EP0061382A1 - Electromagnetic relay with indifferent working position - Google Patents

Electromagnetic relay with indifferent working position Download PDF

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Publication number
EP0061382A1
EP0061382A1 EP82400419A EP82400419A EP0061382A1 EP 0061382 A1 EP0061382 A1 EP 0061382A1 EP 82400419 A EP82400419 A EP 82400419A EP 82400419 A EP82400419 A EP 82400419A EP 0061382 A1 EP0061382 A1 EP 0061382A1
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EP
European Patent Office
Prior art keywords
housing
coil
contact
magnetic circuit
switch
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
Application number
EP82400419A
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German (de)
French (fr)
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EP0061382B1 (en
Inventor
Philippe Pouyez
Jacques Legrand
Gérard Holvoet
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Constructions Electriques Et Electron Cie
Original Assignee
CONSTRUCTIONS ELECTRIQUES ET ELECTRONIQUES (CCEE) Cie
Socapex SA
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Publication of EP0061382A1 publication Critical patent/EP0061382A1/en
Application granted granted Critical
Publication of EP0061382B1 publication Critical patent/EP0061382B1/en
Expired legal-status Critical Current

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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01HELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
    • H01H51/00Electromagnetic relays
    • H01H51/28Relays having both armature and contacts within a sealed casing outside which the operating coil is located, e.g. contact carried by a magnetic leaf spring or reed
    • H01H51/284Polarised relays

Definitions

  • the present invention relates to an electromagnetic relay comprising at least one switch provided with two electrical contacts disposed respectively on a support and a movable blade connected to a third electrical contact, each switch being disposed in a housing, said blade being able to tilt from the first on second contact or vice versa under the action of an external magnetic field created by a permanent magnet and a control coil, disposed above the housing, said coil being provided with a magnetic circuit.
  • Such relays are known and are used in many applications. Generally, these relays are designed to operate in a particular position when it comes to relays with wet mercury contacts.
  • this permanent magnet notably makes it possible to considerably improve the shock immunity of such a relay, avoiding untimely tilting from one position to the other during an impact.
  • the control power generated in the coil is relatively large when the latter is provided with a usual magnetic circuit.
  • the electromagnetic relay according to the invention is characterized in that said magnetic circuit surrounds each box so as to make each box and its magnet of the coil integral and ensure the closing of the external magnetic field.
  • the base of the housing will conduct the magnetic field to ensure the closing of the external field, the cover being made of non-magnetic material so that the magnetic field can polarize the blades through this cover.
  • the relay according to the invention is characterized in that the second part of the magnetic circuit has the shape of a U, one of the branches of which is positioned under the base of the housing.
  • this second U-shaped part With such a structure of the magnetic circuit, it was found that the simple fact of adding this second U-shaped part to the magnetic circuit made it possible to increase the gain in control power by a factor of approximately 2 compared to the same circuit. magnetic not closed. Furthermore, the shape of this circuit allows to make the coil, the magnet and the housing substantially integral, which thus forms a compact assembly. Furthermore, this second part of the magnetic circuit will preferably rest on the base of the relay providing good positioning of the assembly in the relay housing.
  • the switch used in the relay according to the invention will preferably be of the type described in French application No. 80 00 308 filed on January 8, 1980 in the name of the Applicant.
  • the monostable or bistable operation of the relay according to the invention depends on the relative position of the contacts of the switch and of the poles of the permanent magnet. When these are arranged symmetrically with respect to the fixed contacts of the switch, we then obtain a bistable operation, while if we shift on one side or the other said permanent magnet, we will get a return blade automatically in one position or the other.
  • the invention obviously applies to the case where several switches are arranged in the same assembly to form a relay: in this case, the magnetic circuit according to the invention will be based on the switch housings. Also, several coils and a plurality of switches may be arranged in the same together and form a single relay, seen from the outside, while remaining within the scope of the invention.
  • FIG. 1 there is shown a switch provided with a magnet and a control coil according to the prior art.
  • a switch consisting of a base 2 and a cover 3 arranged thereon. Inside the base where generally prevails or a controlled atmosphere 8, are arranged two fixed contact supports 4 and 5 extended by the contacts 24 and 25 and respectively crossing the base 2 through glass beads 12 and 13 then ending with the posts 10 and 9.
  • a movable blade 6 in contact with mercury 7 can switch from contact 24 to contact 25 and vice versa. The articulation of this blade 6 with mercury 7 is described in the above referenced patent application.
  • the base 2 is connected to a contact electrode 11.
  • a permanent magnet 14 On the cover 3 of the switch 1 is disposed a permanent magnet 14 on which is placed a coil 15 supplied with current by 17 and 18 and in which is placed a magnetic circuit 16 of linear shape well known to those skilled in the art.
  • a relay is shown using the device described in Figure 1.
  • the relay 100 includes a base 102 and a cover 101 as well as contact tabs, only some of which have been shown, such as 103 and 104.
  • the device of FIG. 1 is placed in the horizontal direction as shown in this figure . The operation of this relay is identical to what has been explained with the aid of FIG. 1.
  • FIG. 3 there is shown a device similar to Figure 1, but provided with a magnetic circuit according to the invention.
  • the magnetic circuit 16 is extended by a magnetic circuit 106 having the shape of a U, the branch 107 of which is connected to 16 and is extended by the vertical branch 108 then the horizontal branch 109 which is fixed under the base 2 of the switch 1.
  • the operation of this device is strictly identical to that of the device of FIG. 1. However, it can be seen that such a structure allows a gain in power by a factor of 2.
  • FIG. 4 there is shown the device of Figure 3 mounted in a relay box identical to that described in Figure 2.
  • the same elements as those of the previous figures therefore bear the same references.
  • the U-shaped magnetic circuit 106 is supported by its arm 108 on the base 102 of the relay, while its vertical arm 107 comes into contact with the flange 111 made by the base in the vicinity of the output contact 104. This allows better mechanical fixing of the device of FIG. 3 in the relay box.
  • FIG 5 there is shown schematically the contacts of the switch 1 provided with non-magnetic plates allowing repetitive operation of the relay according to the invention.
  • the electrical contacts 24 and 25 are respectively coated with an electrically conductive non-magnetic plate 113 and 112, having a slight overflow relative to said contacts.
  • the plates 112 and 113 have an identical overflow equal to e.
  • this distance e is preferably between and 0.05 mm and 1 mm and preferably 0.1 mm to 0.5 mm.
  • the operation of the switch provided with its plates is as follows: the movable blade 6 has its end which is for example a north pole, the contact 25 also being a north pole.
  • FIG. 6 represents a relay according to the invention with two switches and a U-shaped magnetic circuit.
  • the same elements as those of the preceding figures have the same references.
  • the two housings 1 and 121 are arranged head to tail facing the magnetic core 16.
  • the housing 121 is electrically isolated from the core 16 (generally conductive) by the insulation 123 which also separates the magnet 120 from said core 16.
  • Each housing is well understood, as in the previous examples, an electrically conductive box of the type used for encapsulating the transistors, in particular the TO 5 type boxes, the dimensions of which make it possible to implement the invention.
  • the magnetic circuit 106 is supported by its branches 107 and 109 respectively on the base of the boxes 1 and 129.
  • An electrical insulator 122 is disposed between the branch 109 and the base of 121 to avoid short-circuits.
  • the covers of the housings 1 and 121 are made of non-magnetic material, the bases being of magnetic material. As before, a power gain of the order of 2 is obtained.

