EP0274671A1 - Electric switch - Google Patents

Abstract

An electrical switch is equipped with a switching axis (33) with a switching link (36), which consists of two circular segments, with switching cams (60, 64) on one circular segment and latching switching segments (66) on the other circular segment, which are provided with a detent spring (75) and a switch spring (70) interact. The circular segments arranged on one level result in a very compact switch.

Description

The invention relates to an electrical switch with a switching shaft rotatably mounted in a switch housing with at least one switching cam having shifting gate which rotates a switching spring between at least two switching positions and which brings the switching spring into contact with a fixed contact in one switching position.

An electrical built-in switch with a switch housing is already known (DE-GM 81 01 491), in the interior of which a fixed contact and a movable contact are arranged. The movable contact is connected via a semicircular bend to a vertical web, which is also a contact for a connecting line. The movable contact can be pivoted from its off position into its on position with a cam that has a cam. So that the shifting gate is not inadvertently adjusted, a locking disc is provided on the shaft at an axial distance from the shifting gate, which is equipped with a tooth profile for receiving a locking spring.

Furthermore, an electrical switch is known (DE-AS 24 51 034), which is equipped with a switching gate on which a cam is arranged eccentrically, to which a movable switching contact is assigned. The switch contact is connected via a V-shaped leg and an arcuate intermediate piece to a vertically extending leg, which extends through the housing and as a connection terminal for an electrical line serves. By rotating the switching link, the movable contact is pressed against a support member which is provided on the bottom of the housing. By further turning the switch cam, the movable contact swings on an arc until it only comes into contact with a fixed contact. On the same shaft as the shifting gate, there is a locking wheel with an axial distance from the shifting gate, which interacts with a locking spring and locks the shifting cam in certain positions.

Compared to these arrangements, the solution according to the invention has the advantage that the switch can be made smaller with the same or even greater electrical power, so that less space has to be provided for its installation in the relevant devices, such as in kitchen appliances, hair dryers or coffee machines .

The invention is characterized in that, in the case of a switch of the type mentioned at the outset, the switching link consists of a first circular segment on which at least one switching cam is arranged and a second circular segment on which latching switching segments are provided, the two circular segments being arranged in one plane are.

By integrating the switching link and snap-action switching segments in a single disk-shaped component, a minimum of space can be used in the switch housing, so that the switch housing can be made very small.

It is advantageous that the movable contact connected to the switching spring above the switching cam on a cam track is adjustable, the radius changes. In this way, the movable contact is adjusted vertically and horizontally with respect to the fixed contact provided in the switch housing when the switching cam bears against the switching spring, so that when the movable contact bears against the fixed contact, the movable contact on the surface of the fixed contact is moved horizontally. This counteracts coking of the switching contacts through constant self-cleaning of the contact surfaces. The advantageous movement of the movable contact is favored in that the switching spring consists of a web connected to the switch housing, to which a circular arc piece, a roof-shaped part and finally a straight part for receiving the movable contact are connected. The circular arc piece and the roof-shaped part are aligned with switch cams so that when the switch cam bears against the switch spring, the movable contact can first be adjusted vertically and finally a little horizontally with respect to the fixed contact.

The switching cam and the latching switching segments are connected in one piece and arranged on a rotating body, for example a cylindrical body, which forms the switching link. The circular arc section for the shift gate can enclose an angle of approximately 180 °.

A plurality of cams can also be arranged one behind the other in the circumferential direction on the shifting gate. It is also possible to provide a plurality of switching cam disks next to one another on the shaft, in which case only one switching link needs to be equipped with latching switching segments.

The locking troughs provided on the switching link have significantly larger radii than the locking cams delimiting the locking troughs. In this way, indifferent switching positions and unintentional adjustment of the shifting gate are avoided.

In a further embodiment of the invention, it is advantageous that the shifting gate is optionally also equipped with a toothed segment for receiving a toothed rack, so that instead of a rotatingly adjustable one, a linearly adjustable shifting element is created with which the shifting gate can be rotated.

