the cone.
  • the core 5 and the yoke 6 have almost the same length.
  • the end faces of the core 5 form the pole faces 5A and 5B for the two anchors 7A and 7B.
  • the core 5 can either be a pluggable part without enlarged pole faces 5A, 5B, as shown in Figure 4, or as one of the bobbin 1 overmolded part with enlarged pole faces 5A 'and 5B ', as shown in FIG. 5.
  • the two anchors 7A and 7B are flat and essentially E-shaped trained and thus consist of a base 70, two outer legs 71 and 73 and a middle leg 72.
  • the contact spring 8A or 8B is at its base 80 via two riveted or welded connections 9 connected to the base 70 of the armature 7A or 7B.
  • the outer legs 81 and 83 of the contact spring 8A and 8B respectively stand over the outer free ends of the outer legs 71 and 73 of the armatures 7A and 7B, respectively, and carry in this protruding area a contact piece 10A to 10D.
  • This four contact pieces 10A to 10D are when the coil is energized by the armature 7A or 7B against four mating contacts 11A to 11d pressed, which each on separately formed connections 12A to 12D are provided, each in grooves the flanges 2A, 2B of the bobbin 1 are guided.
  • the Contacts 10A to 10D and the counter contacts 11A to 11D designed as riveted or welded contacts and thus to each other arranged that the contact pieces 11A to 11D against the spring force of the contact spring 8A or 8B the counter contacts 11A to 11D are pressed.
  • the two E-shaped anchors 7A and 7B serve only the middle legs 72 and in each case the middle area the base 70 for flow guidance. Since the outer legs 81 and 83 of the contact spring 8A or 8B on the outer legs 71 and 73 of the armatures 7A and 7B, respectively, are used to increase the overstroke the outer legs 71, 73 the anchor inwards, that means towards the spool or to reduce the overstroke turned outwards. In order to bend the outer legs 71 or 73 of the armatures 7A or 7B to defined predetermined bending points are obtained between the base 70 and the outer Legs 71 and 73 notches 74 are provided.
  • the middle leg serves as the return spring 82 of the contact spring 8A or 8B.
  • This middle leg 82 is over the free end of the middle leg 72 of the anchor 7A and 7B extended and each on another Connection 13A or 13B fixed.
  • the middle leg 82 the E-shaped spring 8A and 8B is thus used for Power supply and for resetting the armature.
  • the connections 13A and 13B are identical to the terminals 12A to 12D formed and also in grooves of the flanges 2A, 2B of the coil body 1 led to a low-tolerance structure of the relay to achieve.
  • the middle leg 82 of the contact spring 8A and 8B is in the area in which it over the free Protrudes end of the middle leg 72 of the armature 7A or 7B, around the middle leg 72 of the anchor in the direction Coil body 1 bent and in the area of the working air gap between the armature 7A or 7B and the pole face 5A or 5B of the core 5 with the connection 13A or 13B through a Riveted or welded joint connected.
  • the relay has an essentially rectangular plan, terminals 12A to 12D and 13A and 13B, respectively are arranged on the narrower end faces.
  • terminals 12A to 12D and 13A and 13B are arranged on the narrower end faces.
  • two coil connections 14A, 14B arranged on which the wires 4A, 4B for the winding 3 of the coil are soldered.
  • the entire relay is on one insulating base plate 15 made of plastic, in which also the coil connections arranged on the long side of the relay 14A, 14B are fixed. All connections 12A to 12D, 13A, 13B and the coil connections 14A, 14B are in the essentially L-shaped, each with one leg of the L in grooves on the top of the base plate 15 is added is.
  • the relay is provided with a protective housing 16, which on the front outer surfaces each with grooves 17 is provided, in each of which the other leg of the L-shaped connections 12A to 12D and 13A, 13B and is thus firmly attached.
  • the protective housing 16 is in the Mounted from above over the insulating base plate 15 and potted in the plane of the base plate.
  • the entire relay is mirror-symmetrical across its longitudinal extent educated.
  • connections 12A to 12D and 13A, 13B identical parts are used. Through the Use of many of the same parts can be used in manufacturing the number of tools can be kept very low, so that Relay is very inexpensive to manufacture.
  • FIG. 8 shows the circuit diagram according to which the relay according to the invention for connecting the star centers two DC motors with three partial windings each A to C or A 'to C' is used.
  • the illustrated Circuit are just the reference numbers of the coil connections 14A and 14B and the connections 12A to 12D and 13A, 13B.
  • the partial windings can also be connected in parallel within of the relay by three metallic bridges or strands between the terminals 12A and 12C or 12B and 12D and the two connections 13A and 13B to the contact spring 8A, 8B.
  • Figure 9 shows an alternative use of the relay, wherein here the two double closers are connected in series to to ensure safe separation of load circuits. If, for example, a contact were to weld, the Load circuit still through the opening of the second double closer to be interrupted. Because of the double contacts with this circuit also the switching reliability when closing of contacts compared to simple contacts elevated.
  • FIG. 10 and 11 show further possible uses of the relay, wherein according to Figure 10, the relay for switching two loads with two double contacts each and according to FIG. 11 for switching four different loads over the separated Way of the two double contacts is used.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Electromagnets (AREA)

