DE3115339A1 - Electrical snap switch - Google Patents

Description

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Electrical snap switch

The invention relates to an electrical snap switch according to the preamble of claim 1. The The invention is applicable to such a switch in which a movable contact element is in a first position a pair of stationary contacts bridged and in a second switching position that pair of contacts is electrical disconnects and, if necessary, short-circuits a second pair of switching contacts. This switch is referred to here as called the first type of switch. Furthermore, the invention is also applicable to switches of the second type, in which a single stationary contact element is touched by the movable contact element in one position thereof, in a second position of the same but from this ». -electric is separated, the movable contact element in this second position on a second stationary contact element can apply. The following invention is mainly described using a switch of the first type, However, it should be emphasized that the invention can also be applied in the same way to switches of the second type is.

Such switches are sometimes called "quick switches" or Called "snap-action switches" and are used in protective circuits, monitoring circuits and the like. The reliability high demands are therefore made of such a switch. When using a switch the of the first type it is usually the case that the switch is normally closed, i.e. the movable contact element bypasses the fixed contacts, and the switch will open if there is any in the circuit Event occurs that makes it necessary to interrupt the circuit. It is therefore very important in such cases that the switch actually interrupts the circuit and that the interruption of the circuit does not thereby

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it can be prevented that, for example, the fixed contact elements and the movable contact element are welded to one another or the spring moving the movable contact element fails. A switch that can meet these conditions is described in DE-PS 19 35 225. This shows a switch which, even if the spring biasing the movable contact element fails, the movable contact element can still be moved away from the electrical contacts. In known switches, the sliding actuator which triggers the switch moves generally in the opposite direction to the movement of the movable contact element, with the result that movement-reversing devices, such as toggle levers, are required to produce this opposite direction of movement that is necessary is to lift the movable contact element from the fixed contacts. The present invention is based on the idea that a simpler and more reliable switch can be realized if the directions of movement of the actuating element and the movable contact element C-., The switch are in the same direction.

When applied to a switch of the first type, the invention provides an electrical snap-action switch with a pair of electrical contacts fixedly arranged in a housing and a movable contact element which is in a first position short-circuits the two fixed contacts to one another and, in a second position, the electrical connection between the fixed contact elements opens. A spring arrangement presses the movable contact element into either the first or into the second position and moves over a snap position. An actuator that is opposite to the Housing is movable, performs a movement that changes the line of action of the spring arrangement and the movable Contact element moved into the second position during normal operation of the switch ton of the first position. The effect

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movement of the actuating element is essentially the same as the movement of the movable electrical contact element away from the two fixed contacts to the second position. The action movement of the actuator simultaneously causes a forward movement of a movable stop, which in the abnormal case that the movable contact element is not moved from the first to the second position under the influence of the spring arrangement, grips the contact element and moves it from the first to the second position. The movable stop thus forms a mechanical safety element that moves in the same direction as the electrical contact element, when the switch is operated. Movement-reversing means are not available with this switch.

A switch (of the first type) according to the present invention preferably has another pair of stationary contacts. ιf, which are short-circuited by the movable contact element when it is in its second position. Since the The open circuit caused by the movable stop relates only to the first two contacts, but not to interrupt the circuit, which is closed via the second contacts, is effective This switch is used in practice so that the circuit that is particularly critical and therefore in each case must be interruptible, is closed via the first pair of contacts and uas movable contact element. The other Contact pair is available for a group with less critical requirements.

Applied to a switch of the second type, the invention provides a snap-action electrical switch with one Housing that includes a stationary contact and a movable contact element electrically connected to a terminal is connected to the housing and from a first

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Position in which it rests on the stationary contact element can be brought into a second position in which it is not rests on the first contact element. A spring arrangement presses the movable contact element either into the first position or to the second position, the movement being via a snap point between the first and the second position. The further features of this switch emerge from claim 1.

A switch of this type can optionally have a second fixed contact element on which the movable contact element Contact element rests in its second position.

