EP0708464B1 - Electric switch - Google Patents

Description

The invention relates to an electrical switch according to the Preamble of claim 1.

Such switches can be single or multi-pole occurrence. They are considered especially when it comes to electric hand tools Mains switch inserted.

From DE-OS 40 11 875 is an electrical switch known in which two contact systems in one housing are arranged. A is used to switch the contact systems Actuator that can be actuated against a compression spring. The Contact system consists of a seesaw-shaped, on a as Contact-bearing cutting edge rotatably mounted Contact bridge and one with the contact bridge interacting fixed contact. Switching the Contact system is created by means of a Resetting force movable towards the contact bridge on Actuator arranged actuating cam Actuation of the actuator is effected.

With this switch, the actuator has in the upper Area on a shot in which the actuation cam under Action of a compression spring is guided horizontally. In the Operating the actuator can lead to management problems of the actuating cam, which can jam. In such a case there is no switchover of the Contact system instead. In addition, the manufacturing and assembly of recording and actuation cam complex.

The invention has for its object the arrangement of Actuating cam on the actuator in such a Simplify switches and improve their operational safety increase.

This task is accomplished with a generic switch solved the features of claim 1.

Further refinements of the invention are the subject of Subclaims.

So the contact bridge of the contact system as a two-armed Lever be formed, with a first lever arm switching contact interacting with the fixed contact is arranged. The is in the unactuated state Actuation cams on the other second lever arm. In the area there is a nose between the two lever arms with which the actuation cam when switching the contact system in the kind of a pressure point cooperates. The the Actuating cam-bearing arm can act as a one-armed lever be formed, the fulcrum of the bearing is formed on the actuator. The actuation cam is on the arm at such a distance from the bearing arranged that this just in the unactuated state second lever arm of the contact bridge.

The bearing point of the arm on the actuator can by a in a slot engaging pin are formed, wherein the elongated hole is larger in cross section than the tenon is trained. This allows the arm to operate in addition to the pivoting movement, a movement in the direction of the actuator. This causes a kind of Cascade effect on, causing an increase in contact force with abrupt contact force build-up between the switching and Fixed contact is achieved when switching the contact bridge.

Is it a two-pole switch with two contact systems arranged side by side in the housing, see above it makes sense, the two on the actuator arranged arms by one at the of the bearing to connect the opposite side strut so that a U-shaped fork is formed on which the Actuation cams. All it takes is one compression spring acting on the cross strut for generation the restoring force. This will increase the number of parts reduced and cost savings for the switch. It can be advantageous if the U-shaped fork is a has certain transverse elasticity, which means tolerances in the Contact systems can be balanced.

The advantages achieved with the invention exist especially in that the guidance of the actuating cam is improved in the actuation. Even with enlarged ones Manufacturing tolerances are tilting or jamming of the Actuating cam effectively prevented, with which the Operational reliability of the switch with extensive Insensitivity to dust is increased. It also simplifies the assembly of the contact system for the switch. This leaves the switch according to the invention is also less expensive produce.

The lifespan is also increased. The Contact system is even for slow ones Actuation speeds suitable because of the contact force is suddenly built up due to a cascade effect. In addition, a burn on the contacts and a this causes premature failure of the switch prevented.

The contact system in the switch according to the invention can be miniaturize and still assemble easily. Especially Power tool switches can be larger Inrush current peaks caused by the inductance of the Electric motor are caused, even with reduced Contact surface without welding or damaging the Contacts are managed. Consequently, the switch can overall have smaller dimensions. In addition, at multipole switches the number of parts for the contact systems reduced, which in turn is less expensive to manufacture of the switch means.

Embodiments of the invention are in the drawings are shown and are described in more detail below.