The shape and material of the switching spring determine, among other things, the defined restoring force. Due to the preferred shape of the switching spring, it is reset very quickly, which keeps the spark formation between the contact surfaces and thus their coking small. Should coking of the contact surfaces nevertheless occur, the sliding movement of the movable contact on the fixed contact constantly causes the contact surfaces to self-clean. This also makes it possible to switch higher electrical outputs than with conventional switches.

In order to avoid accidents when immersing an electrical device when it is switched off, for example if a hairdryer falls into the full bath, a two-chamber on / off switch is designed to be watertight and both poles of the power cord are switched.

Further refinements of the invention emerge from the remaining subclaims.

The invention is explained in more detail below with the aid of drawings showing several possible embodiments.

• Fig. 1 ein erstes Ausführungsbeispiel eines Schaltergehäu­ses mit auf einer Welle angeordneter Schaltkulisse und einer über die Schaltkulisse betätigbaren Schaltfeder in angehobener Stellung;
  gemäß Schnitt I-I in Fig. 6;
• Fig. 2 ein Ausführungsbeispiel einer Schaltkulisse, die über eine Zahnstange verstellbar ist gemäß Schnitt II-II in Fig. 6;
• Fig. 3 das Schaltergehäuse mit einem über ein Filmscharnier an eine Seitenwand des Schaltergehäuses schwenkbar angeschlossenen Deckel;
• Fig. 4 die auf dem Boden des Schaltergehäuses angeordnete Schaltfeder;
• Fig. 5 ein weiteres Ausführungsbeispiel einer Schaltku­lisse, die nur Schaltzwecken dient, sowie die Dar­stellung einer Verdrehsicherung
  gemäß Schnitt V-V in Fig. 6;
• Fig. 6 einen Längsschnitt durch ein Schaltergehäuse, das drei Schaltkammern aufweist;
• Fig. 7 einen Schnitt längs der Schaltachse 33 eines wasserdichten Zweikammerschalters;
• Fig. 8 einen Schnitt quer zur Schaltachse eines wasserdichten Zweikammerschalters.

It shows:

• 1 shows a first exemplary embodiment of a switch housing with a switching link arranged on a shaft and a switching spring which can be actuated via the switching link in the raised position;
  according to section II in Fig. 6;
• Fig. 2 shows an embodiment of a shift gate that is adjustable via a rack according to section II-II in Fig. 6;
• 3 shows the switch housing with a cover pivotally connected to a side wall of the switch housing via a film hinge;
• 4 shows the switching spring arranged on the bottom of the switch housing;
• Fig. 5 shows another embodiment of a shifting gate that only serves switching purposes, and the representation of an anti-rotation device
  according to section VV in Fig. 6;
• 6 shows a longitudinal section through a switch housing which has three switching chambers;
• 7 shows a section along the switching axis 33 of a watertight two-chamber switch;
• Fig. 8 shows a section transverse to the switching axis of a waterproof two-chamber switch.

The switch housing 10 shown in the figures consists of a base 12 and a housing part 18 connected to the base 12 via a film hinge 14, which can be pivoted through 180 ° and placed on the base 12. The housing part 18 consists of parallel side walls 20 and 22 which are connected to one another via a domed cover 23. Furthermore, the side walls 20 and 22 are connected to one another via a front wall 24 and a rear wall 26. If the housing part 18 is pivoted through 180 ° and placed on the floor 12, the film hinge 14 rests against a support part 28 which is arranged upright on the floor 12 and ensures that the housing part 18 is not moved relative to the floor 12. One or more wall parts 30 are provided on the base 12, which divide the base 12 together with the housing part 18 into two or more switching chambers of the same size.