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  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Switches That Are Operated By Magnetic Or Electric Fields (AREA)
  • Arc-Extinguishing Devices That Are Switches (AREA)

Abstract

L'invention concerne un relais électro-magnétique comportant un interrupteur muni de deux contacts électriques (24, 25) et d'une lame mobile (6) reliée à un troisième contact, disposés dans un boîtier. La lame peut basculer du premier au deuxième contact ou vice-versa sous l'action d'un champ magnétique extérieur créé par un aimant permanent (14) et une bobine de commande (15) disposés au-dessus du boîtier. Selon l'invention, la bobine est munie d'un circuit magnétique (16, 106) qui vient entourer ledit boîtier de manière à rendre solidaire le boîtier, la bobine et l'aimant. On abaisse ainsi la puissance de commande d'un facteur deux. Application : relais électromagnétiques à position de fonctionnement indifférente.The invention relates to an electromagnetic relay comprising a switch provided with two electrical contacts (24, 25) and a movable blade (6) connected to a third contact, arranged in a housing. The blade can tilt from the first to the second contact or vice versa under the action of an external magnetic field created by a permanent magnet (14) and a control coil (15) arranged above the housing. According to the invention, the coil is provided with a magnetic circuit (16, 106) which surrounds said housing so as to make the housing, the coil and the magnet integral. This reduces the control power by a factor of two. Application: electromagnetic relays in any operating position.

Description

La présente invention concerne un relais électro-magnétique comportant au moins interrupteur muni de deux contacts électriques disposés respectivement sur un support et d'une lame mobile reliée à un troisième contact électrique, chaque interrupteur étant disposé dans un boîtier, ladite lame pouvant basculer du premier au deuxième contact ou vice-versa sous l'action d'un champ magnétique extérieur créé par un aimant permanent et une bobine de commande, disposée au dessus du boîtier, ladite bobine étant munie d'un circuit magnétique.The present invention relates to an electromagnetic relay comprising at least one switch provided with two electrical contacts disposed respectively on a support and a movable blade connected to a third electrical contact, each switch being disposed in a housing, said blade being able to tilt from the first on second contact or vice versa under the action of an external magnetic field created by a permanent magnet and a control coil, disposed above the housing, said coil being provided with a magnetic circuit.

