EP0650636B1 - Electrical snap-action switch - Google Patents

Abstract

To create a snap-action switch (1) that provides separate solutions for the mechanical function of "switching" and the electrical function of "contact bridging", the snap-action element (4) is designed as one piece made of round wire and a contact element (5) is held within the snap-action element (4).

Description

The present invention is based on an electrical snap switch according to the preamble of the main claim.

Snap-action spring mechanisms are in a wide variety of designs known. The common goal is the actual switching speed, the shifting force and the shift travel independently make of the operation of the switch.

EP-A-0 329 847 (DE 3807411 A1) describes a snap-action switching element according to the preamble of claim 1, in which a contact bridge over a straight in the housing Slider is operated. The slider in turn is over a snap spring mechanism by means of a spring-loaded Plunger activated, again in the slide on both sides Engage the rocker arm. The effort for the separation of functions is considerable and leads to a complicated structure.

Has many other embodiments of snap springs a design is becoming increasingly prevalent, as is the case in DE 3236255 A1. A snap spring with an in a spring-loaded tongue is supported by Plunger actuated, each on the two outer legs of the Snap spring act. The current flows from the storage at the clamped end over the outer legs of the spring and from the spring tongue bearing to the spring tongue Contact points.

DE 3438304 A1 shows a double snap spring of the aforementioned Design, with the spring in the middle between the switching function areas is stored. Flat switching tappets actuate the individual snap springs on the outer legs of the Feather.

DE 38 01 991 C2 shows a toggle switch with two integrated Snap-action elements that depend on the position of the rocker arm can be operated. Appropriate plungers act each on the two outer legs of the snap-action switching elements, whose spring tongues are clamped in support bearings under pre-tension are. The current flows from the storage at the clamped end over the outer legs and from the spring tongue bearing over the spring tongue to the contact head. To be sufficient To ensure contacting, only one point of the crowned must Contact head with the mating contact.

DE 4003241 C2 shows a pressure switch with an integrated one Snap spring.

In addition, EP 0 074 004 A2 is a pressure switch known, arranged in the housing two fixed contact points are connected by a contact bridge. A Actuator acts on the contact bridge via a bow spring. The forward stroke is made using round wire Bow spring triggered a snap effect to a defined Switching behavior and a satisfactory contact achieve. The return stroke takes place by means of an additional compression spring, without which a return stroke could not take place. At this The switch shows the type of return stroke from actuation dependent switching behavior. The contact bridge and the bow spring are not in direct operative connection, so that the switching behavior is influenced by several tolerances and only in this Frame is defined.

For all switch types equipped with the aforementioned snap springs is made from spring bronze as the starting material for the spring or copper / beryllium alloy sheet. On the one hand, the requirement is made of the spring material good conductivity and on the other hand are spring-friendly high mechanical properties expected. Doing so Thickness tolerances and surface quality of the primary material as well as burr freedom of the finished stamped part very high requirements posed. These, in principle, contradictory material requirements with regard to mechanical switching behavior (spring action) and good electrical conductivity inevitably lead to the constructive design of the aforementioned snap springs Compromise. Because of this constraint, considerations go to separate switching and conductor functions. This is the Possibility given, both functional areas after the optimize actual needs.

The object of the invention is to provide a switch with a snap spring effect to create separate solutions for mechanical Function "switching" and the electrical function "contacts bridging "involves, by design and choice of the materials an extremely favorable overall result in terms of functionality, small number of parts and high Ease of assembly should be achieved.

According to the invention the object is achieved in that the Snap-action switching element made in one piece from a round wire and that the contact element within the snap switching element is gimbaled.

Instead of the leaf spring known from the prior art occurs a round wire spring bent from spring steel. The power supply when switching does not take place over certain areas Spring, but by bridging two contact points through a contact bridge mounted in the round wire spring. The contact bridge is slightly gimbaled in the wire spring, what safe contact guaranteed. Instead of a round one Contact bridges can also be oval, elongated contact bridges be used if there is a larger contact distance between the Contact points require this constructively.

The mounting base required for a leaf spring Conductor material is omitted, the wire spring is stored through a base that is part of an existing one anyway Isolierstoffgehäuses, which is also the purpose of Switching points to be contacted, e.g. B. in the form of Conductor tracks, carries. The conductor tracks can be made of round or with flat wires or printed conductor tracks There are contact rivets.