In preferred exemplary embodiments which describe a switch of the first type, the invention is to be described in more detail below explained. A lever is pivotally mounted in the housing and the spring arrangement is between the lever and the movable contact element set and connected to this and the lever is gripped and pivoted by the Actuating element during its movement. The Scl-i. enkbuwegung the lever changes the line of action of the spring arrangement, which causes the contact element to move from the first position to the second position. In the second embodiment, which will be described later, the lever is mounted in such a way that it cannot tremble or bounce. Such a tremor occurs when the movable contact element assumes an unstable equilibrium position near the central position and below low contact pressure. In such a position, arcing can easily occur between the movable contact element and the fixed contact element. Such tremors are essentially prevented by that the switch is moved in two stages. In the first stage the lever performs a limited Sch '. · .-- ak- odor tilting movement with respect to the actuator as a result of this,

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that the line of action of the spring arrangement duxch the pivot axis of the lever moves. This limited pivoting movement of the lever takes the line of action of the spring assembly through the The pivot axis of the contact element, which then moves into the second position xv during the second movement stage. Once the actuator has been moved enough for the lever to perform this limited pivoting movement the switch switches in completely normal wvise. It is therefore unlikely that the switch will assume an L .- ^ o can, in which due to low contact pressure a trembling or bouncing of the movable contact element on the fixed contact element can take place.

Two preferred embodiments of an electrical snap switch according to the invention are to be explained in more detail below with reference to the drawings. Hs shows:

Fig. 1 is a plan view of a first embodiment of the invention;

Fig. 2 is a side view in section along the line II-II of Fig. 1;

Fig. 3 is an end view in section along the line IH-III of Fig. 2;

Fig. 4 to 6 partial representation in Fig. 2 in three different Operating positioneii;

7a to 7c an actuating element of the first embodiment from above, from the side and from the Front side;

8a and 8b show a movable contact element of the first Embodiment in plan view and from the Srite;

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9a and 9b show a spring of the first embodiment;

10 is a plan view of a second embodiment of the invention;

Fig. 11 is a side view in section along the line IX-IX of Fig. 10;

Fig. 12 is an end view in section along the line XII-XH of Fig. 11;

Fi j ¹ .. Π Ii is I 7 part 1 da rs te 11 im yen similar to FIG. 11 in different switch positions;

18a to 18c show an actuating element of the second Embodiment from different sides to

19a and 19b a contact element of the second export Form of the invention from above and from the side.

The first embodiment of an electrical snap switch 1 to 9 has a two-part housing, consisting of a base part 1 and a cover 2, both made of an electrically insulating material such as a melamine-phenolic resin. The base part 1 has a bottom 1 (Fig. 2 and 3) and therefrom upstanding Seitenwändc 4, which together define a cavity within whose cover 2 and the remaining parts of the switch are arranged. The base part 1 and the cover 2 are through a screw 5 connected to one another. The cover 2 is approximately cross-shaped when viewed from above (FIG. 1 ") and in the above formed four quadrants two pairs of electrical connections 6 and 7 are arranged. Each of the ports has a Clamping screw and a downward connection foot on which there is an electrical contact. That

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first pair of connections 6 forms a first pair of fixed contact elements 8, one of which is visible in FIG. 2, and the second pair of terminals 7 forms a second pair of fixed contact elements 9, one of which is shown in FIG. 2 is recognizable.

The main moving components of the switch consist of an actuating element 10 from an electrical one insulating material which is slidably disposed between the base part 1 and the cover 2, a movable Contact element 12 made of an electrically conductive material which is pivotably mounted in the cover 2, a serpentine shape curved leaf spring 13 which acts on the movable contact element 12 so that this is either the first Pair of fixed contact elements 8 or the second pair of fixed contact elements 9 bridged, a lever 14 made of steel strip, the lower end of which is pivotably mounted in a groove 15 of the cover 2 and whose end one ooures Anchoring point for the upper end of the spring 13 forms.

