DE2434272A1 - Rocker switch with two-arm contact spring - has tooth-shaped bend on contact spring cooperating with housing counter bend - Google Patents

Abstract

The contact spring, whose both ends are supported in the switch housing, has in its centre portion a bent ridge, while its ends are in the form of inwards bent contact arms, each cooperating with two stationary contacts, as in 2360167. The ridge (8) of the contact spring (5) is in the shape of a tooth with steep flanks. This tooth, away from the stationary contacts (18, 19) cooperates with a counter tooth (23) rotary or swivably mounted in the housing, the counter tooth having preferably steep flanks too. Typically the counter tooth forms a lower end of a rocker lever (32), pivotally mounted in the housing.

Description

Electrical switch Addendum to patent no. ....................

(Patent Application No. P 23 60 167.4) The invention relates to a electrical switch with a spring material supported at both ends in the housing curved contact spring, with arranged in particular in the central spring area bead-like curvature and inwardly bent spring ends designed as contact arms, each contact arm interacts with one of two fixed contacts to be bridged, according to patent no. ............... (patent application No. P 23 60 167.4).

Such an electrical switch has already been proposed per se been. The contact spring is there with the help one longitudinally displaceable Actuator switched.

In some cases it is now more advantageous instead of an actuating plunger to have a pivotable or rotatable actuator.

Accordingly, the object of the present invention is to provide a Switch of the type mentioned with a rotatable or pivotable actuator to equip in particular to short actuation paths and / or a rapid switching movement to achieve.

Such an electrical switch is used to solve this problem proposed, which is characterized according to the invention in that the bulge the contact spring has the shape of a tooth with preferably steep tooth flanks, and that the tooth pointing away from the fixed contacts can be rotated or pivoted with a The opposing tooth mounted in the housing cooperates, which is also preferably steep Has tooth flanks. The switching movement of the opposing tooth running in the direction of rotation is transferred to the tooth of the contact spring. Since the latter cannot turn, he must necessarily move sideways or downwards. This leads to a Bending of the contact spring against the fixed contacts down, where at the same time the inwardly bent spring ends formed as a contact arm move in the same direction. The two permanent contacts are bridged at the moment in which both contact arms rest on it. The spring must therefore be stored in the housing or be clamped at the side so that they perform the movements mentioned and can also return to the starting position. It shines without further ado one that the angle of rotation required for switching is smaller, the steeper it is the tooth flanks assigned to one another are selected.

However, this results not only in a small actuation travel, but also also a quick toggle movement. This is especially with a view to avoidance contact wear is important.

In an advantageous embodiment of the invention, the opposing tooth is by the inner end of a rocker arm pivotably or rotatably mounted in the housing or the like. Corresponding housing stops limit its tilting movement. Another variant of the invention is that the counter tooth is rotatable on one stored in the housing, connected to an actuating member, in particular a rotary knob Shaft attached, is preferably molded. The latter applies before all things in plastics manufacturing.

In a further development of the invention, the switch has several side by side arranged, in particular housed in separate chambers springs. Here can a separate switching mechanism can be housed in each chamber. On the other hand it is It is also advantageously possible for the contact springs to form a multipole Switch by a common or several similarly attached counter teeth are operable. In the case of the first alternatives, one could use separate Switching mechanisms in the individual chambers do not speak easily. Under similar Attachment of the opposing teeth is an angular position, for example on an axis of rotation understood which with laterally offset parallel arrangement of the contact springs a simultaneous closing and opening of the contacts of all individual switches this Multiple holder guaranteed. In this connection there is still another form of training interesting of the invention, which consists in the fact that to form a tap changer each contact spring can be actuated by means of a separate counter tooth, at least some of the opposing teeth are offset from one another as seen in the direction of rotation. if all opposing teeth in the direction of rotation against each other are offset, lies a multiple switch with individual switches that can be operated one after the other, with the Switching sequence not necessarily continuous from the first to the last individual switch must be done. But you can also choose the combination so that individual pairs or Groups are switched at the same time, so that a multi-pole step switch is created.