Fig. 1

einen Längsschnitt durch einen elektrischen Schalter, wobei sich der Schalter im unbetätigten Zustand befindet,

Fig. 2

einen teilweisen Längsschnitt ähnlich wie in Fig. 1, wobei sich der Schalter jedoch im betätigten Zustand befindet,

Fig. 3

eine Kontaktbrücke des Kontaktsystems in Seitenansicht,

Fig. 4

die Kontaktbrücke in Draufsicht,

Fig. 5

ein Diagramm zur Kontaktkraft für den elektrischen Schalter,

Fig. 6

einen Querschnitt entlang der Linie 6-6 in Fig. 1 für einen zweipoligen Schalter und

Fig. 7

das Betätigungsorgan des zweipoligen Schalters aus Fig. 6 in perspektivischer Ansicht.

Show it:

Fig. 1

2 shows a longitudinal section through an electrical switch, the switch being in the unactuated state,

Fig. 2

2 shows a partial longitudinal section similar to that in FIG. 1, but with the switch in the actuated state,

Fig. 3

a contact bridge of the contact system in side view,

Fig. 4

the contact bridge in top view,

Fig. 5

a diagram of the contact force for the electrical switch,

Fig. 6

a cross-section along the line 6-6 in Fig. 1 for a two-pole switch and

Fig. 7

the actuator of the two-pole switch of Fig. 6 in a perspective view.

In Fig. 1, an electrical switch 1 is shown, the especially as a power switch in electrical hand tools can be used. The switch 1 has an approximately Pot-shaped housing 2, inside of which a contact system 3 is arranged. The housing 2 is at the top Cover 7 completed, to achieve good dust and Moisture-tightness by means of approaches 8 in one on the edge of the housing 2 engages circumferential groove 9. In the housing 2 there is a linearly actuable actuator 4 for Switching the contact system 3. The actuator 4 protrudes with a pusher 6 out of the housing 2. In a Recording on the actuator 4 is at the bottom 11 of the Housing 2 supporting compression spring 5 used such that when the actuator 4 is actuated by the pusher 6 a restoring force acts on the actuator 4. in the The area of the pusher 6 is on the cover 7 elastic bell-shaped bellows 10, with its help the area on the cover 7 is sealed at which the Pusher 6 penetrates the cover 7.

The contact system 3 consists of a rocker-shaped Contact bridge 12, which acts as a contact bearing Cutting edge 13 is rotatably mounted. The cutting edge 13 stands with an electrical located on one side of the housing 2 Connection 15 in connection. With the contact bridge 12 acts Fixed contact 14 together, the one in the housing 2nd extending contact rail with another electrical Port 16 on the other side of the housing 2 in connection stands. As can be seen in particular from FIGS. 3 and 4, the rocker-shaped contact bridge 12 a first, with a Switch contact 17 provided lever arm 18 and a second Lever arm 19. The two lever arms 18, 19 are by a Intermediate area 20 connected to each other. On the side of this Intermediate area 20 there are bulges 21, with their Help the contact bridge 12 movable on the cutting edge 13 is stored. At the same time, the contact bridge 12 is over the Cutting edge 13 is electrically connected to the terminal 15, so that the bulges 21 and the cutting edge 13 a contact bearing form.

As further shown in Fig. 1, is inside the housing 2 on the actuator 4, an arm 22 around a bearing 23 pivoted. The arm 22 is designed as a lever, namely in the present embodiment as one arm Lever, the fulcrum of the lever from the bearing 23rd is formed. Located at a distance from bearing point 23 on the side of the arm facing the contact bridge 12 22 an actuating cam 24, which as a one-piece approach on Arm 22 is formed. The actuating cam 24 is thus Arranged movably on the actuator 4 via the arm 22 and is under the action of a restoring force in the direction on the contact bridge 12 by a compression spring 25 on the Arm 22 acts. For this purpose, the compression spring 25 is in with one end a receptacle 26 on the actuator 4 and with the other End on a holding pin 27 which on the contact bridge 12th opposite side of the arm 22 is located held, as can be seen in FIG. 2.

In Fig. 1 the switch 1 is closed in the unactuated state see. The bearing 23 is now on the actuator 4 arranged that this in the unactuated state the first Lever arm 18 of the contact bridge 12 is opposite. Of the Actuating cam 24 also has such a distance from the bearing 23 that this in the unactuated state on second lever arm 19 of the contact bridge 12 abuts. Because of the force of the compression spring 25 thereby makes the contact bridge 12 held in a position in which the on the first lever arm 18 located switching contact 17 is removed from the fixed contact 14, so that the electrical connection between the terminals 15 and 16 is interrupted. The switch 1 is thus in the off position.

