DE2247404B2 - ELECTRIC PUSH BUTTON SWITCH - Google Patents

Description

12. Push button switch according to claim 11, characterized in that the housing recess (6) with a narrowing insertion gap for the two spring tongues (9, 10; 9 ', 10') of the actuating lever (8; 8 ') is provided.

The invention relates to an electrical push-button switch with a push-button resting against the push-button outer operating lever, the two spring tongues locked into a recess in the switch housing and has an effective pivot bearing with respect to the switch housing.

In one known from DT-AS 11 47 287 Push-button switch of the aforementioned type is the operating lever with a substantially U-shaped Mounting bracket connected in one piece with the two spring tongues on its inwardly bent leg are trained. Each spring tongue is a recess in two opposite side walls of the Assigned switch housing, so that in the slipped over the switch housing arrangement of the mounting bracket the spring tongues are locked into these two housing recesses. Here then the with respect to the switch housing effective pivot bearing of the operating lever, which is practically one of the The web surface of the mounting bracket represents punched-out spring tongue, through which essentially with the root this flexible tongue is formed coinciding bending point, which is then above the contact surface of the switch housing for the mounting bracket.

Due to the one-piece design with the mounting bracket, the operating lever is known in these Switches have a fairly high resilience, which means that a comparatively small distance is maintained between the pivot bearing and the point of contact on the push button requires an adverse effect to avoid the switching characteristics of the switch. The corresponding section of the operating lever can then be viewed as sufficiently rigid to allow retention over long periods of time to ensure the same switching characteristics, for which in particular constant contact with the operating lever with the push button is decisive. The further the point of contact with the push button from the pivot bearing of the operating lever is removed, the faster it can then due to the Self-resilience of the operating lever to cancel the constant contact with the push button come, so that a different switching characteristic is then obtained. With the known push button switches there is therefore a correspondingly narrow margin with regard to the arrangement of the push button, and it is still required to enable the same proper fastening, for different sizes of the switch housing to provide different operating levers, on which a different one Training of the bending point forming the respective pivot bearing is to be realized.

There are also known push button switches in which according to FIG. 1 of the drawing of the operating lever at an angled end 33 has two lateral pivot pins 34 which are in corresponding Bearing bores provided with a plug-in slot 32 for the actuating lever and by means of a rivet 35 held together housing parts 30 and 31

are ordered. With an actuating lever of this design, higher frictional forces occur on the pivot bearing on, by which the switching characteristic is adversely affected accordingly. A.:3 Besides, it is a subsequent replacement by another operating lever, the only at the place of use of the switch to meet a different switching arrangement for Is considered expedient, extremely difficult, because first dismantled the switch housing and then at the same time Care must be taken that the individual switch parts are not removed during the subsequent assembly be messed up. This interchangeability can be facilitated by the fact that, as in the push-button switches still known from DT-OS 14 90 131, the pivot bearing on the outside of the switch housing is arranged, but such an outer pivot bearing is subject to a reinforced. Danger of pollution, which leads to a detrimental effect on the switching characteristics more quickly, and also it is then necessary to adjust the pivot bearing-side end of the actuating lever accordingly precisely matched to the assigned housing bracket in order to have a simple fastening option to obtain precise switching characteristics.

The invention is based on the object of providing a push button switch of the type mentioned at the outset train that while maintaining the simple attachment of the operating lever on Switch housing, while maintaining optimal switching characteristics, greater independence from get different switch sizes with possible different arrangement of the push button will.

According to the invention, this object is achieved in that in such a push-button switch the two Spring tongues in a mutually spread arrangement one leg of the total essentially form approximately L-shaped actuating lever and one spring tongue is an end Abv; the in a projection of the pivot bearing side, the two spring tongues on two opposite walls supporting housing recess is engaged.

In the push-button switch according to the invention, the pivot bearing of the actuating lever is consequently direct Relocated into the housing recess, which means that it is practically complete or at least largely independent of different switch sizes and different arrangements of the push button is also obtained as a large degree of independence from a remaining remainder of the spring tongue capacity of the operating lever, which in the switch according to the invention except for the two spring tongues overall can be viewed as a rigid component in which it does not matter at which point or at what distance from the pivot bearing the contact with the push button takes place. Because that Swivel bearing because of the support of the spring tongues on the opposite walls of the housing recess has a corresponding resilience, is about it in connection with the comparative rigid training possibility of the actual actuating arm, its movement through the locking connection the one spring tongue is secured with the projection in the housing recess, an optimal switching characteristic achievable, which is also still achieved by a corresponding design of the one support surface can be changed which of the not interacting with the locking projection of the housing recess other spring tongue is assigned.