If one pulls the Fig. 3 and 8a as well as 8b towards - '. U, one sees, that the movable contact element 12 in the toilet iitlichen U-shaped is seen in the direction of the central "longitudinal axis of symmetry of the switch, i.e. in view of the plane indicated by the section line I1I-III in FIG. That Contact element 12 has legs 16 on both sides which stand upward from a connecting leg 17 and the upper edges 18 of which are pivotably received in aligned grooves 19 (FIG. 3) which are located in opposite directions Projections 20 of the cover 2 are formed. The pivot axis of the contact element 12 is shown in FIGS. 2 to 6.; Iit marked with the reference character P. The side legs 16 each carry opposing sides on both sides Contact rivets 22 for making electrical contact with the corresponding fixed contact elements 8 and

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As best shown in Fig. 3, the lever 14 has a substantially rectangular shape with two rope I projecting lugs 23 and an upward nose 24, ivelch the latter in an opening 21 CFig. 9a and 9b) engages in the upper end of the spring 13. The lower end of the spring 13, like the J ⁷ Ig. 9a and 9b show a nose 25 which engages in a recess 26 (FIG. 8a) in the lower end of the connecting leg 17 of the movable contact element 12. The spring 13 is a leaf spring which is bent in a serpentine shape in such a way that it presses the connecting leg 17 of the movable contact element 12 against the upper end of the lever 14, so that the contact element 12 is pretensioned.

The shape of the actuating element 10 can be seen from FIGS. 7a, 7b and 7c. The actuating element 10 consists of a center piece 27 with an elongated hole 28 for the passage of the screw 5 and a two-part end that during the Movement of the actuator to the right (Fig. 2) is in front. The division of this front end of the actuating element 10 forms two arms 29 arranged at a transverse distance, which form the corresponding transversely spaced surfaces 30 which act as movable stops. The arms 29 Wear! Furthermore, stop surfaces 32, which during actuation of the switch engage projections 23 formed at a transverse distance on the lever 14 and move the lever. the lower ends of the arms 29 form guides 33 which slide in guide grooves 34 in the bottom 3 of the base part 1 are trained.

A typical area of application for the switch is monitoring the position of machine circuit breakers such that when a circuit breaker is opened, the Koi .ict des Switch to open a monitoring circuit interrupt and prevent a machine from operating

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can be set. The rest position of the switch is therefore normally the closed position, ie the movable contact element 12 short-circuits the first pair of stationary contact elements 8. This state is shown in FIG. 2. In order to open the switch, the actuating element 10 is pushed to the right. This movement causes the surfaces 32 of the actuating element 10 to rest against the lever 14 and move it. Its lower end pivots clockwise in the groove 15. The pivoting movement of the lever 14 changes the position of the upper end of the spring 13 and therefore changes the line of action AA of the spring 13 Lines is shown. This tilted position is an unstable position in which the switch does not remain for a finite period of time, since the spring 13 tries to move the contact element 12 with a snap action, so that it moves with an arcuate movement over this tilted position to the right in Fig. 4 moves until it rests on the second pair of fixed contacts 9. The movable Kontaktelcment 12 is now in the position shown in Fig. 4 with dashed lines.

Should the contact rivets 22 of the movable contact element 12 be welded to the stationary contact elements 8, for example as a result of an earlier arc, or should the spring 13 fail, I! mn take hold the stop surfaces 30 of the actuating element 10 on

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Leg 17 of the movable contact element 12 at a transverse distance lying points and cause the contact element 12 from the first stationary contact elements is moved away. The two stop surfaces 30 of the actuation clamp IO thus form a movable stop that represents a mechanical safeguard that under the effect of the actuating element 10, the electrical connection between the contact elements 8 is interrupted in any case can be. During switching, the stop surfaces 30 move in the same direction as the contact rivets 22 of the movable contact element 12.

The line X-X in Figs. 2 and 4 to 6 indicates the vertical plane through the pivot axis P of the movable Contact element 12 runs. The line X-X can be used as a reference line when considering the longitudinal displacement and the Angular change of the line of action A-A of the spring 13 can be used.

Fig. 5 shows the switch after completion of the movement of the actuating element 10. The actuating element 10 must be in this position can be held if the switch is to remain in this state because the spring 13 exerts a force the HeI) Ol 14 exercises, which wants to move the actuating element 10 to the left in FIGS. 5 and 6, to the switch

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reset. Fig. 5 shows the relative positions of each individual Components when the contact element 12 is in its second position, in which it is the second pair of fixed Contact elements 9 bridged. Fig. 6 shows the switch when resetting, i.e. when the line of action A-A of the spring 13 runs straight to the left over the pivot axis P of the contact element 12. After the contact element 12 to contact with the first fixed contact elements 8 snap back is, it assumes the state shown in Fig. 6 with dashed lines. The actuator 10 moves then further to the left under the influence of the spring 13 until the state of rest according to FIG. 2 is reached again.