Description

Die Erfindung betrifft ein elektromagnetisches Relais mit einer Spule, mit einem Spulenkörper, Wicklung und axial durchgehendem Kern, ferner mit einer neben der Spule und parallel zu deren Achse angeordnetem Joch und zwei flachen Ankern, von denen jeweils einer

  • an einem Spulenende jeweils senkrecht zur Spulenachse angeordnet ist,
  • an einem Jochende gelagert ist,
  • mit einem Ende des Kerns einen Arbeitsluftspalt bildet,
  • über Rückstellfedermittel in seiner ausgeschwenkten Position gehalten ist und
  • über eine Kontaktfeder ein Kontaktstück trägt, das mit einem einen Anschluß aufweisenden Gegenkontaktelement zusammenwirkt.
The invention relates to an electromagnetic relay with a coil, with a coil body, winding and axially continuous core, further with a yoke arranged next to the coil and parallel to its axis and two flat armatures, one of which is each
  • is arranged at a coil end perpendicular to the coil axis,
  • is stored on a yoke end,
  • forms a working air gap with one end of the core,
  • is held in its swiveled-out position by return spring means and
  • carries a contact piece via a contact spring, which cooperates with a mating contact element having a connection.

Ein derartiges Relais ist zum Beispiel aus der EP 0 211 446 B1 bekannt. Als Rückstellfedermittel dient eine Zugfeder, welche zwischen den beiden, über Ihre Lagerstelle im Jochende hinaus verlängerten Ankern angeordnet ist. Dieses Relais dient zur sicheren Unterbrechung eines Lastkreises. Durch die Serienschaltung der beiden Anker und somit der beiden Kontaktstellen wird der Lastkreis auch dann unterbrochen, wenn eine Kontaktstelle verschweißt ist.Such a relay is for example from EP 0 211 446 B1 known. A tension spring serves as the return spring which between the two, via your storage location in the yoke extended anchors is arranged. This relay serves to safely interrupt a load circuit. Through the Series connection of the two anchors and thus the two contact points the load circuit is interrupted even if a contact point is welded.

Ein weiteres gattungsgemäßes Relais ist aus der US-PS 2,353,377 bekannt. Bei diesem Relais weisen die beiden Kontaktfedern sowie die beiden Gegenkontaktelemente jeweils einen gemeinsamen Anschluß auf. Das Relais dient zum sicheren Schließen eines Lastkreises auch bei starken Erschütterungen und Beschleunigen, wie zum Beispiel beim Landen eines Flugzeuges, was durch die Parallelschaltung der beiden Anker erreicht wird. Another generic relay is from the US-PS 2,353,377 known. With this relay, the two point Contact springs and the two counter-contact elements each a common connection. The relay is used for safe Closing a load circuit even with strong vibrations and accelerating, such as when landing an airplane, which is achieved by connecting the two anchors in parallel becomes.

In den Figuren 8 und 9 der US 2,353,377 ist eine zweite Ausführungsform dargestellt, bei welcher pro Anker zwei Kontaktfedern angeordnet sind. Mit dem Relais dieser Ausführungsform können somit zwei Lastkreise sicher verbunden werden.A second embodiment is shown in FIGS. 8 and 9 of US 2,353,377 shown, in which two contact springs per anchor are arranged. With the relay of this embodiment two load circuits can thus be safely connected.

Die Rückstellung der Anker erfolgt ebenfalls über eine Zugfeder, welche an den über die Lagerstellen hinaus verlängerten Ankern angreift.The anchors are also reset using a tension spring, which extended beyond the storage points Anchor attacks.

Der Erfindung liegt die Aufgabe zugrunde, das gattungsgemäße Relais derart weiterzubilden, daß zwei bürstenlose Gleichstrommotoren mit jeweils drei in Sternschaltung angeordneten Wicklungen jeweils im Sternmittelpunkt durch das elektromagnetische Relais miteinander verbunden bzw. voneinander getrennt werden können.The invention has for its object the generic To further develop relays such that two brushless DC motors each with three arranged in a star connection Windings in the star center through the electromagnetic Relays connected or separated from each other can be.

In Sicherheitsapplikationen in Kraftfahrzeugen sind solche Motoren redundant angeordnet und die Wicklungen der zwei Motoren jeweils parallel geschaltet.Such are in safety applications in motor vehicles Motors redundantly arranged and the windings of the two motors each connected in parallel.

Bisher wurde das Problem durch drei elektromagnetische Relais mit je einem Schließerkontakt gelöst, welche die je zwei parallel geschalteten Teilwicklungen der beiden Motoren verbinden bzw. trennen. Eine alternative Lösung sah vor, durch zwei elektromagnetische Relais mit je einem Doppelschließerkontakt die jeweils parallel geschalteten Teilwicklungen der zwei Motoren im Sternmittelpunkt zu verbinden oder zu trennen.So far, the problem was caused by three electromagnetic relays solved with one NO contact each, which the two in parallel Connect the switched partial windings of the two motors or separate. An alternative solution was provided by two electromagnetic relays with one double make contact each the partial windings of the two motors connected in parallel to connect or separate at the star center.