De tels relais sont connus et sont utilisés dans de nombreuses applications. Généralement, ces relais sont prévus pour fonctionner dans une position particulière lorsqu'il s'agit de relais à contacts mouillés au mercure.Such relays are known and are used in many applications. Generally, these relays are designed to operate in a particular position when it comes to relays with wet mercury contacts.

Comme cela a été décrit dans l'article de Messieurs J.A. LEGRAND et M. FRANCES intitulé "New construction for a mer- cury wetted switch for opération in any position" - Proceeding of the 10th international conférence on Electronic contact phenomena - 25/29 août 1980, volume 2 page 625 à 634, il est souvent souhaitable d'avoir des relais mouillés au mercure dont la position de fonctionnement est indifférente. Dans cet article, il est décrit notamment comment un relais muni d'un interrupteur à contacts mouillés au mercure peut être commandé à l'aide d'un aimant permanent associé à une bobine munie d'un circuit magnétique. L'aimant permanent est disposé au-dessus du boîtier contenant le premier et le second contact contre lesquels la lame mobile vient s'appuyer. L'aimant permanent donne à chacun de ces contacts fixes une polarité magnétique opposée. Par envoi d'une impulsion électrique ayant un sens déterminé dans la bobine, on crée une impulsion magnétique qui polarise la lame mobile dans un sens identique à la polarisation de la lame fixe sur laquelle elle repose. Il se produit par conséquent un effet de répulsion de cette lame fixe et d'attraction par l'autre lame fixe de polarisation opposée qui fait basculer la lame mobile d'un contact à l'autre. Inversement, en envoyant une impulsion de signe opposé dans ladite bobine, la lame mobile bascule à nouveau contre le premier contact.As described in the article by Messrs JA LEGRAND and M. FRANCES entitled "New construction for a mercury wetted switch for operation in any position" - Proceeding of the 10th international conference on Electronic contact phenomena - 25/29 August 1980, volume 2 page 625 to 634, it is often desirable to have relays wetted with mercury whose operating position is indifferent. In this article, it is described in particular how a relay provided with a switch with wet mercury contacts can be controlled using a permanent magnet associated with a coil provided with a magnetic circuit. The permanent magnet is arranged above the housing containing the first and the second contact against which the movable blade comes to bear. The permanent magnet gives each of these fixed contacts an opposite magnetic polarity. By sending an electric pulse having a determined direction in the coil, we create a pulse magnetic which polarizes the moving blade in a direction identical to the polarization of the fixed blade on which it rests. There is therefore an effect of repulsion of this fixed blade and attraction by the other fixed blade of opposite polarization which causes the movable blade to switch from one contact to the other. Conversely, by sending a pulse of opposite sign in said coil, the movable blade switches again against the first contact.

La présence de cet aimant permanent permet notamment d'améliorer considérablement l'immunité aux chocs d'un tel relais, évitant le basculement intempestif d'une position à l'autre au cours d'un choc. Toutefois, on constate que la puissance de commande engendrée dans la bobine est relativement importante lorsque celle-ci est munie d'un circuit magnétique habituel. Or, dans de nombreuses utilisations, il est souhaitable d'avoir une puissance de commande aussi faible que possible.The presence of this permanent magnet notably makes it possible to considerably improve the shock immunity of such a relay, avoiding untimely tilting from one position to the other during an impact. However, it can be seen that the control power generated in the coil is relatively large when the latter is provided with a usual magnetic circuit. However, in many uses, it is desirable to have as low a control power as possible.

Dans ce but, le relais électro-magnétique selon l'invention est caractérisé en ce que ledit circuit magnétique vient entourer chaque boîtier de manière à rendre solidaire chaque boîtier et son aimant de la bobine et assurer la fermeture du champ magnétique extérieur. De préférence, l'embase du boîtier conduira le champ magnétique pour assurer la fermeture du champ extérieur, le capot étant en matériau non magnétique de façon que le champ magnétique puisse polariser les lames à travers ce capot.For this purpose, the electromagnetic relay according to the invention is characterized in that said magnetic circuit surrounds each box so as to make each box and its magnet of the coil integral and ensure the closing of the external magnetic field. Preferably, the base of the housing will conduct the magnetic field to ensure the closing of the external field, the cover being made of non-magnetic material so that the magnetic field can polarize the blades through this cover.

Selon un mode préférentiel de réalisation dans lequel le circuit magnétique de la bobine se compose d'une première partie disposée dans la bobine et d'une seconde partie située à l'extérieur de celle-ci, le relais selon l'invention est caractérisé en ce que la seconde partie du circuit magnétique a la forme d'un U dont l'une des branches vient se positionner sous l'embase du boîtier.According to a preferred embodiment in which the magnetic circuit of the coil consists of a first part disposed in the coil and a second part located outside of it, the relay according to the invention is characterized in that the second part of the magnetic circuit has the shape of a U, one of the branches of which is positioned under the base of the housing.