The lever 14 can also be omitted. In this case, the upper end of the spring 13 must be attached to the actuating element 10. In this case, however, the force of the spring 13 increases Friction during the sliding movement of the actuator 10, so that the use of the lever 14 is advantageous.

A second embodiment of the invention will now be described with reference to FIGS. In the Figs. 10 to 19 are the switch after the J-'ig. 1 to 9 Equivalent components are provided with the same reference numbers increased by 100. The second embodiment of the invention has a housing which consists of a base part 101 and a cover 102. These parts are similar to their respective counterparts Parts 1 and 2 of the first embodiment designed. As

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previously the base part 1 and cover 2 are by means of a screw 105 are attached to each other and the switch has a first pair of terminals 106 and a second pair of terminals 107. The first pair of terminals 106 are in electrical communication with a first pair of stationary contact elements 108. One of these contact elements can be seen in FIG. 11. The second pair of terminals 107 are associated with a second pair fixed contact elements 109 in electrical connection, one of which is visible in FIG. 11 is. The movable contact element 112 is again U-shaped (FIGS. 12 and 19a), consisting of two lateral legs 116 with top edges 118 lying in the same line, which are shown in transversely spaced grooves 119 (Fig. 12) of the lid 102 are supported, and a connecting leg. The side thighs 116 of the movable contact element 112 are held in their grooves 119 by a pin 50 in each case. With P is the pivot axis of the contact element 12 in the grooves 119 designated.

Instead of the flat lever 14, the second embodiment has a lever 114 that is similar to that shown in FIG. 11 Profile is curved. The serpentine leaf spring 13 of the Fig. 1 to 9 is in the second embodiment a leaf spring 113 replaced, the substantially C or Is bent in a U-shape. The corresponding legs of the spring 113 are on the connecting leg 117 of the movable contact element 112 and attached to the lower end of the lever 114. At an intermediate point along its length, the lever 114 transversely protruding sections 52 (Fig. 12), whose upper edges arranged in the same line can be pivoted into corresponding grooves 53 are located, the ir cover 102 are trained. The pivot axis of the lever 114 in the grooves 53 is denoted by R in FIGS. the Lying in the same line lower edges of the projecting portions 52 of the lever 114 form edges on which the

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one leg of the spring 113 rests against the switch during the movement is pivoted. The spring 113 pushes the lower end of the lever 114 of the connecting leg 117 of the movable Contact element 112 away.

The shape of the actuating element 110 is best shown in FIGS. 18a to 18c. The actuator 110 again has a central part 117 provided with an elongated hole 128 with two legs projecting transversely therefrom, the stop surfaces 130 train the front in the direction of movement lie. A central, upwardly extending projection 54 terminates in an anvil-like nose 55, which serves to the to hold one end of a helical compression spring 56, which is clamped between the actuating element 110 and the housing cover and is used to push the actuator 110 to the left (Fig. 11) to reset the switch. Of the middle projection 54 also forms a groove 57 accessible from below, into which the upper end of the Lever 114 protrudes.

In the rest position of the switch, which is shown in FIG is, the movable contact element 12 bridges the first stationary contact elements 108. In this first position of the movable contact element 112, the line of action of the spring 113 runs along the line A-A in Fig. 11. Di ·. · Spring 113 therefore holds the movable contact element 112 in this Rest position and also holds the lever 114 so that the upper one End on the left side of the actuator 110 in the groove 57 rests. When the actuator 110 after is moved to the right, then the lever 114 pivots clockwise, until it has reached the position shown in FIG. In this position the action

line AA of the spring 113 through the pivot axis R of the lever IM in the grooves 53 and the switch bep .. int in this

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Moment to switch. As in the example shown in Fig. 4, the state shown in Fig. 13 is not stable, but only an intermediate state during the switching process.