Erfindungsgemäß wird die Aufgabe dadurch gelöst, daß bei dem oben beschriebenen gattungsgemäßen Relais die Kontaktfeder jeweils mit einem Anschluß und zwei Kontaktstücken versehen ist und jedes Kontaktstück mit einem an einem separaten Anschluß angeordneten Gegenkontaktelement zusammenwirkt.According to the invention the object is achieved in that Generic relay described above, the contact spring each provided with a connection and two contact pieces is and each contact piece with a separate connector arranged counter-contact element cooperates.

An dem Relais stehen somit zwei Anschlüsse an den Kontaktfedern sowie vier Anschlüsse, welche jeweils mit den Gegenkontaktelementen verbunden sind, zur Verfügung. Über diese sechs Anschlüsse können somit durch ein einziges Relais die drei jeweils parallel geschalteten Teilwicklungen der zwei Motoren im Sternmittelpunkt verbunden bzw. getrennt werden.The relay thus has two connections on the contact springs and four connections, each with the mating contact elements connected. About these six Connections can therefore be made using a single relay partial windings of the two motors connected in parallel be connected or separated at the star center.

Die Kontaktfeder ist vorzugsweise E-förmig ausgebildet, wobei an den freien Enden der äußeren Schenkel die Kontaktstücke angeordnet sind und das freie Ende des mittleren Schenkels festgelegt ist und als Rückstellfedermittel für den jeweiligen Anker dient. Durch die E-förmige Ausbildung der Kontaktfeder wird ein kompakter und kostengünstiger Aufbau erreicht. Dieser wird desweiteren dadurch gefördert, daß das freie festgelegte Ende des mittleren Schenkels der Kontaktfeder mit dem Anschluß der Kontaktfeder verbunden ist.The contact spring is preferably E-shaped, wherein the contact pieces at the free ends of the outer legs are arranged and the free end of the middle leg is set and as a return spring means for the respective Serves anchor. Due to the E-shaped design of the contact spring a compact and inexpensive construction is achieved. This is further promoted by the fact that the free fixed end of the middle leg of the contact spring with the connection of the contact spring is connected.

Eine weitere Kostenersparnis bei der Herstellung wird dadurch erzielt, daß das Relais quer zur Längsachse des Kernes spiegelsymmetrisch ist und die Anschlußteile für die Kontaktfeder sowie diejenigen für die Gegenkontaktelemente identisch sind. Die Kostenersparnis entsteht in erster Linie durch die geringere Anzahl von Werkzeugen, welche bei der Fertigung benötigt werden.This will result in further cost savings in production achieved that the relay is mirror-symmetrical transverse to the longitudinal axis of the core is and the connecting parts for the contact spring and those for the mating contact elements are identical. The cost savings arise primarily from the lower ones Number of tools that are required for production become.

In einer bevorzugten Ausführungsform ist der Anker ebenfalls E-förmig ausgebildet, wobei die Schenkel des Ankers im wesentlichen unter den Schenkeln der E-förmigen Kontaktfeder angeordnet sind. Dies hat den Vorteil, daß zur Erreichung einer maximalen und gleich großen Kontaktkraft der Doppelkontakte fertigungsbedingte Toleranzen durch eine Überhubjustierung aller vier an der Kontaktfeder angeordneten Kontakte in einfacher Weise eliminiert werden können. Hierzu werden die seitlichen Schenkel des E-förmigen Ankers, auf welchen die seitlichen Schenkel der E-förmigen Kontaktfeder mit den Kontaktstücken angeordnet sind zur Überhubvergrößerung jeweils nach außen bzw. zur Überhubverkleinerung nach innen abgebogen. An den Biegestellen weist der Anker vorzugsweise Einkerbungen auf, um eine definierte Sollbiegestelle zu erhalten. In a preferred embodiment, the anchor is also E-shaped, the legs of the anchor essentially under the legs of the E-shaped contact spring are arranged. This has the advantage that to achieve a maximum and equal contact force of the double contacts Manufacturing-related tolerances through an overstroke adjustment of all four contacts arranged on the contact spring in can be easily eliminated. For this, the lateral leg of the E-shaped anchor on which the lateral leg of the E-shaped contact spring with the contact pieces are arranged to increase the overstroke in each case bent outwards or inward to reduce overstroke. The anchor preferably has notches at the bending points to get a defined target bending point.

In einer weiteren vorteilhaften Ausführungsform sind innerhalb des Relais die Anschlüsse an den Kontaktfedern sowie jeweils zwei Anschlüsse an den Gegenkontaktelementen leitend miteinander verbunden. Durch die Parallelschaltung ergibt sich eine Redundanz und somit ein sicheres Verbinden bzw. Auftrennen der beiden Sternmittelpunkte der jeweils drei Wicklungen der parallel geschalteten Motoren.In a further advantageous embodiment, inside of the relay, the connections on the contact springs as well two connections on the mating contact elements conductive connected with each other. Due to the parallel connection redundancy and thus a secure connection or Separate the two star centers of the three Windings of the motors connected in parallel.