Avec une telle structure du circuit magnétique, on a constaté que le simple fait de rajouter cette seconde partie en forme de U au circuit magnétique permettait d'augmenter le gain de puissance de commande d'un facteur d'environ 2 par rapport au même circuit magnétique non refermé. Par ailleurs, la forme de ce circuit permet de rendre sensiblement solidaire la bobine, l'aimant et le boîtier qui forme ainsi un ensemble compact. Par ailleurs, cette deuxième partie de circuit magnétique viendra de préférence s'appuyer sur l'embase du relais procurant un bon positionnement de l'ensemble dans le boîtier du relais.With such a structure of the magnetic circuit, it was found that the simple fact of adding this second U-shaped part to the magnetic circuit made it possible to increase the gain in control power by a factor of approximately 2 compared to the same circuit. magnetic not closed. Furthermore, the shape of this circuit allows to make the coil, the magnet and the housing substantially integral, which thus forms a compact assembly. Furthermore, this second part of the magnetic circuit will preferably rest on the base of the relay providing good positioning of the assembly in the relay housing.

Il est bien entendu qu'une telle structure s'applique à tout type de relais à lame mobile disposée dans un boîtier, ainsi qu'à tout type de fonctionnement monostable ou bistable dudit relais. En particulier, l'interrupteur utilisé dans le relais selon l'invention sera de préférence du type décrit dans la demande française N° 80 00 308 déposée le 8 janvier 1980 au nom de la Demanderesse. Le fonctionnement monostable ou bistable du relais selon l'invention dépend de la position relative des contacts de l'interrupteur et des pôles de l'aimant permanent. Lorsque ceux-ci sont disposés de façon symétrique par rapport aux contacts fixes de l'interrupteur, on obtient alors un fonctionnement bistable, tandis que si l'on décale d'un côté ou de l'autre ledit aimant permanent, on obtiendra un retour automatique de la lame dans une position ou dans l'autre. On améliore encore la fiabilité des contacts en utilisant des interrupteurs à contacts mouillés au mercure ou tout liquide équivalent. Toutefois, on a constaté que pour obtenir un bon fonctionnement répétitif de l'interrupteur sous l'action du champ magnétique extérieur, il était nécessaire de munir les contacts fixes de l'interrupteurs de petites plaquettes amagnétique disposées en saillie par rapport auxdits contacts. En effet, il existe-un phénomène d'attraction de deux pôles magnétiques de même nature lorsqu'ils sont au contact intime l'un de l'autre. Il est donc nécessaire de laisser une certaine distance entre la lame souple et les contacts mobiles pour éviter ce phénomène d'attraction.It is understood that such a structure applies to any type of movable blade relay disposed in a housing, as well as to any type of monostable or bistable operation of said relay. In particular, the switch used in the relay according to the invention will preferably be of the type described in French application No. 80 00 308 filed on January 8, 1980 in the name of the Applicant. The monostable or bistable operation of the relay according to the invention depends on the relative position of the contacts of the switch and of the poles of the permanent magnet. When these are arranged symmetrically with respect to the fixed contacts of the switch, we then obtain a bistable operation, while if we shift on one side or the other said permanent magnet, we will get a return blade automatically in one position or the other. The reliability of the contacts is further improved by using switches with wet contacts containing mercury or any equivalent liquid. However, it has been found that in order to obtain good repetitive operation of the switch under the action of the external magnetic field, it was necessary to provide the fixed contacts of the switch with small non-magnetic plates arranged projecting from said contacts. Indeed, there is a phenomenon of attraction of two magnetic poles of the same nature when they are in intimate contact with each other. It is therefore necessary to leave a certain distance between the flexible blade and the movable contacts to avoid this attraction phenomenon.

Enfin, l'invention s'applique bien entendu au cas ou plusieurs interrupteurs sont disposés dans le même ensemble pour former un relais : dans ce cas, le circuit magnétique selon l'invention s'appuiera sur les boîtiers d'interrupteurs. Egalement, plusieurs bobines et une pluralité d'interrupteurs pourront être disposés dans le même ensemble et former un seul relais, vu de l'extérieur, tout en restant dans le cadre de l'invention.Finally, the invention obviously applies to the case where several switches are arranged in the same assembly to form a relay: in this case, the magnetic circuit according to the invention will be based on the switch housings. Also, several coils and a plurality of switches may be arranged in the same together and form a single relay, seen from the outside, while remaining within the scope of the invention.