As soon as the line of action AA of the spring 113 runs to the left side of the pivot axis R of the lever 114, the lever 114 pivots about its axis R to a limited extent which is determined by the play of its upper end in the groove 57. This limited pivoting movement of the lever 114 causes the line of action of the spring 113 to ^{move into the line A'-A 1} in FIG. This movement of the line of action of the Fe.'er 113 is sufficient to move the line of action of the spring 113 d. : ch to take along the pivot axis P of the contact element 12 in the cover 102, with the result that the contact element 112 snaps over into the alternative or second position in which it bridges the second pair of stationary contact elements 109. In this position, the line of action of the spring 113 is shown with AA in FIG. The switch is switched in the aforementioned manner in two stages. During the first switching stage, the lever 114 experiences the limited pivoting movement in order to change the line of action of the spring 113 so that it is moved by the pivot axis ν of the contact element 112, during the second stage the contact element 112 moves with a snap movement into its second position . This two-stage movement has the consequence that it is extremely difficult to generate trembling or bouncing movements on the contact element, ie the movable contact element always rests firmly on stationary contact elements except for the moment of snapping.

After switching over, the components assume the positions which are shown in FIG. The movable contact element 112 should be welded to the first contact elements 108 be or should be the spring 113 or. ^ er lever 114

Have failed, then the stop surfaces 130 of the act Actuating element 110 as a mechanical safety mechanism, the stop surfaces 130 lie against the contact element and move it so that it is more fixed from the first pair Contact elements 108 / eg is moved. As with the first embodiment move these stop surfaces 130 in the same direction as the contact rivets 122 during the normal switching of the movable contact element 112.

Fig. 15 shows the relative positions of the components after the actuating element 110 has carried out its full movement and the movable contact element 112 to the second fixed contact elements 109 has applied. (In the To reset the switch, the actuator is left under the influence of the helical compression spring 56 to the left slide and Fig. 16 shows the situation shortly before resetting of the switch, where the line of action A-A of the spring 113 passes through the pivot axis R. When this happens, move the lever 114 counterclockwise (Fig. 16), jm das Play between its upper end and the left surface in the groove 57 to be included. This movement of the lever 114 moves the line of action of the spring 113 through the pivot axis P and brings the contact element 112 to snap over the first stationary contact elements 108. After snapping back, the contact element 112 takes the one shown in FIG Position a, after which the actuator 110 its sliding movement to the left under the influence of the expanding Helical compression spring 56 is completed until the rest position shown in Fig. Is reached. In both embodiments, the pivotable components are designed so that that there is a pure pivoting movement on a narrow ßerührungslinie the mutually pivotable parts results without sliding movement in order to keep friction and wear on the pivot axis low - In both embodiments there are clear front contacts, i.e. the id. siiktf lache

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"24- 311-

lies transversely to the direction of movement. There is no frictional movement between the electrical contact surfaces.

Both embodiments of the invention are described with reference to a first type of switch, i.e. one which in which the movable contact element has a first pair of fixed contacts in the first position of the switch shorts. As already explained at the beginning, the invention can also be implemented with a switch of the second type which has only two or three connections, one of the connections with the movable contact element connected is.

This is the type of switch with only two connections the first terminal is permanently connected to the movable contact element and the second terminal is electrical connected to a fixed contact of the switch. In the first position of the movable contact element if this lies against the stationary contact element, while in the second position it is not in electrical connection is with the first contact element. This switch can be viewed as a simple single pole breaker, which is closed in the rest position.

A three-terminal switch of the second type has two fixed contact elements, which with two of the connections are connected, and a third connection which is constantly connected to the movable contact element is. In the first position of the movable contact element, an electrical connection is established between the first stationary one Contact and the movable contact element made, while in the second position an electrical connection between the second stationary contact element and the movable contact element is made. This switch is a toggle switch, with one of the switch positions is a rest position.

