DE1945521C3 - Switch for impulse contact - Google Patents

Description

The invention relates to a switch for making impulse contact with an actuating member, the plunger od. The like, at least one spring and at least one fixed and one movable on one Contact arm or the like. Arranged contact. counter for impulse contact transmission are used everywhere, where by any actuation of the plunger od. The like. A circuit for a short or very short time should be closed. This period of time during which the circuit is closed. depends on the Construction of the switch, and «i usually not variable. It is on the order of milliseconds.

The object of the invention is now seen in that a switch of the type described above so to design that its pulse time is independent of the speed of the actuator and the is nevertheless made up of relatively few individual parts. In addition, this switch should be easy to assemble and be repairable, long life as well have a high switching capacity.

To solve this problem, a switch according to the preamble of the first claim is proposed, which according to the invention is designed according to the characterizing part of the first claim.

This is a real cascade switch, the pulse or wiping time of which is practically constant and is completely independent of the speed at which the actuating tappet or something else Actuator is depressed. The two Snap systems work in the usual way, i. H. it two snap-connected parts are pivoted around a stationary bearing, the The pivot point of the interconnected parts moved over the line of action of a snap spring

hi will. After passing through the unstable equilibrium position, i. H. that position where the articulation point of the two mutually pivotable parts to lie exactly on or above the line of action of the spring

comes, the hinged part of the snap system jumps from its one to its other snap position. During this snap action, the second snap system moved overall with the snap link of the second Sehnappystein, however, passes through it not the full distance covered by the first snap link, as it runs up against the fixed contact beforehand The latter thus prevents the further movement of the second snap member while the first snap system covers the rest of the way there is consequently a relative movement of the first and the second snap member, due to which the latter also over the line of action of the second snap spring is pivoted. After passing through the unstable equilibrium position, it also jumps from its Rest in its switching position. In this position it rests against a rear part stop. At least there is the first, but preferably both snap springs are tensioned, so that after the actuation force has ceased, the The entire system is reset

When the first snap system moves back, the second snap element slides along this reset stop. Since, due to the reverse rotation of the first snap system, the .schnappende Part of the second snap system is rotated, there is also a relative movement between this part and its snap spring and thus also between the two parts of the second snap system. Of course, this runs in the opposite sense than during the switchover process. As a result the second snap member, which moves along the reset stop, is again over the line of action the second snap spring is pivoted until the snap-back process takes place. It jumps in the process against the attack on which it was originally applied. Both snap systems are now back in their starting position and the switch can be operated again. The swivel arm, the intermediate lever and the contact arm are preferably mounted on cutting edges. During the switching process, the intermediate lever snaps preferably against the pivot arm, while the contact arm moves away from the intermediate lever emotional

According to a further feature of the invention, the second snap member snaps in the opposite direction Sense of rotation as the first. So if the first snap link is clockwise during the switching process rotates, the second snap link jumps into its counterclockwise during this switching process Switch position.

According to a further embodiment of the invention, the first spring is designed as a tension spring, in particular a helical tension spring, and the bearing of the intermediate lever lies between the articulation points of this spring. Due to this arrangement and design of the spring, the free end of the pivot arm is pressed against the inner end of the actuating plunger and the intermediate lever is pulled against its one stop. The stops of the intermediate lever are conveniently arranged on the swivel arm, which results in a particularly simple and inexpensive construction Thickened ends on either side of the swivel arm. The abutting surfaces of the intermediate lever are so far apart that, taking into account the thickness of the swivel arm, the intermediate lever can perform its full snap-in movement.
According to a further feature of the invention, the third stop is integrally formed on the intermediate lever, in particular formed by two parallel bent tabs. This design also contributes to the cheaper production and simplification of assembly. The second spring is also used as a

ίο Train spring designed Another feature of the Invention is that the second spring seen in the direction of its line of action an approximately S-shaped, at an outwardly open one Is arranged longitudinal slot of the contact arm and at its inner end on the one hand and on the intermediate lever on the other hand is hinged, the bearing of the contact arm between the spring ends and the Spring is pivotable about its pivot point on the contact arm to the contact arm. In the end it is particularly advantageous that the second spring is made in one piece with the contact arm and the free, widened end opens at a cutting edge bearing that is open approximately against the contact arm bearing supported The advantages are both in the economic area and in the simplified assembly and dismantling. You can namely the contact arm together with the attached spring in a single Assemble the work step.

In the drawing, an exemplary embodiment of the invention is shown

F i g. 1 is a perspective view of an embodiment of the switch;

F i g. 2 the same switch longitudinally sectioned, the Fig. 3 to 6 schematically the snap systems in different switch positions.