Weitere Vorteile der Erfindung sowie alternative vorteilhafte Verwendungen sind in den Unteransprüchen offenbart.Further advantages of the invention as well as alternative advantageous ones Uses are disclosed in the subclaims.

Nachfolgend wird die Erfindung anhand in den Zeichnungen dargestellter Ausführungsbeispiele näher erläutert. In den Zeichnungen zeigen

Figur 1
das erfindungsgemäße Relais in einer Schrägansicht,
Figur 2
das erfindungsgemäße Relais in der Ansicht von oben,
Figur 3
eine Seitenansicht des Relais,
Figur 4
den Schnitt A - A aus Figur 2,
Figur 5
die Ansicht gemäß Figur 4 mit einem modifizierten Kern,
Figur 6
den Schnitt B - B aus Figur 2,
Figur 7
den Schnitt C - C aus Figur 3,
Figur 8
das Schaltbild des Relais gemäß den Figuren 1 bis 7 bei der Verbindung zweier Sternmittelpunkte von drei Wicklungen parallel geschalteter Gleichstrommotoren, und
Figur 9 bis 11
Schaltpläne alternativer Verwendungsmöglichkeiten des erfindungsgemäßen Relais.
The invention is explained in more detail below with reference to exemplary embodiments shown in the drawings. Show in the drawings
Figure 1
the relay according to the invention in an oblique view,
Figure 2
the relay according to the invention in the view from above,
Figure 3
a side view of the relay,
Figure 4
the section A - A from Figure 2,
Figure 5
4 with a modified core,
Figure 6
the section B - B from Figure 2,
Figure 7
the section C - C of Figure 3,
Figure 8
the circuit diagram of the relay according to Figures 1 to 7 when connecting two star centers of three windings of parallel DC motors, and
Figures 9 to 11
Circuit diagrams of alternative uses of the relay according to the invention.

Das in den Figuren 1 bis 7 dargestellte Relais besteht aus einem Spulenkörper 1 mit zwei seitlichen symmetrischen Flanschen 2A und 2B, zwischen welchen der Spulenkörper 1 mit einer Wicklung 3 versehen ist. Als Anschlüsse für die Wicklung 3 sind in den seitlichen Flanschen 2A und 2B runde oder rechteckige Drähte 4A und 4B eingespritzt. Der Spulenkörper 1 ist in der Mitte hohl und nimmt in sich einen axial durchgehenden runden oder rechteckigen Kern 5 auf. An dem Spulenkörper 1 ist parallel zur Achse des Kerns 5 ein Joch 6 angeordnet, an dessen beiden stirnseitigen Endflächen jeweils ein beweglicher Anker 7A und 7B gelagert ist. Das Joch 6 dient zur Flußführung im Magnetkreis und ist als planes Blech ausgebildet und mit Löchern zu versehen, welche auf vier Zapfen an den Flanschen 2A und 2B des Spulenkörpers 1 gesteckt werden. Die Verbindung erfolgt zum Beispiel durch Warmverprägen der Zapfen.The relay shown in Figures 1 to 7 consists of a bobbin 1 with two side symmetrical flanges 2A and 2B, between which the bobbin 1 with a Winding 3 is provided. As connections for the winding 3 are round or in the side flanges 2A and 2B injected rectangular wires 4A and 4B. The coil former 1 is hollow in the middle and is axially continuous round or rectangular core 5. On the bobbin 1, a yoke 6 is arranged parallel to the axis of the core 5, at each of its two end faces movable armature 7A and 7B is mounted. The yoke 6 serves for flux guidance in the magnetic circuit and is designed as a flat sheet and to provide holes on four pins be plugged onto the flanges 2A and 2B of the coil former 1. The connection is made, for example, by hot stamping the cone.

Der Kern 5 sowie das Joch 6 haben nahezu die gleiche Länge. Die stirnseitigen Endflächen des Kerns 5 bilden die Polflächen 5A und 5B für die beiden Anker 7A und 7B. Der Kern 5 kann entweder als steckbares Teil ohne vergrößerte Polflächen 5A, 5B ,wie in Figur 4 dargestellt, oder als ein vom Spulenkörper 1 umspritztes Teil mit vergrößerten Polflächen 5A' und 5B', wie in Figur 5 dargestellt, ausgeführt sein.The core 5 and the yoke 6 have almost the same length. The end faces of the core 5 form the pole faces 5A and 5B for the two anchors 7A and 7B. The core 5 can either be a pluggable part without enlarged pole faces 5A, 5B, as shown in Figure 4, or as one of the bobbin 1 overmolded part with enlarged pole faces 5A 'and 5B ', as shown in FIG. 5.