To switch the contact system 3 is the actuator 4 by means of the pusher 6 against the force of the compression spring 5 in To move towards the inside of the housing 2. It glides the actuating cam 24 along the contact bridge 12 from second lever arm 19 to the intermediate area 20. As best in Fig. 3 can be seen, is at the intermediate region 20, which in the is essentially flat, a slightly protruding nose 28 arranged, which are stamped into the intermediate region 20 can. As soon as the actuating cam 24 reaches the nose 28, must move a further movement of the actuator 4 additional force applied in the direction of the compression spring 25 so that the arm 22 is deflected according to the nose 28 can be. This acts when the actuator is actuated 4 to switch the contact bridge 12 the nose 28 with the Actuation cams 24 together in the manner of a pressure point. After the pressure point is overcome the Actuation cams 24 abruptly from the intermediate area 20 to first lever arm 18. By the restoring force of the compression spring 25 then the arm 22 together with the actuating cam 24 in Moved towards the contact bridge 12 so that the Contact bridge 12 is moved around the cutting edge 13 until the Switch contact 17 is present on the fixed contact 14. So that's the actuated state, which can be seen in more detail in FIG. 2, reached, with switch 1 in the on position. An electrical connection is now in the actuated state made between terminals 15 and 16, being there the actuating cam 24 abuts the first lever arm 18.

The arm 22 can be made of plastic and with the one-piece actuating cam 24 as an injection molded part be made. But it is also possible to arm 22 as To manufacture stamped part from metal, then for electrical Isolation of the actuating cams 24 made of plastic on the Metal part is molded. To exercise the restoring force a compression spring 25 is arranged on the arm 22. Alternatively, you can this restoring force also through elastic deformation of the arm 22 generated when the actuator 4 moves become. In this case, it makes sense to use the arm 22 as Form leaf spring, wire bracket or the like.

A particularly advantageous embodiment of the bearing point 23 for the arm 22 is shown in more detail in Fig. 2. The depository 23 consists of an elongated hole 29 which is arranged in the arm 22 and a pin 30 engaging in the elongated hole 29, which in turn is located on the actuator 4. Of course, the cone 30 can also be reversed Arm 22 and the slot 29 in the manner of a blind hole in Actuator 4 are. The slot 29 is cross-sectionally larger than the pin 30, for example, by the elongated hole 29 having an oval cross section has, while the pin 30 has a round cross section having. Because of the elongated hole 29, the arm 22 in addition to the pivoting movement when actuated by the Push 6 perform a movement in the direction of Direction of movement of the actuator 4 runs. Now the actuator 4 for switching the contact bridge 12 moves, this additional movement of the arm 22 takes place in the Elongated hole 29 when the pressure point on the nose 28 is overcome instead, causing a further increase in contact force with abrupt contact force build-up between the switch contact 17 achieved on the contact bridge 12 and the fixed contact 14 becomes.

5 is the measurement curve for the contact force F in Dependence on the actuation path s of the actuating member 4 when switching between the off position and the setting in a switch 1 with such a Bearing point 23, which consists of a pin 30 and an elongated hole 29 exists. As long as the actuating cam 24 den Pressure point on the nose 28 of the contact bridge 12 not yet has reached, the switching contact 17 is from the fixed contact 14 removed and the contact force is zero, as on that Curve section 31 can be seen. When overcoming the Pressure point jumps the contact bridge 12 in the manner of a Cascade around and the switch contact 17 comes into contact with the Fixed contact 14. At the same time there is an abrupt build-up the contact force instead, as with the vertically increasing Curve section 32 'can be seen. Upon further actuation of the actuator 4, the contact force increases according to the Curve section 33 linear until the end of the actuation path on. Conversely when switching from the on to the off position the contact force is overcome when the Pressure point suddenly reduced to zero, like can be seen from the curve section 32. The distance between the two curve sections 32, 32 'further shows that through the slot 29 a certain hysteresis between the Switching operations when switching the switch on and off 1 is achievable. Due to the sudden assembly and disassembly of the Contact force is advantageously a creeping one Operation with slow system between switch contact 17 and Fixed contact 14 excluded and the otherwise negative Effects such as contact erosion or the like are thereby effectively prevented.

