DE19745803C1 - Contact spring for microswitch - Google Patents

Abstract

The contact spring (1) has a retaining lug (3,5) at either end (2,4), each extending in the direction of the opposite end, with a curved spring section (8) between the fixing points of the retaining lugs, with its apex extending across the width of the spring. The curved spring section may lie closest to the operating end (4) of the spring.

Description

The invention relates to a leaf-shaped elongated contact spring for a micro scarf ter, which has a first retaining tab at a first end and the first at one End opposite second end has a second retaining tab, the first retaining tab extends towards the second end and the second hal telasche extends towards the first end.

Microswitches that contain such a contact spring are used in practice for diverse use cases used. At the contact spring is at one end Contact element arranged, which performs the switching function. The contact spring is arranged on a contact by means of the retaining tabs. The contact is located between the two retaining tabs and shows regular recesses into which the open ends of the retaining tabs engage. The contact Recording and the retaining tabs are designed so that the retaining tabs in the Contacting arranged condition are biased. This ensures that the contact spring assumes a defined position in the idle state. Through the Training the contact spring and the arrangement of contact between the Holding tabs is achieved that the contact spring a snap function when actuated on executes.  

The retaining tabs are regularly formed in one piece with the contact spring, the means they are through a cut that extends lengthways except for the connection points extends over the entire circumference of the retaining tabs, from the contact spring band mat rial separated out. The length of the retaining tabs and thus the length of the spring way of the contact spring is thus dependent on the length of the contact spring.

Due to the limited spring travel, the material becomes the contact when actuated spring heavily used. Especially with a larger actuation stroke Very high material stress. To avoid premature material fatigue bend, the actuation stroke of the contact spring is therefore regularly limited. This however, adversely affects the reliability of the microswitch, since at a larger actuation stroke manufacturing tolerances of the individual elements of the Mi crosstalk can be compensated.

DE 89 15 158 U1 has a snap spring for an electrical switch two defined switching positions known, which all the features of the generic term of claim 1.

It is an object of the invention to provide a contact spring for a micro switch form such that the contact spring has a larger actuation stroke allowed without this leading to increased material stress.

The solution to this problem results from the characteristics of the characteristic Part of claim 1. Advantageous further developments of the invention result from the subclaims.

According to the invention, the contact spring between the connection points Retaining tabs with the contact spring at least one arc, the apex in Transverse direction of the leaf spring runs. Such an arch is advantageous achieved that the available for the formation of the retaining tabs Length of the contact spring increased. The retaining tabs can therefore be trained longer det be than in a conventional contact spring. This increases the effective spring length, which reduces material stress. By the increased effective spring length, it is possible that when the Contact spring can go through a larger stroke. With an invention trained contact spring, it is therefore possible to use a microswitch with a ver to provide a larger actuation stroke. The increased stroke takes effect  in addition to improving the reliability of the microswitch, also very cheap for life. The service life of a contact spring according to the invention is increased by a factor of 100 by the arc. It also affects the contact spring designed according to the invention also very cheap on the manufacturing cost out. Because there is a larger stroke when the microswitch is actuated can be performed, the individual elements of the microswitch can be more ferti Show tolerances because these tolerances due to an increased stroke can be compensated.

The arc is advantageously in the region of the second end of the contact spring arranged. This gives you a larger straight area of the Contact spring, at the first end of which the contact element is arranged. By the Arch is not only achieved in an advantageous manner that the retaining tabs ver have greater length, but the bow itself provides a share of the total Spring action of the contact spring. The Bo bends when the contact spring is actuated slightly on, which leads to the fact that the effective spring length of the Holding tabs is enlarged.

The contact spring can advantageously have a bead in the region of the arc point, which extends in the longitudinal direction of the leaf spring. Through the bead the hardness of the bow can be adjusted. This has a particularly favorable effect on the Contact force. It is therefore possible through differently sized beads to set different contact forces.

In a further special embodiment of the invention is on the contact of an actuation area is provided, which at the second end outside the Joints of the retaining tabs is formed with the contact spring. At a such an actuation area closes the arc or the connection point of the second retaining tab with the contact spring directly to the Operating range. The contact spring is actuated so that the actuation richly executing an enlarged stroke, the actuator may bend Reichs and thus an area of the contact spring at the point that di  flows straight into the arch. This has a particularly favorable effect with regard to less material fatigue.

Although the invention was also explained using a contact spring in which an arc between the connection points of the retaining tabs with the contact spring is present, however, several sheets can also be provided if this should be appropriate. It is essential that the developed length of the Kontaktfe which is enlarged. Because in this way it is advantageously achieved that the length the retaining tabs and thus the Blattfe available for suspension whose length is increased. The resulting improvement in reliability A microswitch manifests itself in the fact that the number of operations with overstroke can be up to 5 million, whereas with a conventional contact spring the Number of operations with overstroke is limited to around 50,000. The overstroke is the actuation path of the contact spring after a contact after switching lower contact.

Elevate further details, features and advantages of the present invention from the following description of a particular embodiment with reference to the drawing.

It shows:

Fig. 1 a detail of a schematic arrangement of a first execution form of a contact spring according to the invention in a micro-switch in the rest position,

Fig. 2 shows the arrangement according to Fig. 1 in the working position,

Fig. 3 a section of a schematic arrangement of a second embodiment form of a contact spring according to the invention in a micro switch in working lung Stel,

Fig. 4, the contact spring shown in Figs. 1 and 2 in side view,

Fig. 5, the contact spring shown in Figs. 1 and 2 in plan view,

Fig. 6, the contact spring shown in Fig. 3 in side view, and

Fig. 7, the contact spring shown in Fig. 3 in plan view.