Die beiden Anker 7A und 7B sind plan und im wesentlichen E-förmig ausgebildet und bestehen somit aus einer Basis 70, zwei äußeren Schenkeln 71 und 73 und einem mittleren Schenkel 72. Auf jedem Anker 7A bzw. 7B ist eine Kontaktfeder 8A bzw. 8B angeordnet, welche ebenfalls E-förmig ausgebildet ist und aus einer Basis 80, zwei äußeren Schenkel 81 und 83 sowie einem mittleren Schenkel 82 besteht. Die Kontaktfeder 8A bzw. 8B ist an ihrer Basis 80 über zwei Niet- oder Schweißverbindungen 9 mit der Basis 70 des Ankers 7A bzw. 7B verbunden. The two anchors 7A and 7B are flat and essentially E-shaped trained and thus consist of a base 70, two outer legs 71 and 73 and a middle leg 72. On each armature 7A or 7B there is a contact spring 8A or 8B arranged, which is also E-shaped and from a base 80, two outer legs 81 and 83 and one middle leg 82 exists. The contact spring 8A or 8B is at its base 80 via two riveted or welded connections 9 connected to the base 70 of the armature 7A or 7B.

Die äußeren Schenkel 81 und 83 der Kontaktfeder 8A bzw. 8B stehen über die äußeren freien Enden der äußeren Schenkel 71 und 73 der Anker 7A bzw. 7B über und tragen jeweils in diesem überstehenden Bereich ein Kontaktstück 10A bis 10D. Diese vier Kontaktstücke 10A bis 10D werden bei Erregung der Spule durch die Anker 7A bzw. 7B gegen vier Gegenkontakte 11A bis 11d gepreßt, welche jeweils an getrennt ausgebildeten Anschlüssen 12A bis 12D vorgesehen sind, die jeweils in Nuten der Flansche 2A, 2B des Spulenkörpers 1 geführt sind. Die Kontakte 10A bis 10D sowie die Gegenkontakte 11A bis 11D sind als Niet- oder Schweißkontakte ausgebildet und so zueinander angeordnet, daß bei geschlossenem Anker die Kontaktstücke 11A bis 11D durch die Federkraft der Kontaktfeder 8A bzw. 8B gegen die Gegenkontakte 11A bis 11D gepreßt werden.The outer legs 81 and 83 of the contact spring 8A and 8B, respectively stand over the outer free ends of the outer legs 71 and 73 of the armatures 7A and 7B, respectively, and carry in this protruding area a contact piece 10A to 10D. This four contact pieces 10A to 10D are when the coil is energized by the armature 7A or 7B against four mating contacts 11A to 11d pressed, which each on separately formed connections 12A to 12D are provided, each in grooves the flanges 2A, 2B of the bobbin 1 are guided. The Contacts 10A to 10D and the counter contacts 11A to 11D designed as riveted or welded contacts and thus to each other arranged that the contact pieces 11A to 11D against the spring force of the contact spring 8A or 8B the counter contacts 11A to 11D are pressed.

Für eine maximale und gleich große Kontaktkraft der Doppelkontakte können fertigungsbedingte Toleranzen durch eine Überhubjustierung aller vier Kontakte eliminiert werden. Bei den beiden E-förmigen Ankern 7A bzw. 7B dienen jeweils nur die mittleren Schenkel 72 sowie jeweils der mittlere Bereich der Basis 70 zur Flußführung. Da die äußeren Schenkel 81 und 83 der Kontaktfeder 8A bzw. 8B auf den äußeren Schenkeln 71 und 73 der Anker 7A bzw. 7B aufliegen, werden zur Überhubvergrößerung die äußeren Schenkel 71, 73 der Anker nach innen, das heißt in Richtung Spule, bzw. zur Überhubverkleinerung nach außen abgebogen. Um beim Biegen der äußeren Schenkel 71 bzw. 73 der Anker 7A bzw. 7B definierte Sollbiegestellen zu erhalten, sind jeweils zwischen der Basis 70 und den äußeren Schenkeln 71 und 73 Einkerbungen 74 vorgesehen.For a maximum and equal contact force of the double contacts can manufacturing tolerances by a Over stroke adjustment of all four contacts can be eliminated. at the two E-shaped anchors 7A and 7B serve only the middle legs 72 and in each case the middle area the base 70 for flow guidance. Since the outer legs 81 and 83 of the contact spring 8A or 8B on the outer legs 71 and 73 of the armatures 7A and 7B, respectively, are used to increase the overstroke the outer legs 71, 73 the anchor inwards, that means towards the spool or to reduce the overstroke turned outwards. In order to bend the outer legs 71 or 73 of the armatures 7A or 7B to defined predetermined bending points are obtained between the base 70 and the outer Legs 71 and 73 notches 74 are provided.