Further advantageous and expedient developments of the invention are given by the individual subclaims recorded

An embodiment of the invention is shown schematically in the drawing and is described below explained in more detail. It shows

F i g. 1 is a perspective view of one already briefly described Push-button switch of known embodiment,

F i g. 2 one of the figures! corresponding perspective view a push button switch according to the invention,

F i g. 3 shows the engagement conditions in a sectional illustration the two spring tongues at one end of the operating lever with the housing recess in the Switch according to Fig. 2,

F i g. 4 one of the F i g. 3 corresponding sectional view to illustrate the engagement conditions with a modified design of the housing recess,

F i g. 5 one of the F i g. 4 corresponding sectional view including the push button for illustration the engagement conditions in three successive phases of movement of the push button,

F i g. 6 is a sectional view of one opposite to the F i g. 3 and 4 modified design of the housing recess,

Fig./ shows the characteristic curves in a diagram for the operating lever during the in F i g. 5 movement phases of the spring tongues shown applied torque (FIG. 7A) and the corresponding shifting force (FIG. 7B), in each case taken from the displacement of the push button and

8 is a perspective view of an actuating lever according to a modified embodiment of the invention for the push-button switch of the FIG. 2 shown Art.

The push button switch A has a two-part housing 1, over which a push button 2 and terminals 3, 4 and 5 connected to the opening and closing contacts of the switch protrude. One housing part is provided with a recess 6 in which a projection 7 is formed.

One end of a generally approximately L-shaped actuating lever 8 is locked into the housing recess 6, namely via two spring tongues 9 and 10 formed on the short leg of this actuating lever, of which one spring tongue 10 has an end-side bend 11 which is mounted in the State of the actuating lever engages behind the projection 7. The operating lever 8 carries at its other end a pressure roller 12, via which a pressure force aul the lever 8 can be brought into action to actuate the push button 2, whereupon this can be controlled by the two spring tongues 9 and 10 in cooperation with the projection 7 and de \ this opposite wall b dei housing recess 6 formed pivot bearing is pivoted ver.

In the training according to FIG. 3, the housing recess 6 has a flat support surface b for the one spring tongue 9, which from the main plane de; Actuating lever 8 is bent approximately at right angles and has a common bending line with the other spring tongue 10, which has di <angled 11 at its free end and is aligned against the main plane of the loading actuating lever at an acute angle. The one on the other wall of the housing

recess 6 formed projection 7 is provided with an inclined guide surface 66 for the spring tongue 10, via which their angled 11 for locking connection with the locking step 6c of the end in a tip 6'c Projection 7 can slide when the actuating lever 8 is locked into the recess 6 via the opening 6a thereof.

In the case of the actuating lever 8 latched into the housing recess 6, the spread arrangement of the two spring tongues 9 and 10 and their support on the wall b and on the latching projection 7 generate a spring force which has to be overcome when the actuating lever is pivoted to press the pushbutton 2 is. The spring force experiences an increasing increase due to the mutual approach of the two> 5 spring tongues 9 and 10 and is increased in relation to the spring tongue 9 through the lower section of the wall b and in relation to the spring tongue 10 through the latching step 6c of the projection 7 in connection with the angled portion 11 caught. This mutual effect prevents the actuating lever 8 from becoming detached from the housing recess 6, while at the same time the lifting of the spring tongue 9 from the upper section of the wall b causes a reverse torque to function in the opposite direction to the pivoting direction of the actuating lever. This gives the switch an extremely advantageous switching characteristic, which can still be seen in FIG. 7 will be explained in more detail. In addition, the spreading arrangement of the two spring tongues 9 and 10 has the effect that when the actuating lever 8 is depressurized, a certain torque is exerted on the pushbutton 2 via its actuating end, which allows a constant contact position to be maintained and thus also for advantageous switching characteristics bend is. If the actuating lever 8 is to be dismantled, the two spring tongues 9 and 10 only have to be spread apart, that is, the spring tongue 10 only has to be pressed against the spring tongue 9 so far that its angled 11 comes out of contact with the projection 7 so that the actuating lever can then be pulled up out of the housing recess 6.

In the alternative embodiment according to FIGS. 4 and 5, the housing recess 6 in the upper and lower section of its wall b is each provided with an inclined surface 6d and 6 /, whereby two rolling lines 6'c / and 67 are formed for the spring tongue 9 in the respective transition to a flat support surface 6e formed in between which lie on both sides of the tip 6'c of the locking projection 7 for the angled portion 11 of the other spring tongue 10. The two rolling lines 6'c / and 67 have the effect that in the unpressurized state of the actuating lever 8 from the then effective upper rolling line 6'c / via the spring tongue 9, a reaction force can be brought into action on the actuating lever, which in cooperation with the via the Tip 6'c of the latching projection 7 on the spring tongue 10 brought to action the reaction force acting in the direction of arrow F Go torque can be determined fairly precisely, which is then decisive for maintaining the constant contact position on the push button 2. This reaction force effective with respect to the spring tongue 9, in contrast to the reaction force effective with respect to the spring tongue 10 ⁶ S, is then practically canceled if, according to FIG. 5B exerted a pressure force acting in the direction of arrow F on the actuating lever 8 and then the spring leg 9 is kept in contact exclusively with the flat support surface 6e and is then the actuating lever! 8 into the relative position according to FIG. 5C, then a reaction force is now exerted by the lower rolling line 67 on the spring tongue 9, which then, in cooperation with the unchanged reaction force exerted on the spring tongue 10 via the tip of the locking projection 7, is decisive for the reverse torque acting in the direction of the arrow F ' , which then acts on the operating lever. As a result of the lower rolling line 6'j, the magnitude of this reverse torque can consequently also be set very precisely, whereby a further advantageous influence on the switching characteristics of the pressure switch is possible. Essentially the same effect arises from the curved support surface 6z in the case of the FIG. The housing recess 6 shown in FIG. 6, in which case it applies in this respect that the highest elevation of this curved support surface is opposite the tip of the latching projection 7.