L'invention sera mieux comprise à l'aide des exemples de réalisation suivants donnés à titre non limitatif, conjointement avec les figures qui représentent :

  • - la figure 1, un interrupteur muni d'une bobine de commande selon l'art connu,
  • - la figure 2, un relais muni de l'interrupteur commandé selon la figure 1,
  • - la figure 3, un interrupteur muni d'un circuit magnétique de commande selon l'invention,
  • - la figure 4, un relais muni d'un dispositif selon la figure 3,
  • - la figure 5, un schéma de contacts électriques munis de plaquettes amagnétique,
  • - la figure 6, un exemple de réalisation de l'invention avec plusieurs interrupteurs composant le même relais.
The invention will be better understood using the following embodiments given without limitation, together with the figures which represent:
  • FIG. 1, a switch provided with a control coil according to the known art,
  • FIG. 2, a relay provided with the switch controlled according to FIG. 1,
  • FIG. 3, a switch provided with a magnetic control circuit according to the invention,
  • FIG. 4, a relay provided with a device according to FIG. 3,
  • FIG. 5, a diagram of electrical contacts provided with non-magnetic plates,
  • - Figure 6, an exemplary embodiment of the invention with several switches making up the same relay.

Sur la figure 1, on a représenté un interrupteur muni d'un aimant et d'une bobine de commande selon l'art connu. Un tel dispositif est décrit par exemple dans l'article mentionné ci-dessus. Il comporte un interrupteur 1 constitué d'une embase 2 et d'un capot 3 disposés sur celle-ci. A l'intérieur de l'embase où règne généralement ou une atmosphère contrôlée 8, sont disposés deux supports de contacts fixes 4 et 5 prolongés par les contacts 24 et 25 et traversant respectivement l'embase 2 à travers des perles de verre 12 et 13 puis se terminant par les poteaux 10 et 9. Une lame mobile 6 au contact de mercure 7 peut basculer du contact 24 au contact 25 et vice versa. L'articulation de cette lame 6 avec le mercure 7 est décrite dans la demande de brevet ci-dessus référencée. L'embase 2 est reliée à une électrode de contact 11. Sur le capot 3 de l'interrupteur 1 est disposé un aimant permanent 14 sur lequel est placée une bobine 15 alimentée en courant par 17 et 18 et dans laquelle est disposé un circuit magnétique 16 de forme linéaire bien connu de l'homme de l'art.In Figure 1, there is shown a switch provided with a magnet and a control coil according to the prior art. Such a device is described for example in the article mentioned above. It comprises a switch 1 consisting of a base 2 and a cover 3 arranged thereon. Inside the base where generally prevails or a controlled atmosphere 8, are arranged two fixed contact supports 4 and 5 extended by the contacts 24 and 25 and respectively crossing the base 2 through glass beads 12 and 13 then ending with the posts 10 and 9. A movable blade 6 in contact with mercury 7 can switch from contact 24 to contact 25 and vice versa. The articulation of this blade 6 with mercury 7 is described in the above referenced patent application. The base 2 is connected to a contact electrode 11. On the cover 3 of the switch 1 is disposed a permanent magnet 14 on which is placed a coil 15 supplied with current by 17 and 18 and in which is placed a magnetic circuit 16 of linear shape well known to those skilled in the art.

Le fonctionnement de ce dispositif est aisé à comprendre :

  • L'aimant permanent 14 positionné ici de façon sensiblement symétrique par rapport aux contacts 4 et 5, place la lame mobile sur l'un ou l'autre des contacts 4 ou 5 (sur le contact 4 sur la figure 1). Sous l'action d'un champ magnétique créé par la bobine alimentée par une impulsion via 17 et 18, on crée un champ magnétique qui polarise la lame mobile 6 dans un sens identique à celui du contact sur lequel elle repose et opposé à celui de l'autre contact. Sous l'action de ce champ extérieur, la lame mobile 6 vient alors s'appuyer sur le contact fixe 25. Compte tenu de la disposition symétrique de l'aimant permanent 14, ladite lame 6 reste au contact de 25. Ainsi que cela a été expliqué ci-dessus, une disposition asymétrique de l'aimant 14 par rapport aux contacts 24 et 25 provoquerait un fonctionnement monostable de ce relais (et donc un retour de la lame 6 sur le contact 24 lors de la suppression du champ de la bobine).
The operation of this device is easy to understand:
  • The permanent magnet 14 positioned here in a manner substantially symmetrical with respect to the contacts 4 and 5, places the movable blade on one or the other of the contacts 4 or 5 (on the contact 4 in FIG. 1). Under the action of a magnetic field created by the coil supplied by a pulse via 17 and 18, a magnetic field is created which polarizes the moving blade 6 in a direction identical to that of the contact on which it rests and opposite to that of the other contact. Under the action of this external field, the movable blade 6 then comes to bear on the fixed contact 25. In view of the symmetrical arrangement of the permanent magnet 14, said blade 6 remains in contact with 25. As has explained above, an asymmetrical arrangement of the magnet 14 with respect to the contacts 24 and 25 would cause a monostable operation of this relay (and therefore a return of the blade 6 on the contact 24 during the suppression of the field of the coil ).