6, two wall parts 30 are arranged on the floor 12, so that the switching chambers 32, 35, 37 arranged next to one another are formed in the switch housing 10. The individual switching chambers serve to accommodate the switching links designated 34, 36, 38, the fixed contacts 94 and the switching springs 70. The housing cover 23 has corresponding wall parts 31.

As can be seen from FIG. 6, the shifting gates are 34, 36, 38 Components of the switching axis 33, which is equipped on both sides with a flange 40, which is rotatably received in each of the bores 42 provided in the front wall 24 and the rear wall 26. An approximately rectangular opening 44 for receiving an actuator extends through the switching axis 33 with the switching links 34, 36, 38, by means of which the switching axis can be rotated with the switching links.

As can be seen from FIG. 2, a gear segment 48 adjoins the switching link 34, which comprises a radian measure of approximately 180 °. The individual teeth 50 are connected to a toothed rack 52 which is slidably mounted in a recess 54 provided in the cover 23. By means of the rack 52, the switching axis 33 can be rotated with the shifting gates 34, 36, 38 into the desired switching position. For this purpose, the toothed rack 52 can be provided with a handle part 56.

As can be seen from FIG. 1, the switching link 36 consists of a first segment of a circle, which is characterized by the angle ε and is approximately 180 °. On the first segment of the circle there is a semicircular switching cam 60 approximately in the middle, to which switch-off positions 62 and 63 follow on the right and left. Another switch cam 64 is connected to the switch-off position 63 here. A second circle segment adjoins the first circle segment, on which numerous latching switch segments 66 arranged next to one another are provided. The latching switch segments 66 and the switching cams 60, 64 and the switch-off positions 62 and 63 are all arranged in the same plane and thus form a relatively narrow disk. The individual latching switching segments 66 consist of arc-shaped latching troughs 72, which are each delimited by latching cams 74.

The radius R3 of a locking trough is significantly larger than the radius R4 of a locking cam. The latching switch segments 66 cooperate with a latching spring 75, which is provided in the upper part of the switch housing 10. The detent spring 75 has a bulge 76 which is adapted to the detent troughs 72 and which defines and fixes the switching positions in connection with the selector spring 70 by inserting the bulge 76 into the detent troughs 72. If, for example, the switching link 36 is rotated, the detent spring is bulged upwards via the detent cams 74, so that the detent cams can move past the bulge 76 of the detent spring 75 until the bulge 76 is inserted into a new detent depression 72. The individual, side-by-side locking troughs 72 thus represent the different switching positions of the electrical switch. Because the locking spring 75 is loosely arranged in the switch housing 10, no clamping is caused during switching movements and constant switching forces are ensured. If a plurality of shifting gates are arranged side by side, only one shifting gate needs to be equipped with latching switching segments 66.

As can be seen from FIG. 4, the switching spring 70 consists of a web 80 which runs vertically with respect to the base 12 of the switch housing 10 and which extends through an opening 82 provided in the base 12 and whose part protruding from the base 12 serves as a connecting lug for the power supply serves. At the upper end of the web 80 is a circular arc piece 84, the Winekl γ is about 200 °. The circular arc piece 84 is adjoined by a slightly curved part 86, which is approximately adapted to the outer radius of the shifting gate and which forms an angle δ of approximately 30 ° with the horizontal or with the base 12. In turn, part 86 is followed by a roof-shaped part 88, the Angle α is approximately 80 °. The roof-shaped part 88 is followed by a straight part 89 with the (movable) contact 90, the contact surface 92 of which is spherical. The contact 90 can be brought to rest against a fixed contact 94 provided on the base 12 via the switching spring 70 by means of the switching cams 60, 64. The fixed contact 94 is also provided with a connecting lug 96 for the power supply.