Als Rückstellfedermittel dient jeweils der mittlere Schenkel 82 der Kontaktfeder 8A bzw. 8B. Dieser mittlere Schenkel 82 ist über das freie Ende des mittleren Schenkels 72 des Ankers 7A bzw. 7B hinaus verlängert und jeweils an einem weiteren Anschluß 13A bzw. 13B festgelegt. Der mittlere Schenkel 82 der E-förmigen Feder 8A bzw. 8B dient somit jeweils zur Stromführung und zur Rückstellung des Ankers. Die Anschlüsse 13A und 13B sind identisch wie die Anschlüsse 12A bis 12D ausgebildet und ebenso in Nuten der Flansche 2A, 2B des Spulenkörpers 1 geführt, um einen toleranzarmen Aufbau des Relais zu erzielen. Der mittlere Schenkel 82 der Kontaktfeder 8A bzw. 8B ist in dem Bereich, in welchem er über das freie Ende des mittleren Schenkels 72 des Ankers 7A bzw. 7B übersteht, um den mittleren Schenkel 72 des Anker in Richtung Spulenkörper 1 abgebogen und im Bereich des Arbeitsluftspaltes zwischen dem Anker 7A bzw. 7B und der Polfläche 5A bzw. 5B des Kernes 5 mit dem Anschluß 13A bzw. 13B durch eine Niet- oder Schweißverbindung verbunden.The middle leg serves as the return spring 82 of the contact spring 8A or 8B. This middle leg 82 is over the free end of the middle leg 72 of the anchor 7A and 7B extended and each on another Connection 13A or 13B fixed. The middle leg 82 the E-shaped spring 8A and 8B is thus used for Power supply and for resetting the armature. The connections 13A and 13B are identical to the terminals 12A to 12D formed and also in grooves of the flanges 2A, 2B of the coil body 1 led to a low-tolerance structure of the relay to achieve. The middle leg 82 of the contact spring 8A and 8B is in the area in which it over the free Protrudes end of the middle leg 72 of the armature 7A or 7B, around the middle leg 72 of the anchor in the direction Coil body 1 bent and in the area of the working air gap between the armature 7A or 7B and the pole face 5A or 5B of the core 5 with the connection 13A or 13B through a Riveted or welded joint connected.

Das Relais besitzt einen im wesentlichen rechteckigen Grundriß, wobei die Anschlüsse 12A bis 12D und 13A und 13B jeweils an den schmäleren Stirnseiten angeordnet sind. Auf einer Längsseite des Relais sind noch zwei Spulenanschlüsse 14A, 14B angeordnet, an welchen die Drähte 4A, 4B für die Wicklung 3 der Spule angelötet sind. Das gesamte Relais ist auf einer isolierenden Grundplatte 15 aus Kunststoff aufgebaut, in welcher auch die an der Längsseite des Relais angeordneten Spulenanschlüsse 14A, 14B fixiert sind. Sämtliche Anschlüsse 12A bis 12D, 13A, 13B sowie die Spulenanschlüsse 14A, 14B sind im wesentlichen L-förmig ausgebildet, wobei jeweils ein Schenkel des L in Nuten an der Oberseite der Grundplatte 15 aufgenommen ist. Das Relais ist mit einem Schutzgehäuse 16 versehen, welches an den stirnseitigen Außenflächen jeweils mit Nuten 17 versehen ist, in welchen jeweils der andere Schenkel der L-förmigen Anschlüsse 12A bis 12D und 13A, 13B geführt und somit stabil befestigt ist. Das Schutzgehäuse 16 wird bei der Montage von oben über die isolierende Grundplatte 15 gesteckt und in der Ebene der Grundplatte mit dieser vergossen.The relay has an essentially rectangular plan, terminals 12A to 12D and 13A and 13B, respectively are arranged on the narrower end faces. On a On the long side of the relay are two coil connections 14A, 14B arranged on which the wires 4A, 4B for the winding 3 of the coil are soldered. The entire relay is on one insulating base plate 15 made of plastic, in which also the coil connections arranged on the long side of the relay 14A, 14B are fixed. All connections 12A to 12D, 13A, 13B and the coil connections 14A, 14B are in the essentially L-shaped, each with one leg of the L in grooves on the top of the base plate 15 is added is. The relay is provided with a protective housing 16, which on the front outer surfaces each with grooves 17 is provided, in each of which the other leg of the L-shaped connections 12A to 12D and 13A, 13B and is thus firmly attached. The protective housing 16 is in the Mounted from above over the insulating base plate 15 and potted in the plane of the base plate.

Das gesamte Relais ist quer zu seiner Längserstreckung spiegelsymmetrisch ausgebildet. Für die Anschlüsse 12A bis 12D und 13A, 13B werden identische Teile verwendet. Durch die Verwendung der vielen gleichen Teile kann bei der Herstellung die Werkzeuganzahl sehr gering gehalten werden, wodurch das Relais sehr kostengünstig herstellbar ist.The entire relay is mirror-symmetrical across its longitudinal extent educated. For connections 12A to 12D and 13A, 13B, identical parts are used. Through the Use of many of the same parts can be used in manufacturing the number of tools can be kept very low, so that Relay is very inexpensive to manufacture.

