DE4203427C2 - Cam rotary switch - Google Patents

Description

The invention relates to a rotary cam switch according to the preamble of claim 1, at which an additional switching function by axial displacement an actuator is possible.

Such rotary switches with another axial switching option can be found in the Technology often used. So shows z. B. DE-OS 21 14 947 a light switch for motor vehicles in which a switch housing, the switch shaft rotatable and axially is slidably mounted. The adjusting shaft is with Appropriate recesses for the pushing and rotating movement equipped, d. H. the locking recesses are at an angle stood and at an axial distance on this switch shaft arranges and they interact with locking balls that are radial are acted upon by springs. As intended, this switch by inserting the switching axis The car's lighting is switched on while by Turn the remaining circuits to be executed.

DE 87 00 618 U1 describes a switch for a be heatable baking or roasting oven with an operating button is firmly connected to a switch axis that the housing passes. Switch contacts are located inside the housing assigns, which is actuated by rotary movement of the switch axis become. On the end of the scarf protruding from the housing terachse an additional switching element is arranged, which the Fine temperature setting should serve and also by Turning the switch shaft is adjustable after this scarf terwelle was pressed axially against spring action. The scarf terachse is in this axially acting spring in held a basic position, and by overcoming this  The longitudinal displacement is brought about by spring force. A ver There is no locking in different axial positions intended.

DE-OS 27 39 593 shows a hand control device in the form of a "joystick", which is connected to a flexible cable with a Computer is connectable. A control shaft carries on her the housing protruding part an operating button against can be rotated over the housing and moved axially, to be able to perform certain control functions. Also there are no rest positions here, it is one first spring is provided which moves the control shaft into a rest position presses, but allows one end relative to the longitudinal axis of the cylindrical part can be moved laterally, wherein a second spring is provided which allows the Actuating shaft is rotated about its longitudinal axis and also in the longitudinal direction direction translates, but after Release the control shaft and press it into a predefined position.

The present invention relates to cam rotation switch with one in a switch housing between two Bearing flanges supported by a hollow camshaft actuating shaft guided in a rotationally fixed manner therein can be actuated, the latter in several angular positions and several axial positions can be locked independently of each other. Such Cam switches are particularly suitable for household appliances true, where there is a need, by axial Ver shift to perform an additional switching operation. When used in conjunction with an extractor hood set the motor speed with the rotary switch be turned on and off while the light is pressed becomes.

Another possible use of such a genus The appropriate rotary switch meets the need that Be  service gag when not in use for optical reasons to sink the aperture of the household appliance, the Adjustment gag, d. H. Turn the cam switch is pulled out of the cover by pressing it in. Here he there is no shifting by pushing in the control shaft movement, but here is also a locking in two axial positions necessary.

In known generic cam rotary switches for were intended for use in kitchen appliances desired switching or latching mechanisms in axial extension of the control shaft either on the back side of the switch behind the rear bearing flange or on installed on the operating side in front of the front bearing flange. This requires a considerable additional installation length often not available for the devices to be equipped with this is standing.

The invention is therefore based on the object of a gat to create appropriate cam rotary switch that is compact is trained and together with its additional switching or locking function the installation dimensions of a conventional cam rotation switch does not exceed, so that no additional on space is needed.

The task is solved by the in the indicator Part of claim 1 specified features.

This measure ensures that even within the Switch housing for the axial locking and switching mechanism no additional space is needed because of this required mechanics within the hollow camshaft are arranged so that a malfunction with the switch contacts is not to be feared.  

The control shaft carries a suitably transversely movable Locking pin, which is in a locking backdrop on the inner wall of the Hollow cam shaft runs out. This version can be construct Realize relatively easy. Instead, however the locking pin also in a radial bore of the hollow camshaft be used and engage in a locking mechanism that is incorporated into or carried by the control shaft becomes.

In this way, the locking mechanism itself with a very large stroke within the switch housing, d. H. between Adjusting shaft and the hollow camshaft sitting on it be net, the latter rotatable in the switch housing, however is axially non-displaceable.  

When the cam rotary switch is designed in combination with a Push button switch is made according to an appropriate embodiment the invention divided the hollow camshaft and the two Sections of the camshaft are supported by a coupling piece non-rotatably connected, the latter one axially running inclined plane, for example in the form of a Has a cone, via which a shift control slide can be lifted is. In this way, regardless of the angular position of the Cam switch via an axial movement of the actuating shaft further electrical switching function can be initiated. This The type of switching function is particularly useful because of this the switch contact bridges or contact levers are used can already with a conventional rotary cam switch available. By installing a modified, in the The above-described split hollow camshaft can then Actuation of these existing switching contacts by Pressure actuation of the control shaft can be effected.

If the axial adjustment function only the sinking of the Switch toggle in the faceplate of the device can be used the axial division of the camshaft can be dispensed with. It is then only necessary, the control shaft in the camshaft axially displaceable (but non-rotatable) and between Camshaft and control shaft the locking mechanism described to arrange. This is preferably used for reasons of stability Area of a bearing flange of the switch housing housed.

