DE3328684C1 - Armature-retaining spring for dual-in-line relays - Google Patents

Abstract

Armature-retaining springs in dual-in-line relays are installed only between the armature and housing, which leads to more complex installation of the relay and, furthermore, does not solve the problem of armature bouncing. In contrast, an armature-retaining spring is specified which can be plugged on to the relay yoke and allows the relay motor assembly to be prefabricated and a defined force to be exerted on the armature in the direction in which the bouncing tendency is at its maximum, so that the bouncing times of the contacts are reduced.

Description

Hole in the assembly - coil - coil body - Armature retaining spring the anchor can be hooked in with little effort by the middle spring tongue is raised by the shape of the actuating bar and that as soon as the armature rests on the cutting edge and engages behind the actuating bar. This ensures. that the armature is pressed towards the yoke top and the most unfavorable position defused for bruises. It is also ensured that the play of the anchor in Coil longitudinal direction is defined small. The complete relay motor thus forms a prefabricated assembly without loose parts. Advantageous further developments of the invention are specified in the subclaims.

An embodiment of the invention will be described in more detail with reference to the drawing explained.

F i g. 1 shows the armature retaining spring 1 according to the invention as an individual part: In Fig. 2 shows the yoke 6 of the dual-in-line relay; Fig. 3 shows the Assembly yoke 6 - coil 9 - coil body 8 - armature retaining spring 1 and Fig. 4 the assembly Armature 10 - actuating web 11: In F i g. 5 the relay motor is shown in its entirety; F i g. 6 shows a side part 12 or a housing half, two of which - each plugged into the relay motor from left and right - the complete relay without protective cap result.

The shape of the armature retaining spring 1 in Fig.l shows that from a Spring base run out 3 parallel spring tongues, the outer two spring tongues 4 and 5 are angled at their open, free end.

The bend on each spring tongue has a rectangular recess 3. The size of the recess 3 is adapted to the yoke thickness on its shorter side. The longer side is equal to the length of the triangular extension 7 in the yoke 6, F i G. 2. When attaching the armature retaining spring 1 to an assembly yoke 6 - coil 9 - Coil bobbin 8 (FIG. 3), this can be done without tools. The spring tongues 4 and 5 spread out at the triangular extension 7 and then snap into place with the recesses 3 on it. Because the spring tongues spring together, the armature retaining spring sits 1 firmly on the yoke 6.

The armature 10 is now attached to the assembly according to FIG. 3, which was previously completed with the actuating bar 11. The actuating bar 11 has a central recess 13 which, in contrast to the upper edge of the actuating bar, is different is deeply molded. On the side facing the yoke 6, the recess 13 is deeper than on the opposite side. This is achieved. that when introducing the Armature 10, the middle spring tongue 2 of the armature retaining spring 1 slowly rises and engages behind the actuating bar 11. The U-shaped design of the spring tongue 2 enables this assembly method. The restoring force is due to the long spring travel the same over the entire lifting movement of the armature. which is beneficial for the suit or release values of the relay.

Next is the bias of the middle spring tongue 2 with greater Tolerances allowed.

In the illustrated embodiment, the width of the tongue is in each case same. It is conceivable to adapt to the restoring force and its tolerance spring thickness and to vary the spring width between the outer and the middle spring tongue.

The relay motor in FIG. 5 can be unhindered by loose parts or parts protruding from the relay motor in the side parts 12 are inserted, of which a left and a right side panel are required.

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Claims (5)