Sur la figure 2, est représenté un relais utilisant le dispositif décrit sur la figure 1. Sur cette figure, les mêmes éléments que ceux de la figure précédente portent les mêmes références. Le relais 100 comporte une embase 102 et un capot 101 ainsi que des pattes de contact dont seules certaines ont été représentées, telles que 103 et 104. Le dispositif de la figure 1 est placé dans le sens horizontal ainsi que cela est représenté sur cette figure. Le fonctionnement de ce relais est identique à ce qui a été expliqué à l'aide de la figure 1.In Figure 2, a relay is shown using the device described in Figure 1. In this figure, the same elements as those of the previous figure have the same references. The relay 100 includes a base 102 and a cover 101 as well as contact tabs, only some of which have been shown, such as 103 and 104. The device of FIG. 1 is placed in the horizontal direction as shown in this figure . The operation of this relay is identical to what has been explained with the aid of FIG. 1.

Sur la figure 3, est représenté un dispositif semblable à la figure 1, mais muni d'un circuit magnétique selon l'invention. Sur cette figure, les mêmes éléments que ceux des figures précédentes portent les mêmes références. Le circuit magnétique 16 se prolonge par un circuit magnétique 106 ayant la forme d'un U, dont la branche 107 est reliée à 16 et se prolonge par la branche verticale 108 puis la branche horizontale 109 qui vient se fixer sous l'embase 2 de l'interrupteur 1. Le fonctionnement de ce dispositif est rigoureusement identique à celui du dispositif de la figure 1. Toutefois, on constate qu'une telle structure permet un gain en puissance d'un facteur 2.In Figure 3, there is shown a device similar to Figure 1, but provided with a magnetic circuit according to the invention. In this figure, the same elements as those of the previous figures have the same references. The magnetic circuit 16 is extended by a magnetic circuit 106 having the shape of a U, the branch 107 of which is connected to 16 and is extended by the vertical branch 108 then the horizontal branch 109 which is fixed under the base 2 of the switch 1. The operation of this device is strictly identical to that of the device of FIG. 1. However, it can be seen that such a structure allows a gain in power by a factor of 2.

Dans ce but, l'exemple ci-dessous montre clairement ce gain en puissance : On prend un relais tel que représenté sur la figure 1 avec une bobine, capable de faire commuter l'interrupteur sous 140 A x tours, de 12 mm de hauteur et comportant un noyau magnétique 16 de 1,5 mm de diamètre. Toutes choses égales par ailleurs, en utilisant un circuit magnétique en forme de U comportant une branche 106 de 25 mm de long et deux branches 107 et 109 de 5 mm de long et de même section que le noyau magnétique 16 précédent, la commande s'effectue dans les mêmes conditions sous 100 A x tours, soit un gain de puissance de l'ordre de 2.For this purpose, the example below clearly shows this gain in power: We take a relay as shown in Figure 1 with a coil, capable of switching the switch under 140 A x turns, 12 mm high and comprising a magnetic core 16 of 1.5 mm in diameter. All other things being equal, using a U-shaped magnetic circuit comprising a branch 106 of 25 mm long and two branches 107 and 109 of 5 mm long and of the same section as the preceding magnetic core 16, the command is performs under the same conditions under 100 A x turns, i.e. a power gain of the order of 2.

Sur la figure 4, a été représenté le dispositif de la figure 3 monté dans un boîtier de relais identique à celui décrit sur la figure 2. Sur cette figure 4, les mêmes éléments que ceux des figures précédentes portent donc les mêmes références. Il est à noter simplement que le circuit magnétique en forme de U 106 vient s'appuyer par son bras 108 sur l'embase 102 du relais, tandis que son bras vertical 107 vient au contact du rebord 111 que fait l'embase au voisinage du contact de sortie 104. Ceci permet une meilleure fixation mécanique du dispositif de la figure 3 dans le boîtier de relais.In Figure 4, there is shown the device of Figure 3 mounted in a relay box identical to that described in Figure 2. In this Figure 4, the same elements as those of the previous figures therefore bear the same references. It should be noted simply that the U-shaped magnetic circuit 106 is supported by its arm 108 on the base 102 of the relay, while its vertical arm 107 comes into contact with the flange 111 made by the base in the vicinity of the output contact 104. This allows better mechanical fixing of the device of FIG. 3 in the relay box.