In Figur 8 ist das Schaltbild aufgezeichnet, gemäß welchem das erfindungsgemäße Relais zur Verbindung der Sternmittelpunkte zweier Gleichstrommotoren mit jeweils drei Teilwicklungen A bis C bzw. A' bis C' verwendet wird. In der dargestellten Schaltung sind lediglich die Bezugszeichen der Spulenanschlüsse 14A und 14B sowie der Anschlüsse 12A bis 12D und 13A, 13B eingetragen.FIG. 8 shows the circuit diagram according to which the relay according to the invention for connecting the star centers two DC motors with three partial windings each A to C or A 'to C' is used. In the illustrated Circuit are just the reference numbers of the coil connections 14A and 14B and the connections 12A to 12D and 13A, 13B.

Die Teilwicklungen A, A', B B' und C, C' der beiden Motoren sind in der dargestellten Schaltung außerhalb des Relais parallel geschaltet. Durch die Parallelschaltung der beiden Doppelkontaktschließer ergibt sich eine Redundanz und somit ein sicheres Verbinden der beiden Sternmittelpunkte der jeweils drei Wicklungen der parallel geschalteten Motoren. In Figur 8 ist bereits eine Parallelschaltung der Anschlüsse 13A, 13B eingezeichnet, welche über die Anker 7A, 7B und das Joch erfolgt.The partial windings A, A ', B B' and C, C 'of the two motors are parallel in the circuit shown outside the relay connected. Through the parallel connection of the two double contact closers there is a redundancy and thus a secure connection of the two star centers of each three windings of the motors connected in parallel. In Figure 8 is already a parallel connection of the terminals 13A, 13B drawn in, which takes place via the armature 7A, 7B and the yoke.

Die Parallelschaltung der Teilwicklungen kann jedoch auch innerhalb des Relais durch drei metallische Brücken bzw. Litzen zwischen den Anschlüssen 12A und 12C bzw. 12B und 12D und den beiden Anschlüssen 13A und 13B an den Kontaktfeder 8A, 8B erfolgen. Entfällt die Parallelschaltung zwischen den Anschlüssen 13A, 13B außerhalb des Relais, ist eine zusätzliche Verbindung erforderlich, da die Verbindung über die Anker und das Joch nicht für hohe Ströme ausgelegt ist.However, the partial windings can also be connected in parallel within of the relay by three metallic bridges or strands between the terminals 12A and 12C or 12B and 12D and the two connections 13A and 13B to the contact spring 8A, 8B. There is no parallel connection between the connections 13A, 13B outside the relay, is an additional connection required because the connection via the anchor and the yoke is not designed for high currents.

Figur 9 zeigt eine alternative Verwendung des Relais, wobei hier die beiden Doppelschließer in Serie geschaltet sind, um ein sicheres Auftrennen von Lastkreisen zu gewährleisten. Würde zum Beispiel ein Kontakt verschweißen, so würde der Lastkreis immer noch durch die Öffnung des zweiten Doppelschließers unterbrochen werden. Durch die Doppelkontakte ist bei dieser Schaltung auch die Schaltsicherheit beim Schließen der Kontakte im Vergleich zu einfachen Kontakten wesentlich erhöht.Figure 9 shows an alternative use of the relay, wherein here the two double closers are connected in series to to ensure safe separation of load circuits. If, for example, a contact were to weld, the Load circuit still through the opening of the second double closer to be interrupted. Because of the double contacts with this circuit also the switching reliability when closing of contacts compared to simple contacts elevated.

Die Figuren 10 und 11 zeigen weitere Anwendungsmöglichkeiten des Relais, wobei gemäß Figur 10 das Relais zur Schaltung von zwei Lasten mit je zwei Doppelkontakten und gemäß Figur 11 zur Schaltung von vier verschiedenen Lasten über die aufgetrennten Wege der zwei Doppelkontakte verwendet wird.Figures 10 and 11 show further possible uses of the relay, wherein according to Figure 10, the relay for switching two loads with two double contacts each and according to FIG. 11 for switching four different loads over the separated Way of the two double contacts is used.

Claims (16)