The snap switching element is actuated by a plunger, that act on the outer legs of the spring. So it is possible, all common switching principles such as pressure, rocker, Sliding, pulling, turning and tilting operation to be realized under With the help of commonly known mechanical aids such as Lever, angle lever, inclined plane, cam, eccentric, Knob disk and the like.

The three-dimensional design and the preloaded bearing of the snap-action element cause pressure to be exerted the outer legs an expansion of the contact element holding spring parts. To ensure that the position of the Contact element even during the operation of the Snap switching element is held upright in Dependence on the design of the spring for this different possible solutions that result from the subclaims 4 to 8 emerge. On the one hand, additional holding means can be used can be arranged, on the other hand, the actual geometry of the snap switching element can be changed.

With a fixed geometry and fixed external dimensions, the spring force relatively easily by changing the Spring wire diameter vary. The use of spring steel instead of copper / beryllium leaves with the same stress naturally a much smaller design. A Adjustment of actuation forces and travel is complete To achieve displacement of the plunger on the spring legs.

Further advantageous refinements of the subject matter of the invention are specified in the subclaims.

Figur 1

zeigt eine perspektivische Teilansicht eines Schnappschalters.

Figur 2

zeigt eine perspektivische Ansicht eines zweiten Ausführungsbeispieles des Schnappschaltelementes.

Figur 3

zeigt eine perspektivische Ansicht eines dritten Ausführungsbeispieles des Schnappschaltelementes.

Figur 4

zeigt eine perspektivische Ansicht eines vierten Ausführungsbeispieles des Schnappschaltelementes.

Various exemplary embodiments of the invention are explained in more detail with reference to FIGS. 1 to 4.

Figure 1

shows a perspective partial view of a snap switch.

Figure 2

shows a perspective view of a second embodiment of the snap-action switching element.

Figure 3

shows a perspective view of a third embodiment of the snap-action switching element.

Figure 4

shows a perspective view of a fourth embodiment of the snap-action switching element.

An electric snap switch 1, the general in advance described type, z. B. NC / NO contacts mainly together from a housing 2, one in the housing 2 slidably guided actuator 3, the one Actuator 3 associated snap switching element 4, one Contact element 5, and at least two current-carrying Contact points 6 and 7. To the in this snap switch 1 realized arrangement also includes a carrier 8, the Is part of the housing 2. The snap switching element 4 is a curved round wire spring with a side 9 in one Bearing 10 of the carrier 8 is added. From one opposite side 11 projects an upwardly curved U-shaped Spring 12 into the snap-action switching element 4, which is in another bearing 13 of the carrier 8 under lighter Preload is supported. The spring 12 is preferably as wide designed as there are side legs 14 and 15 of the frame-like Allow snap switch element 4.

In the rear area 16 of the spring 12 are the inner legs 17 and 18 slightly semicircular to the outside To record contact element 5 with its circumferential annular groove 19. The annular groove 19 is somewhat wider than the wire diameter D. formed, whereby the contact element 5 a gimbal Storage receives. The contact element 5 is installed by an opening 20 in the snap switching element 4, by this at Pressing the contact element 5 is opened slightly springy, until the contact element 5 has reached its position. The Contact element 5 is for manufacturing reasons mainly round, but can also be in the area of its spherical contact surfaces 21 and 22 elongated and / or oval run when e.g. B. larger contact distances or Clearance of the conductor tracks make this necessary. In this Case is a housing side not shown here Protection against rotation necessary. The contact surfaces 21 and 22 can be straight on one or both sides or crowned as shown be carried out.

The contact element 5 acts in the dashed switching position as a bridge and closes the contact between the contact points 6 and 7, executed in the example with round wires Conductor material provided in the housing 2 Wells 23 and 24 lie and in a manner not shown being held. They are part of the internal switch Wiring.

The snap-action switching element 4 is open on its side 9. In order to the lateral legs 14 and 15 are not under stress can move out of the bearing 10, are on both sides in Housing 2 guide elements 25 and 26 provided.

The transmission of one from the outside to the snap switch 1 in the simplest case, the force applied is not by a force pushbutton, in which the actuator 3 is integrated. The provision is made via the Snap-action switching element 4 itself. Other actuation options of the guided in the part of the housing 2, not shown Actuator 3 are of course levers and angle levers as well Rocker, slide across the direction of actuation with wedge or Tapered elements, cam or eccentric discs.

In the illustration according to FIG. 1, the snap switch 1 works from an upper rest position as a closer when in the dashed position is switched, vice versa as a break contact. Also in the upper position, two are not closer illustrated conductor tracks instead of an insulated one Contacted point of contact, there is a changeover function.