The switch according to FIG. 2 essentially consists of the following individual parts. First, the plastic one manufactured switch housing 1 with the plunger 2 slidably mounted therein and, secondly, the pivotable at the inner end 3 of a terminal 4 mounted pivot arm 5. With the latter is an intermediate lever 6 pivotally connected, which by a spiral tension spring 7 in the in F i g. 2 is held position shown. At the Finally, intermediate lever 6 is pivotably applied to the contact arm 8, which the spring 9 is also in the position shown in FIG F i g. 2 holds the position shown The contact arm 8 carries the movable contact 10, while on the terminal 11 the fixed contact 12 is arranged. The pivot arm 5, the intermediate lever 6 and the

So spiral tension spring 7 form a first snap system 13. The swivel arm provides the first snap member A second step system 14 is provided with the aid of the intermediate lever 6, the contact arm 8 and the spring 9 The second snap link is therefore formed by the contact arm 8 is formed. Furthermore, you can use the spiral tension spring 7 as the first snap spring and the See S-shaped spring 9 as the second snap spring.

The loop-shaped end 15 of the pivot arm 5 encloses the T-shaped end 16 of the terminal

6 «4. This creates a blade bearing 17 for the swivel arm 5, which is drawn into this blade bearing 17 in the direction of the arrow 18 by the force of the first snap spring 7. By means of the plunger 2, the swivel arm 5 can move in the direction of the

hi arrow 19 pivoted about the cutter bearing 17 will.

On the pivot arm 5, two tabs 20 are formed, each of which has a blade bearing 21 for the inner

End 22 of the intermediate lever 6 carries. This inner end 22 is forked so that the first snap spring 7 can pass through it. Each fork prong is consequently supported on one of the tabs 20 or on one of the blade bearings 21 of these tabs. In its middle part, the intermediate lever also has a window-like recess 23 for the spring 7. The inner spring end 24 passes through this recess 23 and wraps around a web 25 of the intermediate lever 6. The outer spring end 26 is looped around a bolt 27 fixed to the housing.

On the intermediate lever 6 are also two parallel tabs 2? molded. They each also contain one Blade bearing 29 for the inner ends 30 of the contact arm 8, which is U-shaped in plan view. Am The crosspiece of this U is integrally formed at 31 one end of the S-shaped second snap spring 9. These The spring has a T-shaped configuration in plan view, the transverse web of the T being in the two bearings 32 the tab 28 is supported and thereby pulls the contact arm 8 against the other bearings 29 of these tabs. To the The contact arm 8 is supported in the rest position shown in FIG. 2 by two on the intermediate lever molded support tabs 33 pointing towards the contact arm. The support tabs 33 represent the third stop of the switch, while the first and second stops through the top 34 and bottom 35 of the S'hwenkarmes 5 are formed. On the upper side 34 is the one shown in FIG. 2 position shown ckr crossbar 36 of the H-shaped end 37 of the intermediate lever, while in the switching position of the other Η-bar on the underside of the swivel arm 5. At this point it should be mentioned that the switch is still has a fourth stop. This is formed by the inner housing wall 38. It is used for Support of the free end of the contact arm 8.

The operation of the switch is as follows. Starting from the position shown in Fig. 3 of Switch parts, the swivel arm 5 is swiveled in the direction of arrow 19 about its blade bearing 17. the Force is introduced by the plunger 2, which is pressed down in the direction of arrow 39. This pivoting movement 19 is of all movable parts of the switch, so both from the first and from second snap system carried out. At the same time, the first snap spring 7 is also tensioned. The intermediate lever 6 rests with its first stop on the upper side 34 of the swivel arm. In the course of the called pivoting movement, the second bearing 21 is against the line of action 40 of the first snap spring emotional. As soon as this bearing has been moved beyond the line of action, the intermediate lever 6 jumps in the direction of arrow 41 snapping against the swivel arm 5. At the end of this snap movement the second stop rests against the underside 35 of the swivel arm 5.

Due to the snap movement of the intermediate lever 6, the movable contact 10 is thrown against the fixed contact 12. Previously, the contact 10 only performed a snap movement around the pivot point 17 of the first bearing, which was of a significantly lower speed than this snap movement. When the movable contact 10 strikes the fixed contact 12, the intermediate lever 6 has not yet reached the end of its snap motion, since the second stop of the intermediate lever is still a certain distance from the underside 35 de. ¹ swivel arm. But because the contact arm 6 on the green of the adjacent contacts 10, 12 can no longer participate in the further pivoting movement of the intermediate lever 6 in the direction of the arrow 41, the intermediate lever 6 pivots relative to the contact arm 8 about the third bearing 29. The bearing 29 is located however, between the two spring articulation points 31.3; the second snap spring 9, which is why with the pivoting of the intermediate lever in the direction of the arrow 41, the line of action 42 of the second snap spring is pivoted via the third bearing 29 of the second snap system. Since the knife-edge bearing 29, 32 to as bearing 21 describe an arc, moving de ι ·> contact 10 on the counter-contact 12 schitbcnu. If this line of action 42 has been pivoted to the other side of the third bearing 2f via the unstable position, the contact arm 8 jumps in the direction of the arrow 43 against the switchover position jumps, the switch lever 6 also runs completely into its switchover position, with the second stop then resting against the underside 35 of the swivel arm 5. The time span from r> snap of the first snap system to the final changeover position depends on the design of the switch. It is extremely short and amount bf in the embodiment about two milliseconds.