Sur la figure 5, on a représenté schématiquement les contacts de l'interrupteur 1 muni de plaquettes amagnétique permettant un fonctionnement répétitif du relais selon l'invention. Les contacts électriques 24 et 25 sont respectivement revêtus d'une plaquette amagnétique conductrice électriquement 113 et 112, ayant un léger débordement par rapport auxdits contacts. Sur la figure, les plaquettes 112 et 113 ont un débordement identique égal à e. Dans la pratique, on a constaté que cette distance e était de préférence comprise entre et 0,05 mm et 1 mm et de préférence 0,1 mm à 0,5 mm. Le fonctionnement de l'interrupteur muni de ses plaquettes est le suivant : la lame mobile 6 a son extrémité qui est par exemple un pôle nord, le contact 25 étant également un pôle nord. Si les deux contacts 25 et 6 étaient en contact intime l'un de l'autre, on sait qu'il se produirait une attraction de ces deux lames malgré la présence du champ magnétique extérieur H. Dans le but d'améliorer le fonctionnement du relais, on dispose donc des lames amagnétique 112 et 113 qui maintiennent une certaine distance entre respectivement les contacts 24 et 25 et la lame 6.In Figure 5, there is shown schematically the contacts of the switch 1 provided with non-magnetic plates allowing repetitive operation of the relay according to the invention. The electrical contacts 24 and 25 are respectively coated with an electrically conductive non-magnetic plate 113 and 112, having a slight overflow relative to said contacts. In the figure, the plates 112 and 113 have an identical overflow equal to e. In practice, it has been found that this distance e is preferably between and 0.05 mm and 1 mm and preferably 0.1 mm to 0.5 mm. The operation of the switch provided with its plates is as follows: the movable blade 6 has its end which is for example a north pole, the contact 25 also being a north pole. If the two contacts 25 and 6 were in intimate contact with each other, we know that there would be an attraction of these two blades despite the presence of the external magnetic field H. In order to improve the operation of the relay, there are therefore non-magnetic blades 112 and 113 which maintain a certain distance between the contacts 24 and 25 respectively and the blade 6.

La figure 6 représente un relais selon l'invention avec deux interrupteurs et un circuit magnétique en forme de U. Les mêmes éléments que ceux des figures précédentes portent les mêmes références. Les deux boîtiers 1 et 121 sont disposés tête-bêche face au noyau magnétique 16. Le boîtier 121 est isolé électriquement du noyau 16 (généralement conducteur) par l'isolant 123 qui sépare également l'aimant 120 dudit noyau 16. Chaque boîtier est bien entendu, comme dans les exemples précédents un boîtier électriquement conducteur du type de ceux utilisés pour l'encapsulation des transistors, en particulier les boîtiers de type TO 5, dont les dimensions permettent bien de mettre en oeuvre l'invention. Le circuit magnétique 106 s'appuie par ses branches 107 et 109 respectivement sur l'embase des boîtiers 1 et 129. Un isolant électrique 122 est disposé entre la branche 109 et l'embase de 121 pour éviter les court-circuits. Les capots des boîtiers 1 et 121 sont en matériau non magnétique, les embases étant en matériau magnétique. Comme précédemment, on obtient un gain en puissance de l'ordre de 2.FIG. 6 represents a relay according to the invention with two switches and a U-shaped magnetic circuit. The same elements as those of the preceding figures have the same references. The two housings 1 and 121 are arranged head to tail facing the magnetic core 16. The housing 121 is electrically isolated from the core 16 (generally conductive) by the insulation 123 which also separates the magnet 120 from said core 16. Each housing is well understood, as in the previous examples, an electrically conductive box of the type used for encapsulating the transistors, in particular the TO 5 type boxes, the dimensions of which make it possible to implement the invention. The magnetic circuit 106 is supported by its branches 107 and 109 respectively on the base of the boxes 1 and 129. An electrical insulator 122 is disposed between the branch 109 and the base of 121 to avoid short-circuits. The covers of the housings 1 and 121 are made of non-magnetic material, the bases being of magnetic material. As before, a power gain of the order of 2 is obtained.

Claims (6)