The contact springs are particularly preferably made of spring wire Manufactured with a preferably circular cross-section, because this is a special leads to a narrow design, which is particularly advantageous in the case of multiple switches. Another feature of the invention is that the contact springs on their side Supporting ends each have at least one stiffening turn. The attachment of the The latter is less recommended when using leaf spring material because this lead to a not inconsiderable widening and also manufacturing difficulties would bring with it.

The contact springs can according to a further feature of the invention be designed as snap springs. With a bistable design of the contact springs a customary reset can also be provided.

Another feature of the invention is that one of the chambers of the switch housing a locking mechanism and the rest of the one contact spring and receive a mating tooth, the mating teeth on a common camshaft sit and the bead-like bulge of each contact spring against the associated Opposing tooth points. On the one hand, the chambers ensure good electrical separation the individual switch of this multiple switch and at the same time the chamber walls springs for lateral and, if necessary, frontal support of the contact can be used. It is probably most expedient here if all chambers, that is also those for the locking mechanism are designed the same. If necessary, can you have two opposite side walls with regard to the bearing borings different for the camshaft from the other side walls lying parallel to it form. It is also conceivable, however, to have the camshaft in all of the side walls to store and to make the division of the housing in the longitudinal center plane of the camshaft.

The bead-like bulge of each contact spring interacts with the respective one Associated cam, switch pin or the like. The camshaft together and causes at the same time a stiffening of the spring at the point in question, preferably in their middle area. As a result, the spring and the cam are simplest Type of construction and this applies in particular when the attachment of contact rivets or the like. Is omitted and instead the free inwardly pointing spring ends are intended to be placed directly on the permanent contacts. That casing with the chambers can be made in one piece from plastic in an advantageous manner. The same applies to the camshaft with your cams or the like.

As already stated, the cams, switch pins or the like are.

the camshaft at least partially mutually in the circumferential direction offset and according to the invention in the manner of a gear tooth with steep flanks educated. The last feature ensures especially when in more expedient Way, the bulge of the contact spring is designed in the manner of a gear tooth and is preferably provided with steep flanks, an extremely small switching angle for each switch, so that with very small dimensions a large number of one behind the other effective switching cams can be attached to the camshaft and the multiple switch can therefore have a particularly large number of individual switches. So it is without further ado possible to design the switch according to the invention so that with a single rotation of the camshaft by 360, twenty or more switching positions are possible. The next to each other lying cams of the locking device do not necessarily each have to be one Latch can be offset in the circumferential direction, but two or more of the same can also be used Surface line can be assigned. Furthermore is it is not necessary that adjacent switches of this multiple switch in the order their arrangement can be switched one after the other. It is easily conceivable in analogous to the cylinders of an internal combustion engine, the switching sequence is arbitrary to fix. After all, you can have more than one contact spring with a single contact spring Assign cams so that this switch occurs during one revolution of the camshaft is actuated two or more times.

In a further embodiment of the invention, the locking mechanism a ratchet wheel attached to the camshaft in a rotationally fixed manner, in particular in one piece gear wheel, ratchet wheel or the like manufactured therewith. And, moreover, it is what interacts therewith Locking element or the like. Designed as a locking tooth and attached to a bow spring. Both the latter and the contact springs can be dimensioned so that one For example, they simply insert them into chambers from above, without any additional fastening measures would be necessary. Then you set the camshaft with the gear wheel or the like. And finally the switch cover attached.

The locking tooth is preferably formed by a bead-like design Formed bow spring. It is comparable to the bulge of the contact springs and can with their shape be identical. In this case it is particularly advantageous if the teeth of the toothed or ratchet wheel in terms of their Shape match with the cams of the camshaft.

The above-mentioned assembly of the springs is then very useful possible if the clip spring of the locking mechanism and the contact springs of the switch rest on projections or shoulders of opposing walls, in particular the bow springs are supported on the side walls in front of the projections is. In the latter case, the contact springs are simply inserted loosely and they then automatically take their correct place while the bow spring is underneath Applying their biasing force must press. The reverse is also conceivable Case in which the bow spring lies loosely in the housing and the contact springs are preloaded be pressed in.

The switching mechanisms of the individual switches are in a development of the invention monostable, d. H. they return automatically after being released by their cam back to their original position. This also contributes because a special reset device is no longer required greatly contributes to the cheap production of the switch according to the invention.