In a further embodiment according to FIG. 6 is a bipolar switch 1 shown, the two identical Contact systems 3, 3 'of the type shown in Fig. 1, the are switchable by means of an actuator 4. The two contact systems 3, 3 ', each with a contact bridge 12, 12 'are arranged side by side in the housing 2, such as 6 can be seen. To operate the Contact systems 3, 3 'act on each contact bridge 12, 12' Actuating cams 24, 24 'on one of the respective Contact bridge 12, 12 'associated arm 22, 22' arranged is. Each arm 22, 22 'is in turn in a bearing 23, 23 'according to the type shown in Fig. 1 rotatable on Actuator 4 mounted, the two bearings 23, 23 'on the opposite sides of the Actuator 4 are located. The two arms 22, 22 'are on the side facing away from the bearing 23, 23 'with a Cross strut 34 connected so that the arms 22, 22 'and Cross strut 34 form a kind of U-shaped fork 35, such as in particular from the perspective in FIG. 7 is. The compression spring 25 acts to exert the restoring force on the cross strut 34. How this switch works 1 is analogous to that already explained above Mode of action, in particular, here again Slot arrangement at the bearing point 23, 23 'for Contact force increase can be provided.

This further embodiment is advantageously only a compression spring 25 and only another, as fork 35 trained part for switching action on the Contact bridges 12, 12 'necessary. This will make the Manufacturing and assembly costs for a two-pole switch reduced. It is also advantageous if the fork 35 or Cross strut 34 has a certain transverse elasticity, whereby compensation of tolerances in the contact systems 3, 3 ' can take place. Larger ones can then be used cost-effectively Tolerances in manufacturing and assembly are accepted become.

1

elektrischer Schalter

2

Gehäuse

3, 3'

Kontaktsystem

4

Betätigungsorgan

5

Druckfeder

6

Drücker

7

Deckel

8

Ansatz

9

Nut

10

Balg

11

Boden (des Gehäuses)

12, 12'

Kontaktbrücke

13

Schneide

14

Festkontakt

15, 16

elektrischer Anschluß

17

Schaltkontakt

18

erster Hebelarm (der Kontaktbrücke)

19

zweiter Hebelarm (der Kontaktbrücke)

20

Zwischenbereich (an der Kontaktbrücke)

21

Ausbuchtung (an der Kontaktbrücke)

22, 22'

Arm

23, 23'

Lagerstelle

24, 24'

Betätigungsnocken

25

Druckfeder (für Betätigungsnocken)

26

Aufnahme

27

Haltezapfen

28

Nase (an der Kontaktbrücke)

29

Langloch

30

Zapfen (für Lagerstelle)

31, 32, 32', 33

Kurvenabschnitt (für Kontaktkraft)

34

Querstrebe

35

Gabel

The invention is not restricted to the exemplary embodiments described and illustrated. Rather, it also includes all professional training within the scope of the inventive concept. Thus, the invention can not only be used with power tool switches, but can of course also be used with other switches.

1

electrical switch

2nd

casing

3, 3 '

Contact system

4th

Actuator

5

Compression spring

6

Pusher

7

cover

8th

approach

9

Groove

10th

bellows

11

Bottom of the housing

12, 12 '

Contact bridge

13

Cutting edge

14

Fixed contact

15, 16

electrical connection

17th

Switch contact

18th

first lever arm (the contact bridge)

19th

second lever arm (the contact bridge)

20th

Intermediate area (at the contact bridge)

21

Bulge (at the contact bridge)

22, 22 '

poor

23, 23 '

Depository

24, 24 '

Actuating cams

25th

Compression spring (for actuating cams)