To additionally by the rotary cam switch according to the invention According to another, being able to switch signal contacts Embodiment of the invention on the rear bearing flange of the Switch housing fixed a circuit board, in particular clamped, the conductor tracks with a switch plate interact, which is rotatably connected to the camshaft.

A major advantage of the arrangement according to the invention is in that all for the circuit and adjustment required elements within the spatial dimensions  of the switch housing can be accommodated and existing Cam rotary switch housing with their contact terminals and Contact bridges can be used because apart from the Push contact slide guide all functional parts with the Camshaft or the actuating shaft are combined.

Further expedient refinements of the invention result from the subclaims.

Exemplary embodiments of the invention are described below described the drawing. The drawing shows:

Fig. 1 shows an axial section of a combined with a pressure switch cam rotary switch;

Fig. 2 is a view of the control curve;

Fig. 3 is a partial perspective view of the switch shaft;

Fig. 4 is a section along the line IV-IV of FIG. 1;

Fig. 5 is a sectional view corresponding to Figure 1 of a rotary switch cam with retractable knob.

Fig. 6 is a view of the control curve of the switch of Fig. 5;

Fig. 7 is a circuit example of a selector switch with combined rotation and pressure actuation.

The front switch in FIGS. 1 to 5 and 6 illustrated cam rotation comprise a switch housing 10 with bearing flanges 12 and at the rear end. The camshaft 14 designed as a hollow shaft is axially divided into a front section 14 a, which is mounted in the bearing flange 12 facing the operating side and a support bearing 13 , and a rear section 14 b, which is supported by the rear bearing flange 12 . Between these two shaft sections 14 a and 14 b there is an actuating cone 16 for the pressure switch. The camshaft 14 is penetrated and carried by an actuating shaft 18 which, in its end projecting from the bearing flange 12 on the right in accordance with FIGS. 1 and 6, carries a shift knob, not shown. In which the front cam shaft portion 14 a bearing portion, the adjusting shaft 18 has a flattened portion 20 to which the cam portion 14 a engages with a corresponding flat, but so that a rotationally fixed connection therebetween materialize the actuating shaft comes axially inside the camshaft 14 is slidably . In the rear portion 14 b camshaft supporting part has the adjusting shaft on a shaft portion 22 of reduced diameter. At the end of this section 22 carries a shaft lock 24 . The rear housing flange 12 holds a clamping plate 30 provided with contact tracks printed circuit board 28 with which an integrally connected to the camshaft section 14 b switch plate 26 cooperates with axial contact. In this way, signal lamps can be switched, for example.

The camshaft section 14 a carries radial switching cams in a known manner, which cooperate in the usual way with the switching pressures of the cam rotary switch designed as contact lever 32 . The locking rotational angle positions are determined by a locking star 34 of the camshaft section 14 a and a cooperating plunger 36 which can be moved radially in the housing and is pressed into the gaps of the locking star 34 by a compression spring 38 .

A at the front end of the actuating cone 16 guide sleeve 40 is enclosed by the rear end of the camshaft section 14 a and guided axially. The hollow actuating cone encloses the front end of the camshaft section 14 b and is axially displaceable thereon. A compression spring 42 is mounted on the shaft section 22 and is supported on the one hand against the front end face of the camshaft section 14 b and on the other hand against an inwardly drawn end flange 44 of the guide sleeve.

In the switch housing of the cam shaft is mounted radially with respect to a switch actuating slide 46, the portion of the camshaft 14 b engages with a hole 48. The actuating cone 16 can be inserted into this hole, as a result of which, as can be seen from FIGS. 1 and 4, the actuating slide 46 can be raised. The displacement of the actuating cone 16 is carried out by pressure on the actuating shaft 18, the shaft shoulder of the guide sleeve against the return spring 42 presses and on the rear end face of the flange 44 the actuating cone 16 on the cam portion 14 b moves axially.

The slide 46 is pulled by a return spring 52 into the position shown in FIG. 1. The slide 46 has axially extending arms 54 on both sides, at whose ends bearing flanges 56 attach, which are guided in the housing. The side arms act on contact lever 58 , which are of the same design as the contact lever 32 of the cam rotary switch. You are accordingly operated by pressure on the actuating shaft 18 regardless of the cam contacts of the rotary switch.

The two axial switch positions of the actuating shaft are fixed by a locking mechanism. For this purpose, a locking heart 60 is provided in the form of a flat leaflet, which is used in a recess 62 on the inner diameter of the hollow shaft section 14 a and is held in a rotationally fixed and axially secured. On the side facing the flattening 20 of the actuating shaft 18 , the raster heart leaflet 62 carries a heart-shaped control curve, as can be seen in FIG. 2. This is similar to a ballpoint pen mechanism. A locking pin 64 engages in the control link guide and is fixed in a locking disk 66 which is guided laterally displaceably in a recess 68 in the flattened area 20 of the actuating shaft 18 . In the recess there is a transverse groove 70 , into which the end of the locking pin 64 protruding from the locking disk 66 protrudes.