As can be seen in FIGS. 1, 2, 4 and 5, a sheet-like längli che contact spring 1 at a first end 2 to a first holding lug 3. The con tact spring 1 also has a second retaining tab 5 at a second end 4 opposite the first end 2 . The retaining tabs 3 and 5 are integrally formed with the contact spring 1 . Their circumference is cut or punched out of the contact spring band except for the connection points and bent downwards. But they can also be bent upwards. The holding tabs 3 and 5 have an arcuate course.

The contact spring 1 has at its second end 4 an arc 8 , the apex of which extends in the transverse direction of the leaf spring. The arch 8 is located between the connection points of the holding tabs 3 and 5 with the contact spring 1 . The arch 8 directly adjoins the junction of the second retaining tab 5 with the contact spring 1 . At the end of the arch 8 facing away from the first end 2, an actuation area 6 adjoins the arch 8 or at the junction of the second retaining tab 5 with the contact spring 1 .

The open ends of the retaining tabs 3 and 5 engage in recesses of a contact spring receptacle 7 . As a result, the contact spring 1 is connected to the Kontaktfederauf measure 7 . The retaining tabs 3 and 5 and the contact spring receptacle 7 are designed such that the retaining tabs 3 and 5 are biased when the contact spring 1 is arranged on the contact spring receptacle 7 .

A contact element 9 is arranged at the first end 2 of the contact spring 1 . The contact element 9 is depending on the actuation of the contact spring 1 at an upper con tact 10 or a lower contact 11 .

In the switching position shown in FIG. 1, an actuating plunger 12 is connected to the actuating area 6 in such a way that the contact element 9 resiliently presses against the upper contact 10 due to the prestress. If the actuation plunger 12 is lowered, the voltage in the retaining tabs 3 and 5 first increases to a point where the snap function begins. When the snap function is inserted, the tension in the retaining tabs 3 and 5 is reduced while maintaining the direction of movement of the actuating plunger 12 , as a result of which the snap function occurs.

After the contact spring has performed the snap function, the contact element 9 presses resiliently against the lower contact 11 , as shown in FIG. 2. As can also be clearly seen in FIG. 2, the actuation area 6 is bent when the actuating plunger 12 is overstroke. The bending of the actuation area 6 takes place not only at one point, but is also partially taken over by the sheet 8 .

When passing through the switching path of the contact spring 1 there is a bending of the Hal telaschen 3 and 5th Since the retaining tabs 3 and 5 are longer than conventional retaining tabs due to the arch 8 , the bending stress of the retaining tabs 3 and 5 is far less than that of the conventional retaining tabs. Furthermore, the arc 8 bends slightly when passing through the switching path of the contact spring 1 , where the bending strains of the holding tabs 3 and 5 also reduce.

As can be seen in particular from FIG. 5, the contact spring 1 can have a bead 13 in the region of the arc 8 . The bead 13 extends in the longitudinal direction of the leaf spring. The hardness of the sheet 8 and thus the contact force can be adjusted by the bead 1 .

In Figs. 3, 6 and 7, another embodiment is shown of a contact spring according to the invention. The same parts are provided with the same reference numerals. However, to distinguish them from the first embodiment, the reference numerals are each provided with a line.

In the contact spring shown in FIGS . 3, 6 and 7, the second retaining tab 5 'is designed as an almost completely closed circular arc. From this circular arc, the area directly adjoining the contact spring 1 'acts as an arc 8 '. The sheet 8 'and the second retaining tab 5 ' are separated by the actuating area 6 '.

The larger distance between the open ends of the Haltela rule 3 'and 5 ' due to the design is compensated for by a special design of the contact spring receptacle 7 '. The contact spring receptacle 7 'is widened in relation to the contact spring receptacle 7 of the first embodiment, so that the distance between the recesses for receiving the open ends of the retaining tabs 3 ', 5 'is increased.

The function of the second embodiment of the contact spring shown in FIGS . 3, 6 and 7 corresponds to that of the first embodiment of the contact spring shown in FIGS . 1, 2, 4 and 5.

Claims (5)

1. Sheet-shaped elongate contact spring (1) for a micro-switch, which has at a first end (2) a first retaining tab (3) and at a first end (2) ge genüberliegenden second end (4) a second retaining tab (5), wherein the first retaining tab ( 3 ) extends in the direction of the second end ( 4 ) and the second retaining tab ( 5 ) extends in the direction of the first end ( 2 ), characterized in that the contact spring ( 1 ) between the connection points of the retaining tabs ( 3 , 5 ) with the contact spring ( 1 ) has at least one arc ( 8 ), the apex of which extends in the transverse direction of the leaf spring. 2. Contact spring according to claim 1, characterized in that the arc ( 8 ) in the region of the second end ( 4 ) of the contact spring ( 1 ) is angeord net. 3. Contact spring according to claim 1 or 2, characterized in that the contact spring ( 1 ) in the region of the arc ( 8 ) has a bead ( 13 ) which extends in the longitudinal direction of the leaf spring. 4. Contact spring according to one of claims 1 to 3, characterized in that an actuating area ( 6 ) is provided, which is formed at the second end ( 4 ) outside of half the connection points of the retaining tabs ( 3 , 5 ) with the contact spring ( 1 ) . 5. Contact spring according to one of claims 1 to 4, characterized in that the retaining tabs ( 3 , 5 ) have a curved course.