26

admission

27

Retaining pin

28

Nose (at the contact bridge)

29

Long hole

30th

Spigot (for bearing)

31, 32, 32 ', 33

Curve section (for contact force)

34

Cross strut

35

fork

Claims (7)

1. Electric switch with an activating element (4) actuated in a housing (2) preferably against a compression spring (5) for switching at least one contact system (3), which comprises a rocker-like contact bridge (12) rotatably mounted on an edge (13) acting as a contact bearing and at least one fixed contact (14) interacting with the contact bridge (12), wherein by means of an actuating cam (24) arranged movably on the activating element (4) under the effect of a restoring force in the direction of the contact bridge (12), the switching of the contact system (3) on activating the activating element (4) is effected, characterised in that on the activating element (4) an arm (22) is pivotably mounted about a bearing point (23), in that the restoring force directed towards the contact bridge (12) acts on the arm (22) and in that the activating cam (24) is arranged on the side of the arm (22) facing the contact bridge (12) at a distance from the bearing point (23).
2. Electric switch according to claim 1, characterised in that the rocker-like contact bridge (12) has a first lever arm (18), which is provided with a switching contact (17) and a second lever arm (19) and an intermediate region (20) connecting the two lever arms (18, 19), wherein in particular laterally on this intermediate region (20) projections (21) acting as contact bearings are arranged on the edge (13), in that the activating cam (24) in the non-activated state of the activating element (4) abuts on the second lever arm (19) and in the activated state of the activating element (4) on the first lever arm (18), and in that preferably on the mainly flat intermediate region (20) a projecting nose (28) impressed in particular in the intermediate region (20) is arranged, with which the activating cam (24) on activating the activating element (4) interacts to switch the contact bridge (12) in the manner of a pressure point.
3. Electric switch according to claim 1 or 2, characterised in that the arm (22) is designed as a lever, in particular a one armed lever with its point of rotation on the bearing point (23), whereby the activating cam (24) is arranged preferably as a one piece shoulder on the arm (22), and wherein preferably the bearing point (23) is arranged on the activating element (4) so that in the non activated state the bearing point (23) is opposite the first lever arm (18) of the contact bridge (12) and the activating cam (24) is spaced from the bearing point (23) so that the latter in a non activated stated abuts on the second lever (19) of the contact bridge (12).
4. Electric switch according to claim 1, 2 or 3, characterised in that the bearing point (23) comprises a longitudinal hole (29), which is arranged in particular in the arm (22) and a pin (30) engaging in the longitudinal hole (29) which is arranged in particular on the activating element (4), whereby the longitudinal hole (29) is greater in cross section than the pin (30), so that the arm (22) can perform a movement in addition to the pivot movement in the direction of the activating element (4), whereby an additional increase in contact force with sudden contact force build up is effected on switching the contact bridge (12).
5. Electric switch according to one of claims 1 to 4, characterised in that the arm (22) is made of plastic as an injection moulding, of metal as a stamping with an activating cam (24) or the like injected from plastic, and in that the restoring force is preferably exerted by a compression spring (25) acting on the arm (22), whereby the compression spring (25) is also held preferably at one end in a recess (26) on the activating element (4) and at the other end on a holding pin (27), which is located on the side of the arm (22) opposite the contact bridge (12).
6. Electric switch according to one of claims 1 to 5, characterised in that the restoring force is produced by elastic deformation of the arm (22) on the movement of the activating element (4), in that the arm (22) is designed in particular as a leaf spring, strap or the like.
7. Electric switch according to one of claims 1 to 6, characterised in that two contact systems (3, 3') switched by means of the activating element (4) are arranged in the housing (2), in that two arms (22, 22') are connected on the side opposite the bearing point (23, 23') with a cross brace (34) in the form of a particularly U-shaped fork (35), which if necessary can have transverse elasticity to compensate tolerances in the contact bridges (12, 12') of the contact systems (3, 3'), whereby the restoring force exerted on the arms (22, 22') is preferably exerted by a compression spring (25) acting on the cross brace (34).

Images