If, for example, the switching link 36 is adjusted against the action of the detent spring 75, the end face of the switching cam 60 moves against the roof-shaped part 88 of the switching spring 70 and thereby pivots the movable contact 90 on a circular path R1 (see FIG. 4), the radius R1 can decrease continuously until it finally has the size R2. That is, the switching cam 60 moves the contact 90 via the switching spring 70 in the last phase just above the contact surface 98 of the fixed contact 94 on a curved path, the contact 90 covering a horizontal distance S. As a result, the movable contact 90 is pushed somewhat along the contact surface 98 of the fixed contact 94, so that the mutual movement of the two contacts 94 and 90 causes the contact surfaces 98, 92 to self-clean.

The design of the locking cams 74 and the locking troughs 72 in connection with the locking spring 75 prevents indifferent switching positions and the switching gears are carried out quickly (jerkily) so that switching sparks are largely avoided.

Due to the advantageous design of the switching spring 70, in particular by the relatively large curve piece 84, which results in a long spring in connection with the parts 86 and 88, the Realize desired travel path S of the movable contact 90 on a cam track. The special shape and the material of the switching spring 70 determine a defined restoring force, so that when the movable contact 90 is lifted from the fixed contact 94, as little sparking as possible occurs. The reduction in sparking is achieved in that the switching spring 70 quickly moves the moving contact 90 upwards moves as soon as the cam has been moved past the roof-shaped part 88.

The switching link 34 shown in FIG. 2 can, in addition to the first switching link 36 shown in FIG. 1, be permanently assigned to a second switching chamber 32 which is arranged at a distance from the first switching chamber 35. As can be seen from FIG. 2, the switching link 34 has no additional latching elements (latching troughs 72, latching cams 74, latching spring 75), but only fulfills switching functions and actuating functions via the rack 52. 103 forms the switching cam 60 or 64 in accordingly Fig. 1, and 104, the off position. The roof-shaped part 88 of the switching spring 70 bears against the stop surface 102 of the switching link and limits the switch-off position 62 and 104.

If several switching links are arranged next to one another, a fixed contact 94 and a switching spring 70 are to be assigned to each of these. FIG. 6 shows a switch housing 10 with a switching axis 33, consisting of three switching links 34, 36, 38, the additional switching link 38 being arranged between the switching links 34 and 36 and being associated with the switching chamber 37.

As is apparent from FIGS. 5 and 6, an anti-rotation device can be provided. For this purpose, a stop 106 is provided in the wall part 31 assigned to the switching chamber 35, and in the switching axis 33 between shifting link 34 and 38 a groove 107. This anti-rotation device is particularly advantageous if the rotation of the shifting link is effected via an actuator in opening 44.

Figures 7 and 8 show a two-chamber, watertight on / off switch. Each chamber contains a switching gate 36, as well as a switching spring 70 and a fixed contact 94 with associated terminal lugs 80 and 96. Both poles of the power cord are switched via these two switching chambers. At least one switching chamber contains a detent spring 75. The two switching links are identical here.

The housing part 18 and the base 12, which together form the switch housing 10, are tightly connected by means of ultrasonic welding via a peripheral edge 110, 111.

Sealing to the front wall 24 or to the rear wall 26 of the switch housing in the area of the switching axis 33 is in each case carried out by an elastic O-ring 115, which lies pressure-tight between the flange 40 on the end face of the switching axis 33 and an annular groove of a sealing bottle 114. This sealing flange 114 is fitted into the front wall 24 or rear wall 26 and is connected in a form-fitting and watertight manner to the walls 24, 26, for example by ultrasonic welding.

After soldering the power cord and the continuing cable to the projecting from the bottom 12 of the switch housing connector lugs 80, 96 on the bottom 12 be made of plastic be standing auxiliary mold (potting pot) 112 inserted. This auxiliary mold has a recess on the side or an open side through which the cables are guided and through which the auxiliary mold is filled with hardening plastic casting compound.

The two-pole on / off switching, the watertight design of the switch and the potting of the connection lugs and connecting wires prevent any risk to persons if the device provided with such an on / off switch falls into the water when switched off.