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Claims (1)

Expectations 1.) Electrical snap-action switch with a housing that has a fixed electrical contact element carries, a movable contact element that is electrically connected to a electrical connection element is connected to the housing and between a first position in which it is attached to the fixed contact element is applied and an electrical connection is established between the and the connecting element, and a second position in which it does not bear against the stationary contact element, is movable a spring arrangement which presses the movable contact element into either the first or the second position, at what movement a snap position was overcome must be, and an actuating element which is movable relative to the housing and an effective movement learns that changes the line of action of the spring arrangement to the movable contact element in the normal Operation of pushing the switch from the first position to the second position, characterized in that that during the movement, the actuating element (10; 110) moves in a direction which is essential BATH ORIGINAL MUNICH: TELEPHONE (Ο8Θ) 238080 CABLE: PROPINDUS TELEX O5 24 244 BERLIN: TELEPHONE (O3O) 831 2OBB CABLE: PROPINDUS -TELEX OI 84057 is the same as the movement of the contact element (12; 112) in the direction of its second position, and that the movement of the actuating element (10; 110) an advance of a movable stop (30; 130)) in this Direction causes which in the unusual case that the contact element (12; 112) is under the influence of Spring arrangement (13; 113) not out of the first position moved into the second, to the contact element (12; 112) attacks and this moves from the first to the second position. 2. Electrical snap-action switch with a housing that has a first fixed and a second fixed contact element carries, a movable contact element which is electrically connected to an electrical connection element on Housing is connected and between a first position in which it rests against the stationary contact element and establishes an electrical connection between this and the connecting element, and a second position, in which it rests against the second contact element and an electrical connection between this and the connection element produces, is movable, with a spring arrangement, which the movable contact element either in the first or the second position presses, in which movement a snap position must be overcome, and an actuating element , * - which is movable with respect to the housing and experiences a movement that the line of action of Spring arrangement changed to the movable contact element in normal operation of the switch from the first position to press into the second position, characterized in that during the movement the actuating element (10; 110) moves in a direction substantially the same as the movement of the contact element (12; 112) of the actuating element (10; 110) an advance of a movable stop (30; 130) in this direction. BATH ORIGINAL ^: "- ■ ■■ - 311533 calls, which in the unusual case that the Kontaktelomcnt (12; 112 ") is under the liinfluss of the spring arrangement (Ί3; 113) not from the first position moves into the second, engages the contact element (12; 112) and moves this from the first to the second position emotional. 3. Electrical snap-action switch with a housing which carries at least one fixed contact element pair, a movable contact element which is between a first position in which it electrically connects the fixed contacts to one another and a second position in which it connects the contacts of an optionally second fixed contact element pair electrically connected to one another, is movable, with a spring arrangement which presses the movable contact element into either the first or the second position, in which movement a snap position must be overcome, and an actuating element which is movable relative to the housing and experiences an operative movement which the line of action of the spring arrangement changed to the movable contact element · in normal operation of the switch from the first position to the two ι e pressing position, characterized in that during the movement of the ^"j -Betä actuating element 00; 110) moves in a direction substantially the same as the movement of contact element 02; 112) in the direction of its second position, and that the movement of the actuating element (10; 110) causes an advance of a movable stop (30; 130) in this direction, which in the unusual case that the Kontakteleiik'nt (12; 112) under the influence of the spring arrangement (15; 113) does not move from the first position into the second, acts on the contact element (12; 112) and moves the ^ s from the first to the second position. Q ι "\ ζ ο? Ο 1. Switch according to one of claims 1 to 3, characterized in that that the movable contact element (12; 112) is arranged pivotably in the housing (I, 2; 101, 102). 5. Switch according to claim 4, characterized in that a lever (14; 114) is pivotably mounted in the housing (1, 2; 101, 102), the spring arrangement (13; 113) between the Lever (14; 114) and the movable contact element (12; 112) is connected, the lever (14; 114) of the actuating element (10; 110) can be grasped and pivoted during its movement, and that the pivoting of the Lever (14; 114) changes the pressure direction of the spring arrangement (13; 113) to the contact element (12; 112) move from the first to the second position. 