  1. An electromagnetic relay,
       having a coil
          with a coil body (1),
          a winding (3)
          and a core (5) passing axially right through,
       furthermore having a yoke (6) which is arranged next to the coil and parallel to the axis thereof,
       and two flat armatures (7A, 7B), whereof in each case one
       is arranged at a coil end in each case perpendicular to the axis of the coil,
       is mounted at each yoke end,
       forms an operational air gap with one end of the core (5),
       is held in an outwardly pivoted position by way of restoring spring means, and
       by way of a spring contact (8A, 8B) bears a contact piece which cooperates with a counter-contact element having a terminal,
       characterised in that
       the spring contact (8A, 8B) is provided in each case with a terminal (13A, 13B) and two contact pieces (10A to 10D), and each contact piece (10A to 10D) cooperates with a counter-contact element (11A to 11D) arranged on a separate terminal (12A to 12D).
  2. An electromagnetic relay according to Claim 1,
       characterised in that the spring contact is made E-shaped and thus comprises a base (80), two outer limbs (81, 83) and a central limb (82), and the contact pieces (10A to 10D) are arranged at the free ends of the outer limbs (81, 83).
  3. An electromagnetic relay according to Claim 2,
       characterised in that the spring contact (8A, 8B) is connected at its base (80) to the armature (7A, 7B).
  4. An electromagnetic relay according to Claim 2 or 3,
       characterised in that the central limb (82) of the E-shaped spring contact (8A, 8B) is fixed at its free end and serves as a restoring spring means for the respective armature (7A, 7B).
  5. An electromagnetic relay according to Claim 4,
       characterised in that the free end of the central limb (82) of the spring contact (8A, 8B) is in each case connected to the terminal (13A, 13B).
  6. An electromagnetic relay according to one of Claims 2 to 5,
       characterised in that the armature (7A, 7B) is made E-shaped and thus comprises a base (70), two outer limbs (71, 73) and a central limb (72), and the limbs of the E-shaped armature (7A, 7B) are arranged substantially below the limbs of the E-shaped spring contact (8A, 8B).
  7. An electromagnetic relay according to Claim 6,
       characterised in that the central limb (72) of the armature (7A, 7B) serves to guide the flux and the lateral limbs of the armature are bent off outwards to increase overtravel or inwards to reduce overtravel.
  8. An electromagnetic relay according to Claim 6 or 7,
       characterised in that between the base (70) of the E-shaped armature (7A or 7B) and the outer limbs (71, 73) notches (74) are made.
  9. An electromagnetic relay according to one of Claims 1 to 8,
       characterised in that the terminals (12A and 12C), (12B and 12D) and (13A and 13B) are in each case conductively connected to one another by way of a flexible wire or metal bridge.
  10. An electromagnetic relay according to one of Claims 1 to 9,
       characterised in that the relay is provided with a protective housing (16) which on three side faces has grooves (17) along which the terminals (12A to 12D; 13A, 13B) and also two coil terminals (14A, 14B) are guided.
  11. An electromagnetic relay according to Claim 10,
       characterised in that it is built on a base plate (15) which is made in the form of a synthetic carrier part and in which the coil terminals (14A, 14B) are fixed.
  12. An electromagnetic relay according to Claim 11,
       characterised in that the protective housing (16) is cast onto the base plate (15) in the plane of the base plate (15).
  13. An electromagnetic relay according to one of Claims 1 to 12,
       characterised in that the relay has mirror symmetry in a direction transverse to the longitudinal axis of the core (5), and the terminals (12A to 12D; 13A, 13B) are identical.
  14. An electromagnetic relay according to one of Claims 1 to 13,
       characterised in that it is used to connect and disconnect three windings (A, B, C; A', B', C'), arranged in a star configuration, of two d.c. motors.
  15. An electromagnetic relay according to one of Claims 1 to 13,
       characterised in that it is used to disconnect a load circuit.
  16. An electromagnetic relay according to one of Claims 1 to 13,
       characterised in that it is used for the connection of up to four loads.
EP99967875A 1998-12-22 1999-12-09 Electromagnetic relay Expired - Lifetime EP1141985B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
DE19859577 1998-12-22
DE19859577 1998-12-22
PCT/DE1999/003936 WO2000038207A1 (en) 1998-12-22 1999-12-09 Electromagnetic relay

Publications (2)

Publication Number Publication Date
EP1141985A1 EP1141985A1 (en) 2001-10-10
EP1141985B1 true EP1141985B1 (en) 2002-10-02

Family

ID=7892324

Family Applications (1)

Application Number Title Priority Date Filing Date
EP99967875A Expired - Lifetime EP1141985B1 (en) 1998-12-22 1999-12-09 Electromagnetic relay

Country Status (3)

Country Link
EP (1) EP1141985B1 (en)
DE (1) DE59902983D1 (en)
WO (1) WO2000038207A1 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
ATE292322T1 (en) * 2001-12-18 2005-04-15 Tyco Electronics Amp Gmbh ELECTROMAGNETIC RELAY WITH TRIPLE CONTACT BRIDGE

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2353377A (en) * 1942-04-03 1944-07-11 R W Hood Shockproof relay
DE1564620A1 (en) * 1966-06-03 1969-08-28 Siemens Ag As an independent component, the electromagnetic system can be assembled without adjustment
FR2204870B1 (en) * 1972-11-02 1977-08-26 Chauvin Arnoux Sa
US3958200A (en) * 1975-01-09 1976-05-18 Guardian Electric Manufacturing Company Blade construction for relay
DE3246256C2 (en) * 1982-12-14 1986-04-24 Siemens AG, 1000 Berlin und 8000 München Electromagnetic relay
US4682133A (en) * 1985-08-14 1987-07-21 Siemens Aktiengesellschaft Electro-magnetic relay having two armatures
JPS6394527A (en) * 1986-10-08 1988-04-25 オムロン株式会社 Electromagnetic relay

Also Published As

Publication number Publication date
WO2000038207A1 (en) 2000-06-29
DE59902983D1 (en) 2002-11-07
EP1141985A1 (en) 2001-10-10

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