Claims: 1. Armature retaining spring, especially for DIL relays (Dual-in-line relay), which rests on the longer yoke leg and is parallel to this is attached and with its free U-shaped bent end the anchor in the yoke edge presses thereby gek e n n z e i c h n e t that the armature retaining spring (t) consists of three parallel leaf-shaped spring tongues connected at one end via einell äteg, wherein the two outer spring tongues (4, 5) are angled to the side at the open end and in the angled part each have a recess (3) with which they approach approaches (7) can be attached to the longitudinal edges of the yoke (6) and that the middle spring tongue (2) holds the anchor (10). 2. armature retaining spring according to claim 1, characterized in that in the two recesses (3) of the outer spring tongues (4, 5) two triangular approaches (7) snap into place on the long edges of the relay yoke (6). as soon as the armature retaining spring (1) is attached. 3. armature retaining spring according to claim 1 or 2, characterized in that that the open end of the central spring (2) partially encloses the actuating web (11) and thus presses the armature (10) into the yoke cutting edge (14). 4. Armature retaining spring according to one of claims 1-3, characterized in that that the distance between the bends at the open ends of the outer spring tongues (4, 5) in the relaxed state is smaller than the width of the yoke edge. 5. armature retaining spring according to any one of claims 1-4, characterized that the legs of the 3 parallel spring tongues (2,4,5) and the spring base are the same are wide. The invention relates to an armature retaining spring for DIL relays (dual-in-line relays) which rests on the longer yoke leg and is attached parallel to this and with their free. U-shaped bent end presses the anchor into the cutting edge. The purpose of armature retaining springs is to keep the armature of a relay attracted to throw back after switching off the coil excitation. Next is the armature return spring needed to prevent the break contact of a changeover contact from bouncing back Armature is opened again and thus an undesired bounce time on the NC contact arises. It is known from DE-OS 25 41 650 a leaf-shaped spring which is between Armature and actuating bar is attached and opposite the narrow side of the housing supports. This armature retaining spring has the disadvantages that it is attached to the armature by a Operation must be fixed, which makes the production of the relay more expensive and that When assembling the relay motor and the side parts of the housing, the loose end of the spring is spanned must be in order to position cs in the housing. This operation is inevitable complex and expensive. Furthermore, stress on the spring occurs during assembly, which cannot guarantee a subsequent exact restoring force. From DE-AS 25 16 502 it is known to store the armature in the housing on a shoulder to the Prevent bruises. This solution saves the armature retaining spring, but the resulting tolerances between the individual parts - thickness of the anchor, Jochschenkellängc. Internal dimensions of the housing, the shrinkage dimensions of the plastic housing - generate so much air between shoulder and anchor that an exact anchor holder is not possible. An armature retaining spring with a U-shaped free end is from DE-PS 8 93 095 known. The disadvantage of this "arrangement is that the armature retaining spring holds the armature holds in the area of the yoke edge. In the case of the DIL relay, however, it is above the yoke edge the contact arranged. so that thereby the U-shaped bulge too close to the Contact parts would lead and the insulation distances would no longer be maintained. From GB 14 39 425 an armature retaining spring is known. which shows 3 short legs, but with an additional part must be connected by means of rivet attachments and also the anchor at the yoke cutting point holds on. This results in the same disadvantage as in DE-PS 893 095. From FR-PS 23 36 784 a U-shaped Ankerhaltcfeder is known which in a recess in the yoke and its second end in a recess in the armature clicks into place. One disadvantage of this arrangement is. that again at the yoke cutting point a high, arched armature retaining spring shortens the creepage and air path to contact would if this spring is used in a DIL-Rclais. In addition, through the recess in the yoke weakened its cross-section. what negative effects has on the magnetic circuit. In DE-PS 31 20 117 a retaining plate is shown, which as a pure clamping plate functions, but does not represent an armature retaining spring in the actual sense. The retaining plate is used to fasten the magnet system or the yoke in the base body. It is the object of the invention to reduce the bounce times with an armature retaining spring to lower and to accomplish the armature reset and at the same time an assembly-friendly To indicate the shape. that makes it possible. the complete relay motor, consisting of a yoke. Kitchen sink. Pre-fabricate coil formers and armature as an assembly with captive parts and then easy to assemble with the housing. In the case of a relay of the type mentioned at the outset, the task is thereby achieved solved. that the armature retaining spring consists of three parallel leaf-shaped at one end consists of spring tongues connected via a web, the outer two spring tongues are angled laterally at the open end and a recess each in the angled part have, with which they can be plugged onto approaches on the longitudinal edges of the yoke and that the central spring tongue holds the anchor. In a further embodiment of the invention, it is possible to use both Recesses of the outer spring tongues in two triangular approaches on the longitudinal edges of the relay yoke to engage as soon as the armature retaining spring is attached. Attaching the armature retaining spring to the yoke - coil assembly - Bobbin can be done without tools. Spread when attaching to the yoke the outer spring tongues are somewhat atif. until they passed over the triangular approaches are and federil then together to the normal yoke width. once the cutouts stand above the approaches. It is further advantageous that the open end of the central spring the actuating bar partially encloses and thus the armature in the yoke edge presses.