Claims (18)

1. Electrical switch with a switch shaft (33) rotatably mounted in a switch housing (10) with an at least one switch cam (60) having a switching link (36) which adjusts a switching spring (70) between at least two switching positions by turning and which in one shift position the switch spring (70) brings against a fixed contact (94) for conditioning, characterized in that the shifting gate (36) of a first segment of a circle on which at least one switching cam (60), and consists of a second circle segment on which Latching switch segments (66) are provided, the two circle segments being arranged in one plane. 2. Electric switch according to claim 1, characterized in that the associated with the switch spring (70), movable contact (90) is adjustable via the control cam (60) on a cam track with a changing radius (R1, R2). 3. Electric switch according to claim 1, characterized in that the switching spring (70) has a connectable to the switch housing (10) web (80) which is adjoined by an arc piece (84), then a slightly curved portion (86) and a roof-shaped part (88) and finally a straight part (89) for receiving the movable contact (90). 4. Electric switch according to claim 3, characterized in that the circular arc segment (84) between 190 ° and 210 ° includes an angle (γ) of more than 180 °, preferably. 5. Electric switch according to claim 3, characterized in that the roof-shaped part (88) of the switch spring (70) an angle (α) includes less than or equal to 90 °. 6. Electrical switch according to claim 1, characterized in that the first segment of a circle for accommodating the at least one switching cam (60) encloses an angle (ε) of approximately 180 °. 7. Electrical switch according to claim 1, characterized in that the locking switch segments (66) consist of arcuate locking recesses (72), bounded by locking cams (74), wherein the radius (R₃) of the latching hollows (72) is substantially greater than the Radius (R₄) of the locking cams (74). Electric switch according to claim 1, characterized in that above the latching switch segments (66) has a latching spring (75) is arranged in the switch housing (10) having a shape adapted to the latching hollows (72) bulge (76), by means of which the shifting gate (36 ) the shift axis (33) is set in different positions. 9. Electric switch according to claim 8, characterized in that the detent spring is arranged (75) loose in the switch housing (10). 10. An electrical switch according to claim 1, characterized in that to the control cam (60), latching switch segments (66) and the shifting gate (36) having switching axis (33) offset axially further shifting gates are provided in addition, which meet only switching functions and comprising a plurality of side-by-side switching springs (70) interact. 11. Electrical switch according to one of claims 1 to 10, characterized in that a toothed segment (48) is provided axially offset to the switching cams or to the latching switching segments, in which a rack (52) engages. 12. An electrical switch according to claim 1, characterized in that the switch housing (10) one or more switching chambers (32, 35, 37) for receiving one or more axially offset shift gates and in that the switching chambers are closed by a lid-like housing part (18) . 13. Electric switch according to claim 12, characterized in that the lid-like housing part (18) is connected to a housing wall (20) by means of a film hinge (14). 14. An electrical switch according to claim 1, characterized in that (64 60) are arranged successively on the shifting gate (36) in the circumferential direction a plurality of switching cams. That a wall part (31) in the cover (23) of the housing part (18) 15. An electrical switch according to claim 12, characterized in that a stop (106), which engages as a rotation lock in a groove (107) of the switch shaft (33). 16. An electrical switch according to claim 1, characterized in that in each case between the flanges (40) on the end faces of the switching axis (33) and sealing flanges (114) connected to the front wall (24) or rear wall (26) of the switch housing (10 ) are welded, an O-ring (115) is arranged pressure-tight, that the switch housing (10) consisting of the housing part (18) and base (12) is welded and that the connecting lugs (80, 96) are cast in with the cables soldered to them . 17. An electrical switch according to claim 16, characterized in that for casting the connecting lugs (80, 96) and soldered thereto cables, placed over the bottom (12) of the switch housing (10) an auxiliary form (112) and whose interior is filled with curable Kunststoffvergußmasse becomes. 18. An electrical switch according to claim 16, characterized in that this one consisting of two chambers on / off switch, the power supply line are connected to the both poles.

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