1. Relais électro-magnétique comportant au moins un interrupteur muni de deux contacts électriques disposés respectivement sur un support et d'une lame mobile reliée à un troisième contact, chaque interrupteur étant disposé dans un boîtier, ladite lame pouvant basculer du premier au deuxième contact ou vice-versa sous l'action d'un champ magnétique extérieur créé par un aimant permanent et une bobine de commande, disposés au-dessus du boîtier, chaque boîtier étant associé à un aimant, ladite bobine étant munie d'un circuit magnétique, caractérisé en ce que ledit circuit magnétique (16) vient entourer chaque boîtier (1) de manière à rendre solidaire chaque boîtier (1) et son aimant (14) de la bobine (15) et assurer la fermeture du champ magnétique extérieur.1. Electromagnetic relay comprising at least one switch provided with two electrical contacts respectively disposed on a support and a movable blade connected to a third contact, each switch being disposed in a housing, said blade being able to switch from the first to the second contact or vice versa under the action of an external magnetic field created by a permanent magnet and a control coil, arranged above the housing, each housing being associated with a magnet, said coil being provided with a magnetic circuit, characterized in that said magnetic circuit (16) surrounds each housing (1) so as to make each housing (1) and its magnet (14) integral with the coil (15) and ensure the closing of the external magnetic field. 2. Relais électro-magnétique selon la revendication 1, dans . lequel le circuit magnétique se compose d'une première partie (16) disposée dans la bobine et d'une seconde partie (106) située à l'extérieur de celle-ci, caractérisé en ce que la seconde partie (106) du circuit magnétique a la forme d'un U (107, 108, 109).2. Electromagnetic relay according to claim 1, in. which the magnetic circuit consists of a first part (16) disposed in the coil and a second part (106) located outside of it, characterized in that the second part (106) of the magnetic circuit has the shape of a U (107, 108, 109). 3. Relais électro-magnétique selon l'une des revendications 1 ou 2, caractérisé en ce que ledit circuit magnétique (106) s'appuie sur l'embase du relais.3. Electromagnetic relay according to one of claims 1 or 2, characterized in that said magnetic circuit (106) is supported on the base of the relay. 4. Relais électro-magnétique selon l'une des revendications 1 à 3, caractérisé en ce que chaque contact électrique (24, 25) de l'interrupteur (1), en matériau magnétique, est revêtu d'une pièce de contact (112, 113) en matériau amagnétique.4. Electromagnetic relay according to one of claims 1 to 3, characterized in that each electrical contact (24, 25) of the switch (1), made of magnetic material, is coated with a contact piece (112 , 113) in non-magnetic material. 5. Relais électro-magnétique selon la revendication 4, caractérisé en ce que la pièce de contact (112, 113) en matériau amagnétique assure un espacement entre les contacts fixes et la lame mobile d'au moins 0,05 mm.5. Electromagnetic relay according to claim 4, characterized in that the contact piece (112, 113) of non-magnetic material provides a spacing between the fixed contacts and the movable blade of at least 0.05 mm. 6. Relais électro-magnétique selon l'une des revendications précédentes, caractérisé en ce qu'il comporte deux interrupteurs (1, 121) commandés par la même bobine (15), la seconde partie du circuit magnétique (106) en forme de U s'appuyant par ses deux branches latérales (107, 109) sur le boîtier de chaque interrupteur (1, 121), des pièces isolantes électriquement (122, 123) étant éventuellement disposées entre le circuit magnétique (16, 106) et les boîtiers pour éviter les courts-circuits électriques.6. electromagnetic relay according to one of the preceding claims, characterized in that it comprises two switches (1, 121) controlled by the same coil (15), the second part of the U-shaped magnetic circuit (106) resting by its two lateral branches (107, 109) on the housing of each switch (1, 121), electrically insulating parts (122, 123) possibly being arranged between the magnetic circuit (16, 106) and the boxes to avoid electrical short circuits.
EP19820400419 1981-03-20 1982-03-09 Electromagnetic relay with indifferent working position Expired EP0061382B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR8105659 1981-03-20
FR8105659A FR2502392A1 (en) 1981-03-20 1981-03-20 ELECTROMAGNETIC RELAY WITH INDIFFERENT OPERATING POSITION

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EP0061382A1 true EP0061382A1 (en) 1982-09-29
EP0061382B1 EP0061382B1 (en) 1985-09-04

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FR (1) FR2502392A1 (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4644308A (en) * 1984-09-27 1987-02-17 La Telemecanique Electrique Variable composition switching device realizable by the assembling of modular elements

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1046779B (en) * 1956-09-28 1958-12-18 Siemens Ag Polarized protection tube changeover contact
FR1464734A (en) * 1964-11-12 1967-01-06 Inst Za Elektroniko In Avtomat Hermetically sealed permanent magnet contactor and method of treating its lamellae and their contact layers
DE1271260B (en) * 1962-07-31 1968-06-27 Siemens Ag Polarized protection tube changeover contact
FR2029737A1 (en) * 1969-01-31 1970-10-23 Adams & Westlake Co
EP0032331A1 (en) * 1980-01-08 1981-07-22 Socapex Switch with wetted contacts and magnetic operation, and electric relay comprising such a switch

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1046779B (en) * 1956-09-28 1958-12-18 Siemens Ag Polarized protection tube changeover contact
DE1271260B (en) * 1962-07-31 1968-06-27 Siemens Ag Polarized protection tube changeover contact
FR1464734A (en) * 1964-11-12 1967-01-06 Inst Za Elektroniko In Avtomat Hermetically sealed permanent magnet contactor and method of treating its lamellae and their contact layers
FR2029737A1 (en) * 1969-01-31 1970-10-23 Adams & Westlake Co
EP0032331A1 (en) * 1980-01-08 1981-07-22 Socapex Switch with wetted contacts and magnetic operation, and electric relay comprising such a switch

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4644308A (en) * 1984-09-27 1987-02-17 La Telemecanique Electrique Variable composition switching device realizable by the assembling of modular elements

Also Published As

Publication number Publication date
DE3265953D1 (en) 1985-10-10
FR2502392B1 (en) 1984-03-23
EP0061382B1 (en) 1985-09-04
FR2502392A1 (en) 1982-09-24

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