The switching characteristics emanating from the arrangement of the two spring tongues 9 and 10 of the actuating lever 8 in connection with the described design of the housing recess 6 are shown in FIG. 7 proven in more detail. Here in FIG. 7A, the torque applied to the actuating lever 8 by the two spring tongues is transferred over the displacement path of the push button 2, the starting point 40 of the characteristic curve shown in FIG. 5A corresponds to the rest phase of the operating lever held. The in the movement phase according to FIG. 5B prevailing conditions are fixed by the curve point 41, and the curve point 42 finally holds the in the movement phase according to FIG. 5C prevailing conditions in Fig. 1 occurs, and the characteristic curve 52 the switching force occurring in the push-button switch according to the invention. From the course of the two characteristic curves 51 and 52 it can be seen that, in particular in the absence of friction on the pivot bearing of the actuating lever, indicated by the offset Jt, the push-button switch according to the invention has a more favorable switching characteristic, which can be particularly pronounced because the one spring tongue 9 provided support surface b of the housing recess 6 on the basis of FIG. The two spring tongues of the actuating lever then emit the most favorable reaction forces on its unactuated rest position or depressed actuation position for the push button, which results in the optimal switching characteristics for the opening and closing contacts of the push button switch

In Fig. 8, finally, an actuating lever 8 'is shown in which the two spring tongues 9' and 10 'separate Have bending lines and each essentially at right angles to the main plane of the operating lever are angled. Here, too, the one, thereby shorter, spring tongue 10 'has an end-side angled portion 11' which leads to the Snap connection with a similar projection in the housing recess is provided in which the-

»He actuating lever is locked in place, whereby the two separate bending lines then become a somewhat more favorable one Switching characteristics result because there is a more favorable distribution of the spring forces that are required for the latching of the operating lever in the housing recess are decisive.

For this purpose 4 sheets of drawings

Claims (11)

Claims: 22 1. Electrical push-button switch with an external actuation s attached to the push-button lever which has two spring tongues engaged in a recess in the switch housing and a relative of the switch housing has effective pivot bearing, characterized in that that the two spring tongues (9, 10; 9 ', 10') in a mutually spread arrangement to the one Legs of the generally approximately L-shaped actuating lever (8; 8 ') form and the a spring tongue (10, 10 ') has an end-side angled portion (11, IT) in a projection (7) of the on the pivot bearing side the two spring tongues on two opposite walls supporting housing recess (6) is engaged. 2. Push button switch according to claim 1, characterized in that the two spring tongues (9, 10) have a common bending line. 3. Push button switch according to claims 1 and 2, characterized in that the one spring-Eunge (9) essentially at right angles and the further spring tongue (10) at an acute angle to the main plane of the operating lever (8) is bent. 4. Push button switch according to claim 1, characterized in that the two spring tongues (9 ', 10 ') have two separate bending lines. 5. Push button switch according to claims 1 and 4, characterized in that the two Spring tongues (9 ', 10') are arranged parallel at a distance from one another. 6. Push button switch according to one of the claims 1 to 5, characterized in that the latching projection (7) for the end-side angled portion (11, IV) of one spring tongue (10, 10 ') is formed on the wall of the housing recess (6) facing the push button (2) and has an undercut Locking step (6c) is provided. 7. Push button switch according to one of claims 1 to 6, characterized in that the with the spring tongue provided at the end angled (11, 11 ') (10, 10 ') is shorter than the other spring tongue (9, 9'). 8. Push button switch according to one of claims 1 to 7, characterized in that the wall of the housing recess (6) opposite the locking projection (7) is provided with a flat support surface (b, 6e) for the other spring tongue (9, 9). 9. Push button switch according to claims 6 to 8, characterized in that the flat support surface (6e) in two on both sides of the locking step (Oc ^ arranged Abvvälzlinien (6'd, 6'f) for the associated spring tongue (9,9 ' ) ends. 10. Push button switch according to claims 6 to 8, characterized in that the locking projection (7) opposite wall of the Geliäuseaussparung (6) with a curved rolling surface (6z) for the associated spring tongue (9, 9 ') is provided, whose largest elevation is approximately at the level of the rest step (6c) . 11. Push button switch according to one of claims 1 to 10, characterized in that on the insertion side (6a) of the housing recess (6) at least one inclined surface (6b) as an insertion aid Cür the two spring tongues (9,10; 9 ', 10') of the Actuating lever (8; 8 ') is provided. 404