Figures 2 to 4 are limited to the representation of the Snap-action switching element 4 and show variants that Actuation of the snap switching element 4 a possible Counteract spreading of the lateral legs 14, 15. The frame-like, curved construction to promote the Snap effect briefly leaves one under pressure outward movement of the lateral legs 14, 15 to, so that the storage of the contact element 5 meanwhile is undefined.

The inner legs 17, 18 of the snap-action switching element 4 according to Figure 2 are after assembly of the contact element 5 with a Bracket 27 held together. The bracket 27 supports the constricting effect of the spring 12 between the contact element 5 and Depository 13.

3 shows a wire section 28 on both sides of the opening 20 attached to the side 11 of the snap-action switching element 4. The Connection between the wire section 28 and the Snap-action switching element 4 is rigid and can be used Welding, soldering, crimping or similar permanent Fastening methods are done. The is advantageous Wire section 28 only part of a long wire 29 on which further snap-action switching elements at defined intervals 4 are arranged. A means of organization and transport arises, so that the otherwise existing loose arrangement of Snap switching elements 4 is avoided. Just before the snap-action switching element 4 is made of wire 29 Cut.

Another variant of the snap-action switching element 4 is shown in FIG 4 shown. The inner 17, 18 and outer legs 14, 15 cross each other once, so that the actuation of the Snap-action switching element 4 then causes a constriction the opening 20 results. The contact element 5 is thus always stored safely.

Reference list

1

Snap switch

2nd

casing

3rd

Actuator

4th

Snap switch element

5

Contact element

6

Contact point

7

Contact point

8th

carrier

9

page

10th

Depository

11

opposite side

12th

feather

13

Depository

14

side leg

15

side leg

16

the backstage area

17th

inner thigh

18th

inner thigh

19th

Ring groove

20th

opening

21

Contact surface

22

Contact surface

23

deepening

24th

deepening

25th

Guide element

26

Guide element

27

Bracket

28

Wire section

29

wire

D

Wire diameter

Claims (10)

1. Quick-break electrical switch with a housing (2) and with a contact element (5) which connects two contact points (6, 7) fixed to the housing and is movable between two switch positions and which can be transferred from one switch position to the other switch position by an operating member (3) acting on a quick-break switch element (4) and guided in the housing (2), wherein after transfer of the quick-break switch element (4) from one to the other switch position, the quick-break switch element (4) is returned to the original switch position by the quick-break switch element (4) automatically, characterised in that the quick-break switch element (4) is made in one piece from a round wire and in that the contact element (5) is gimbal-mounted within the quick-break switch element (4).
2. Quick-break electrical switch according to claim 1, characterised in that the round wire is made of spring steel.
3. Quick-break electrical switch according to claim 1 or 2, characterised in that the quick-break switch element (4) is bent like a frame, wherein one free side (9) is held in a bearing point (10) of a carrier (8), and from an opposite side (11) an upwardly curved U-shaped spring (12) extends into the quick-break switch element (4), which spring is supported in a further bearing point (13) of the carrier (8) with slight bracing.
4. Quick-break electrical switch according to claim 3, characterised in that the contact element (5) is held between inner arms (17, 18) of the U-shaped spring (12).
5. Quick-break electrical switch according to either of claims 3 or 4, characterised in that lateral arms (14, 15) of the quick-break switch element (4) are prevented from splaying.
6. Quick-break electrical switch according to claim 5, characterised in that a clip (27) is arranged around the inner arms (17, 18) of the U-shaped spring (12) between the bearing point (13) and the contact element (5).
7. Quick-break electrical switch according to claim 5, characterised in that on the side (11) of the quick-break switch element (4) opposite the free side (9), on both sides of the opening (20) of the U-shaped spring (12), is mounted a wire section (28).
8. Quick-break electrical switch according to claim 3, characterised in that the contact element (5) is held between lateral arms (14, 15) of the quick-break switch element (4) and the inner arms (17, 18) of the U-shaped spring (12) cross the lateral arms (14, 15).
9. Quick-break electrical switch according to any of claims 1 to 8, characterised in that the contact element (5) is round with a contact surface (21, 22) crowned on one or both sides.
10. Quick-break electrical switch according to any of claims 1 to 9, characterised in that in the housing (2) are formed guide elements (25, 26) for the quick-break switch element (4).

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