EP0089670A2 - Electromagnetic relay - Google Patents

Abstract

The relay has an elongated armature (71) which is mounted on one side and which is fastened at one end in an insulating material carrier (77). At the same time, movable contact springs (78, 79) are anchored in the insulating material carrier (77), the extensions (78b, 79b) of which emerge from the carrier and are fastened in a base body (84) with a fastening part (78c). This extension of the respective contact spring forms both a connecting lug (78d) molded in one piece and a friction-free bearing for the armature without an additional bearing element.

Description

The main patent (file number P 31 32.239.5) relates to an electromagnetic relay with an excitation coil and an elongated, one-sided armature, which extends essentially parallel to the coil axis and to which at least one contact spring is attached insulated, which extends parallel to the armature The rod-shaped armature is supported at one end via an insulating support in the area of a first coil flange and extends essentially over the entire coil length to the second coil flange, with it in the area of this second coil flange with at least one pole plate forms a working air gap and the contact springs anchored in the carrier extend outside the coil at a distance from the armature also substantially over the entire coil length.

This relay according to the main patent has the advantage that the armature movement is transmitted directly to the contact springs due to the direct fastening of the contact springs in the insulating carrier of the armature, so that no actuating slide is required. However, in the exemplary embodiment described there, it is necessary to connect the contact springs, which are connected to the armature and movable with these, via strands with their respective connection elements in a base body. Such stranded connections are relatively expensive and complex to manufacture. In addition, there must be the insulating support of the anchor by suitable Measures are stored on the bobbin, which brings with it an unavoidable friction. If the armature is also to have a pretension or restoring force, this must be applied by an additional spring.

The object of the present invention is therefore a development of the relay according to the main patent in such a way that the stranded connections for the movable contact springs can be omitted and at the same time the bearing friction of the armature is avoided.

According to the invention, this object is achieved in the relay of the type mentioned at the outset in that the contact spring has an extension in each case in the region of its anchoring in the carrier, which extension is fastened to form a connecting lug in a base body carrying the counter-contact elements and serves as a resilient mounting of the anchor carrier.

Due to the design according to the invention, the contact spring movable with the armature and its connecting lug each consist of one part, and this part also takes over the storage of the armature. A stranded wire connection for the electrical connection of the contact spring is thus superfluous, and at the same time the bearing friction of the armature is avoided. In addition, the spring bearing can also generate a desired restoring force for the armature without an additional restoring element being required for this.

The respective extension of the contact spring or the contact springs expediently emerges from the area of the armature axis of rotation and forms a fastening part with an integrally formed connecting lug via one or more anglers. Here is a sweets Embodiment provided that the fastening part runs at least partially parallel to the spring leg of the respective contact spring.

In a preferred embodiment, a contact spring is fastened in the carrier on both sides of the armature, the extensions of the two contact springs emerging from the carrier offset with respect to one another in the direction of the armature axis of rotation. The extension of the respective contact spring can have a reduced spring section in cross-section, which is subjected to bending or torsion during the switching movement of the armature.

The invention is explained in more detail using an exemplary embodiment with reference to the drawing. The single figure shows a simplified representation of an armature mounted on a base body for a relay system according to the main patent.

The armature 71 shown in the drawing consists of an elongated ferromagnetic sheet and is movably arranged in a coil body, not shown, with the winding 72, which is only indicated schematically. With its free end 71a. it is movably arranged between two pole plates 73 and 74 and forms a working air gap 75 and 76 with respect to these pole plates. The pole plates 73 and 74 are only indicated by their ends. Like the entire magnet system, they can be designed, for example, as in the main patent. With its opposite end 71b, the armature 71 is fastened in a carrier 77 made of insulating material, for example by embedding or inserting it.

In the carrier 77, two contact springs 78 and 79 are also attached, which they with their spring legs on both sides of the armature 71 and parallel to it stretch and with their free ends 78a and 78b between two counter-contact elements 80 and 81 or 82 and 83 are arranged so that they give optional contact with them. The mating contact elements 80, 81, 82 and 83 are fastened in the schematically illustrated base body 84 in the usual way, for example by embedding or plugging in, and form connection lugs on the connection side of the base body 84, for example 80a, 81a.

The contact springs 78 and 79 each form an extension 78b and 79b from their anchoring in the carrier 77, which leads to a fastening section 78c and 79c running parallel to the contact leather 78 and via their anchoring in the base body 84 each forms a connecting tab 73d. The corresponding connecting lug of the contact spring 79 cannot be seen in the figure. At the point of exit from the carrier 77, the contact springs 73 and 79 each form a spring bar 78e or 79e, which lies in the region of the axis of rotation of the armature 71 and, due to its spring action, exerts a restoring force on the armature together with the entire fastening part 78b or 79b.

The contact spring 78 thus consists of one piece from its spring leg via its embedding in the carrier 77 and via the multiply angled and cranked fastening part 78b to it to the connecting lug 78d, so that without an additional element both the electrical power supply and the bearing of the carrier 77 are included the anchor 71 can be made. Anchors can be used as pivot bearings. The webs 78e and 79e serve as pivot bearings. This also eliminates any bearing friction for the armature 71. The contact springs 73 and 79 could of course be modified with their connecting parts, so that, for example, instead of the webs 78 ^e and 79e subjected to bending, respectively, torsion webs are arranged in the boring axis of the armature can be. By appropriate design and adjustment of the contact springs or their fastening parts, the armature can be pretensioned in a central position or in a lateral end position.

Otherwise, the base body can be designed to accommodate the coil former (not shown) and other elements, for example can also be designed in a suitable manner to accommodate a cover cap.

Claims (6)

1. Electromagnetic relay with an excitation coil and an elongated, one-sided armature, which extends substantially parallel to the coil axis and to which at least one contact spring is insulated, which extends parallel to the armature and cooperates with its free end in each case with at least one mating contact element , wherein the rod-shaped armature is supported at one end via an insulating support in the region of a first coil flange and extends essentially over the entire coil length to the second coil flange, wherein it forms a working air gap with at least one pole plate in the region of this second coil flange, and wherein Contact springs anchored in the carrier extend outside the coil at a distance from the anchor also substantially over the entire length of the coil, in particular according to patent ........ (file number? 31 32 239.5), characterized in that the contact springs (78 , 79) each in the area I have anchoring in the support (77) an extension (73b, 79b), each of which forms a connecting lug (73d) is fastened in a base body (84) and serves as a resilient mounting of the anchor support (77). 2. Relay according to claim 1, characterized in that the respective extension (78b, 79b) of the contact springs emerges from the carrier (77) in the region of the armature axis of rotation and a fastening part (78c, 79c) with an integrally formed connecting lug (1) via one or more offsets. 78d) forms. 3. Relay according to claim 2, characterized in that the fastening part (78c) extends at least partially parallel to the spring leg of the respective contact spring (78). 4. Relay according to one of claims 1 to 3, characterized in that on each side of the armature (71) a contact spring (78, 79) is fastened in the carrier (77), the extensions (78b, 79b) of the two contact springs (78 , 79) - offset from one another in the direction of the armature axis of rotation - emerge from the carrier (77). 5. Relay according to one of claims 1 to 4, characterized in that the extension (78b, 79b) of the respective contact spring has a reduced cross-section, stressed during the switching movement of the armature on bending or torsion (78e, 79e). 6. Relay according to one of claims 1 to 5, d a dur c h characterized in that the fastening part (78c) is anchored approximately in the central region of the anchor length in the base body (84).

Images