Exemplary embodiments of the invention are shown in the drawing. 1 shows a broken vertical section through a first embodiment, FIG. 2 shows a second variant in vertical section, but without the housing cover, FIG. 3 is a plan view of a third embodiment designed as a multiple switch, Fig. 4. In vertical section, a locking mechanism of the switch of Fig. 3, also without housing cover, Fig. 5 shows a slightly differently designed contact spring from the side seen, Fig. 6 the same spring viewed from above.

The housing of the one shown in Fig. 3, designed as a multiple switch The variant has, for example, three chambers 2, 3, and 4. In chambers 2 and 3 each a contact spring 5 is loosely inserted, the shape of which z. B. from figure 1 results. In contrast, the chamber 4 receives a bow spring 6, Which a latching mechanism 7 (Fig. 4) belongs. Each contact spring is a curved leaf spring formed and has a bead-like bulge in its central area 8. The bow spring ends are forming two mutually facing contact arms 9 and 10 bent downwards inwards. The transition takes place in a small one Elbow piece 11 or 12. This is in the embodiments on the inner Wall surfaces 13 and 14 not on, so that the contact spring before mounting the camshaft 15 can be inserted in the direction of arrow 16 from above. In Figure 3 the width 17 of the chambers is selected to be somewhat larger than that of the contact springs 5, but this does not necessarily have to be the case. If the width is the same, the Contact spring also provides good guidance in the longitudinal direction of the camshaft 15. she should however, do not lie tightly against the longitudinal walls of the chamber, so that their suspension behavior is not negatively influenced. The contact arms 9 and 10 have no attached Contact rivets, rather they work directly with those to be bridged Fixed contacts 18 and 19 together. All fixed contacts 18 are opposite the FBstkontakten 19 separated by a wall 20 attached to the housing base. Perpendicular to this walls 21 still extend between the contacts 19. Such walls can be used even between the contacts 18, but this was followed in the present case therefore omitted because all fixed contacts 18 are combined and only have a single soldering lug 22.

The cams 23 of the camshaft 15 are not only on the side, but also offset from one another in the circumferential direction.

In the embodiment of Figure 3, each chamber or

only one cam 23 is assigned to each contact spring.

The contact spring 5 is monostable and returns after being released by the Cam 23 automatically returns to its original position. By appropriate shaping and, if necessary, you can also clamp a bistable position of this type of spring reach, for the return of which, however, it is a special facility, for example a return spring is required.

The latching mechanism 7 is integral with the camshaft 15 Manufactured gear or ratchet wheel 24, with relatively steep tooth flanks. Steep flanks In particular, the cams 23 and the bulges 8 of the contact also have springs and the corresponding bulge 25 of the bow spring 26 of the Rastmecnanisrnus 7. The bow spring is supported laterally on the inner tNTandSlchen 13 and 14 and resembles the upper part of the contact springs in its worm. It's down they, like the contact springs 5, are supported on projections 27 and 28 of the housing. On the protruding eye end 29 of the camshaft 15, a rotary handle or Actuating lever 30 are placed or pushed on, of which in Figure 3 only a hub is indicated.

In the case of Fi. 1 is a normal variant On-off switch with only a single contact spring 5. It is designed the same like the contact springs of the in FIGS. 2 to 4 shown multiple switch.

Instead of the camshaft 15, a rotary shaft 31 is used there, which is non-rotatably connected to a two-armed pivot lever 32. The one slot of the housing cover, not shown, penetrating, outwardly protruding lever arm forms an actuator 33. Diametrically opposite is' on the other lever arm 33 of the cams 23 are integrally formed. Like the contact spring 5, it has steep flanks. If you turn the actuator counterclockwise, the presses the Bulge 8 the contact spring 5 facing tooth flank against the associated flank of this Bulge, which is why the latter and thus the entire contact spring downwards, d. H. against the fixed contacts 18 and 19 evades. The contact spring 5 is like in the embodiment described above, bent downwards and optionally also compressed a little.