6. Switch according to claims 4 or 5 and 3, characterized in that the movable contact element (12; 112) is essentially U-shaped, seen in the direction of movement, with two side legs (16; 116) which face upwards stand and are connected to one another by a connecting leg (17; 117) that the sides .chenkel (16; 116) aligned upper edges (18; 118) which form the tilting edges around which the contact element (12; 112) in the housing (1, 2; 101, 102) tilts, and that the lower areas, the side legs (16; 116) K -'- ntakt feet (22; 122) wear that with the fixed contacts (8, 9; 108, 109) can be brought into electrical connection, and that the spring arrangement (13; 113) with its one end is attached to the connecting leg (17; 117) of the contact element (12; 112). 7. Switch according to claims 5 and 6, characterized in that the lower edge of the lever (14) is pivotable in the housing (1, 2) is mounted and that the other linden of the spring arrangement (13) with an upper Edge of the lever (14) is connected and the spring BATH ORIGINAL arrangement (13) the connecting leg (17) of the contact element (12) presses against the upper edge of the lever (14) to preload the contact element (12). 8. Switch according to claim 6 or 7, characterized in that the end of the actuating element (10) which during the movement lies in front; is split in two and has two arms (29), which are arranged transversely on corresponding sides of a central recess, im Have transversely spaced surfaces (30) which form the movable stop and which, in the abnormal Case that the contact element (12) is not of the spring arrangement (.Li) from the first to the second 3 Lei development is pressed, the connecting leg (17) of the contact element (12) grips at transversely spaced locations, 9. Switch according to claim 8, characterized in that the Arms (29) also have transversely spaced surfaces (32) which grip and move the lever (14), uiü to operate the switch * 10. Switch according to one of the preceding claims, characterized in that the spring arrangement is a leaf spring (13), which is curved in a serpentine manner. 11. Switch according to one of the preceding claims, characterized in that after the switch, the spring arrangement (13) pushes the actuating element in a direction opposite to the previous direction of movement. 12. Switch according to claim 5, characterized in that it can be switched in two stages, the first of which is the lever (114) a limited pivoting movement with respect to the housing (101, 102) and the actuating element (110). BAD ORIGSNAL 17. Electrical snap-action switch with a housing in which two pairs of fixed electrical contact elements are arranged, a movable contact element, which is between a first position in which there is the contact elements of the first pair electrically connects to one another, in a second position in which it the contact elements of the second pair electrically connects to one another, is pivotable, a spring arrangement which the movable contact element pushes into one of the two (end) positions and which is during the movement of the movable contact element moves over a snap position that is located between the end positions, and an actuating element which is slidably guided on the housing and performs a sliding movement, which changes the line of action of the spring arrangement in such a way that thereby the movable contacts lenient from the first is pivoted into the other (end) position, thereby characterized that during the shifting movement the Actuating element (10; 110) moves on a rectilinear path in a direction which is substantially the is the same as that of the movable contact element (12; 112), and that the movement of the actuating element (10; 110) causes a movable stop to move forward in the same direction as that Stop of two surfaces (30; 130) on the actuating element (10; 110) is formed and the abnormal case that the contact element (12; 112) is not under the influence of the spring arrangement (13; 113) should be pivoted from one position to the other so that the co-contact element (12; 112) and takes it from one position to the moved others. 18. Switch according to one of the preceding claims, characterized in that the movable contact element (12; 112) on one or more fixed (contact (s) leads as a result of the line of action of the spring arrangement (113), which moves through the pivot axis of the lever (114) and that the limited pivoting movement of the lever (114) the line of action of the spring arrangement (113) by the Pivot axis of the contact element (112) takes along, which is then in the second movement step in.die second Position moved. 13. SchaJtor according to claim 12, characterized in that the lever (114) pivotable in the housing (101), 102) in a middle position between the upper and lower Ends of the lever (114) is mounted that an upper end of the movable contact element (112) is pivotable is mounted in the housing (101, 102), the spring arrangement (113) is connected to the lower end of the lever (114) is and the lower end of the contact element (112) pushes away from the lower end of the lever (114) that the upper The end of the lever (114) is received with play in a groove or recess (57) in the actuating element (110) and that the play allows the lever (114) to perform the restricted movement. 14. Switch according to claims 12 or 13, characterized in that that the spring arrangement is formed by a U- or C-shaped leaf spring (113), the ends of which are attached attached to the lever (114) or to the contact element (112) are. 15. Switch according to one of claims 12 to 14, characterized in that the actuating element (110) the Influence of a return spring (56) is subjected, which it in a direction opposite to the actuation Pushes direction for the purpose of resetting. 16. Switch according to one of the preceding claims, characterized in that the actuating element (10; 110) can be moved in a straight line. BATH ORIGINAL 3115233 (8, 9; 108, 109) strikes forehead to forehead and the contact surface (s) essentially perpendicular to the Direction of movement of the contact element (12; 112) runs.