The position shown in Fig. 4 snapping Teili

jo shows the unstable position of the second snap system

shortly before switching and the first snap system shortly before the end of the Umschiiappvorganges. I. In this figure, the contact arm i is also shown in dashed lines

its switching position is shown. Fig. 5 shows

Ji then put the switch in its toggle position all snapping and moving parts have come to rest.

Fig. 6 shows the two snap systems when returning to the starting position. After the actuation force has ceased, the first snap spring 7 exerts a restoring torque that rotates in the direction of the arrow Φ on the connected parts. Since the second snap spring 9 presses the contact arm 8 against the return stop 38, the contact arm is displaced during the first phase of the return rotation 44 i in the direction of the arrow 45 along the stop 3i. At the same time, however, there is also a relative pivoting of the contact arm 8 and the intermediate hebeis 6, so that the spring 9 is pivoted in the direction of the arrow 4t ϊο against the third bearing 29. After exceeding the in F i g. 6, the contact arm 8 jumps in the direction of arrow 4 (against the third stop 33 of the support tab; intermediate lever.
When the pivot arm 5 is turned back, the second bearing 21 is again moved over the line of action of the first snap spring. In this in the F i g. 2 and position shown all the parts are again in rest jedocl pushes the swing arm 5 against the plunger 2, provided ai the first catch spring 7 is still present a Restkral '>.

For this purpose 2 sheets of drawings

Claims (9)

Patent claims: 1. Switch for pulse contact with an actuator, plunger or the like, at least one Spring, as well as at least one fixed and one movable, od on a contact arm. arranged contact, characterized in that the switch is designed as a double snap switch, the second snap system (14) on the snap member (6) of the first (13) is arranged and that the second snap member (8) with the movable contact (10) during the Snap movement of the first against a stationary one, interrupting its movement and being The fixed contact (12) that triggers the snap system can be moved and, after snapping over, against a Reset stop (38) runs, with the reset stop running during the return movement of the first Snap system triggers the snap back movement of the second snap system, and that in particular the switch is activated by means of the plunger (2) in a first bearing (17) rotatable swivel arm (5) on which an intermediate lever (6) can be swiveled is mounted in a second bearing (21) which with one end (24) of a first spring (7) is connected, the other end (26) is hinged to a fixed point (27), the Line of action (40) of the first spring with a line connecting the articulation point (25) of the first Spring on the intermediate lever and the second bearing (21) forms an angle and the second bearing through the action line (40) of the first spring is pivotable and that the intermediate lever (6) is in its two switching positions on two different stops (34,35) so u a bearing (29) for the contact arm (8) carries, which in turn moves on a third movable with the intermediate lever Stop (33) is supported and under the action of a second snap spring (9), one end of which (31) engages the contact arm and the other end of which engages the intermediate lever (32) and whose line of action (42) forms an angle with the connecting line from the spring articulation point (31) on the contact arm (8) and its pivot bearing (29), the contact arm when the movable contact (10) hits the fixed contact (12) and the intermediate lever (6) moved further over the line of action of the second spring (9) is pivoted, and that a stop (38) fixed to the housing is arranged to support the contact arm in the switching position. 2. Switch according to claim 1, characterized in that the second snap member (8) in opposite sense of rotation snaps than the first (13). 3. Switch according to claim 2, characterized in that the first spring (7) as a tension spring, in particular spiral spring is formed and the bearing (21) of the intermediate lever (6) between the Articulation points (25,27) of this spring is located. 4. Switch according to claim 3, characterized in that the stops (34,35) of the intermediate lever (6) are arranged on the swivel arm. 5. Switch according to claim 4, characterized in that the pivot arm (5) has a push-through opening for the free end of the intermediate lever (6) and to form the alternately striking surfaces this end on this side and on the other side of the swivel arm is thickened (36.25). 6. Switch according to one of the preceding dependent claims 3 to 5, characterized in that that the third stop is integrally formed on the intermediate lever, in particular by two parallel bent tabs (28). 7. Switch according to one of the preceding dependent claims 3 to 6, characterized in that that the second spring (9) is designed as a tension spring 8. Switch according to claim 7, characterized in that the second spring (9) in the direction of their Seen line of action has an approximately S-shaped shape in an outwardly open longitudinal slot of the contact arm (8) is arranged and at the inner end of the slot (31) on the one hand and ann intermediate lever (6) on the other hand (32) is articulated with the I ager (29) of the contact arm (8) between the spring ends and the spring (9) can be pivoted about its articulation point (31) located on the contact arm transversely to the contact arm 9. Switch according to claims, characterized in that the second spring (9) is integral with the Contact arm (8) is made and the free widened end is approximately opposite to that Contact arm bearing (29) supported open cutting edge bearing (32)