The contact arms 9 and 10 pivot again about the projections 27 and 28 of the housing 1. The fixed contacts 18 and 19 are just before reaching the with dashed lines indicated extreme position of the actuating member 33 or Cam 23 bridged by the contact spring 5. This or one shortly before or shortly thereafter achieved switching position of the pivot lever 32 can by suitable Iiittel, for example a locking mechanism to be fixed, which corresponds to that of the may correspond to the first embodiment. It is also possible to use the pivot lever 32 to move against the force of a return spring in the switching position, so that he after releasing automatically returns to the starting position and the circuit again interrupts.

The contact spring can be made of spring steel material or sections of a Spring steel strip or wire of any cross-section can be produced. In particular it is intended to use spring material rectangular or else, as in FIGS. 5 and 6 provided to use a circular cross-section. In the latter case, can Provide a stiffening turn 35 each at both lateral ends of the contact spring 5 will. he as a turn are not recommended in and of themselves, because they result in the The advantages of the flat design of this spring are lost again. You renounce on these stiffening connections is the construction of a particularly small multiple switch possible.

Due to the special shape and choice of material, the Contact spring can be achieved. In this case a special reset would have to be carried out or RüclMoler of the usual type.

Claims (14)

Expectations 0 Electrical switch with a support at both ends in the housing, Contact spring bent from spring material, with particular in the middle spring area arranged bead-like curvature and inwardly curved, designed as contact arms Spring ends, each contact arm with one of two fixed contacts to be bridged cooperates, according to patent no. ............ (Patent Application No. P 23 60 167.4), characterized in that the bulge (8) of the contact spring (5) preferably has the shape of a tooth has steep tooth flanks, and that the one facing away from the fixed contacts (18, 19) Tooth interacts with a counter-tooth (23) that is rotatably or pivotably mounted in the housing (1), which also preferably has steep tooth flanks. 2. Switch according to claim 1, characterized in that the opposing tooth (23) through the inner end of a pivotable or rotatable in the housing (1) Rocker arm (32) or the like. Is formed. 3. Switch according to claim 1, characterized in that the opposing tooth (23) on a rotatably mounted in the housing, with an actuating member, in particular Rotary knob connected shaft (15, 31) attached, preferably molded. 4. Switch according to one or more of the preceding claims, characterized in that the Sehalter several, arranged side by side, in particular has contact springs (5) housed in separate chambers (2, 3). 5. Switch according to claim 4, characterized in that the contact springs (5) to form a multi-pole switch by a common one or more similarly attached counter teeth (23) can be actuated. 6. Switch according to claim 4, characterized in that "for education of a tap changer, each contact spring (5) by means of a separate counter tooth (23) can be actuated, with at least some of the counter-teeth in the direction of rotation seen, are offset from one another. 7. Switch according to one or more of the preceding claims, characterized in that each contact spring (5) made of spring wire with preferably circular cross-section is made. 8. Switch according to one or more of the preceding claims, characterized in that each contact spring at least at its lateral support ends each has a stiffening turn (35). 9. Switch according to one or more of the preceding claims, characterized in that each contact spring (5) is designed as a snap spring. 10. Switch according to claim 4 or claim 4 and one or more of claims 5 to 9, characterized in that one of the chambers (2, 3, 4) of the Switch housing (1) has a latching mechanism (7) and the rest each have a contact spring (5) and an opposing tooth (23), the opposing teeth on a common Camshaft (15) sit and the bead-like bulge (8) against each contact spring has the assigned opposing tooth. 11. Switch according to claim lo, characterized in that the locking mechanism (7) a ratchet wheel (24), toothed wheel, ratchet wheel attached to the camshaft (15) in a rotationally fixed manner or the like and the interacting locking element or the like. As Locking tooth (25) is formed and attached to a bow spring (26). 12 * switch according to claim 11, characterized in that the locking tooth is formed by a bead-like bend (25) of the bow spring (26). 13. Switch according to claim 12, characterized in that the bow spring (26) of the locking mechanism (7) and the snap spring (5) of the switch on projections (27, 28) or paragraphs of opposing walls, in particular the U-spring supported on the lateral walls (13, 14) in front of the projections is. 14. Switch according to one or more of the preceding claims, characterized in that the switching mechanisms of the individual switches are monostable. L e r s e i t e