The switch shown in Figures 1 to 4 works as follows:

If the actuating shaft 18 is rotated by means of a toggle, then the radial cams on the front section 14 a of the cam shaft switch the switching lever 32 in a known manner and open or close the associated contacts. The cam portion 14 a is connected to the camshaft portion 14b rotatably connected through the clutch actuating lever acting as the sixteenth For this purpose, not shown, interlocking coupling organs can be provided. The rotary table 26 , whose contacts assigned to the printed circuit board 28 can switch the contact tracks of this printed circuit board, is also rotated via this rotary coupling. This allows signal contacts to be operated.

Independently of this rotary switch, the contact levers 58 of the pressure switch combined with the rotary switch can be actuated, ie the switching function below can be carried out in any angular position of the adjusting shaft 18 . By pressing the control shaft 18 , the actuating cone 16 is axially displaced and lifts the slide 46 , whereby the contact lever 54 , as shown in Fig. 4, close the contacts. The insertion position is fixed by the latching heart mechanism 60 , 64 , 66 until the actuating shaft is returned to the starting position by further pressure on the actuating shaft 18 via the control mechanism and the compression coil spring 42 .

Fig. 5 illustrates a rotary cam switch in which the actuating shaft 18 can be fixed in two axial positions by means of a latching mechanism, but in contrast to the embodiment according to FIGS . 1 to 4, the different axial positions have no electrical switching function. With a cam rotary switch designed in this way it can be achieved that the switching knob 72 can be sunk into the cover of the household appliance. In this case, the hollow camshaft 14 is formed in one piece and connected to the actuating shaft 18 in a rotationally fixed manner via a corresponding cross-sectional profile. The return spring 42 a is supported against an annular step 74 and the shaft step 50 of the actuating shaft 18 . In this case, the control curve of the latching heart 60 , as a comparison of FIGS. 6 and 2 shows, is designed to be somewhat longer in order to have a larger stroke available. However, the entire locking mechanism is also accommodated here within the axial length of the switch housing, so that no additional space is required for the axial actuation, neither on the operating side nor on the rear.

Fig. 7 shows an application example of the switch according to the invention according to Fig. 1 to 4. The rotary cam switch 76 acts on switching contacts 78 , which gradually set a series resistor 80 of a motor 80 , which drives the fan of a fume hood. The pressure switch 84 combined with the rotary cam switch switches the lighting 86 .

The invention is of course not based on this embodiment limited and can be used wherever a Switching through clearly different movements is desired.

Claims (9)

1. Cam rotary switch with a in a switch housing ( 10 ) between two bearing flanges ( 12 ) rotatable, but axially non-displaceably mounted, lockable in several angular positions, hollow camshaft ( 14 ) and in this hollow camshaft ( 14 ) axially displaceable but rotatably guided adjusting shaft ( 18 ), the latter of which can be locked in several axial positions, characterized in that the axial locking mechanism ( 60 , 62 , 64 , 66 , 68 , 70 ) between the hollow camshaft ( 14 ) mounted in the housing ( 10 ) and the actuating shaft ( 18 ) is arranged. 2. Cam rotary switch according to claim 1, characterized in that the actuating shaft ( 18 ) carries a transversely displaceable locking pin ( 64 ) which runs in a locking link ( 60 ) on the inner wall of the hollow cam shaft ( 14 ). 3. rotary cam switch according to claims 1 and 2, characterized in that the latching backdrop is arranged in a sheet Chen, which is axially and angularly fixed in a recess ( 62 ) of the inner wall of the hollow camshaft. 4. Cam rotary switch according to claims 1 and 2, characterized in that the locking pin ( 64 ) with its end facing away from the locking link protrudes into a transverse slot ( 70 ) of the actuating shaft ( 18 ) and is carried by a disc ( 66 ) which is in a Recess ( 68 ) of the actuating shaft ( 18 ) is guided slidably ver. 5. Cam rotary switch according to one of claims 1 to 4, characterized in that the hollow camshaft is divided into a front section ( 14 a) and a rear section ( 14 b) which are bridged by a coupling piece ( 16 ) connecting them in a rotationally fixed manner, which opposite the two axially fixed camshaft sections ( 14 a, 14 b) is axially displaceable. 6. Cam rotary switch according to claim 5, characterized in that the coupling piece ( 16 ) via a form-locking stop ( 50 ) of the actuating shaft ( 18 ) axially against spring pressure ( 42 ) and has an actuating cone which has a hollow camshaft ( 14 b ) enclosing hole ( 48 ) of a radially adjustable slide ( 46 ) is insertable bar. 7. rotary cam switch according to claim 6, characterized in that the return by a spring ( 52 ) in the starting position slide contact actuating arms ( 54 ) which act on the contact lever ( 58 ) of the cam switch. 8. Cam rotary switch according to claims 1 to 4, characterized in that within the undivided cam shaft ( 14 ) a compression coil spring ( 42 ) is mounted on the actuating shaft ( 18 ) and is supported against a step shoulder ( 50 ) of the actuating shaft and the camshaft. 9. rotary cam switch according to one of claims 1 to 8, characterized in that the hollow camshaft ( 14 ; 14 b) carries a switching plate ( 26 ) which cooperates with switching contacts of a housing-fixed circuit board ( 28 ).