DE647041C - Rotary switch with eccentric jump mechanism - Google Patents

Description

The invention relates to installation rotary switch with eccentric sprungwerk. the known eccentric jumpers have a locking bolt that is controlled by an eccentric firmly connected to the ■ 5 switch axis will. When the handle is turned, the axis that acts between the handle and the shift drum is turned The quick-action spring is tensioned, but the shift drum is initially still through the locking bolt held until the spring exerts sufficient tension and the eccentric pulls the locking bolt out of the fixed notches. At this moment the spring comes into effect, so that it hurls the shift drum into the other shift position.

Among the well-known rotary switches this one

There are types in which the axis of rotation carrying the handle together with the eccentric, the from Eccentrically controlled locking bolt and the stationary one interacting with the bolt Link of the ratchet locking mechanism form a spring mechanism, which as a whole with the shift drum is coupled.

With some jump units of this type, a fixed connection to the switch wake is installed in parallel Approach running to the switch axis is used as a system for the spring ends which is necessary for tensioning the spring. According to the invention This approach is also used for the detachable coupling of the roller with the jump mechanism and for guiding the from Eccentric controlled locking bolt. This measure enables convenient storage and coupling of the eccentric jump mechanism as a whole.

To hold the individual parts of the jump gear together and to secure the axis and of the eccentric bolt against longitudinal displacements can according to the invention also the Eccentrics controlling locking bolts have a flange-like collar that overlaps the bolt, and the bearing bracket penetrated by the switch axis engage directly in a circumferential recess of the axis, so that it forms a split pin washer. The last two measures listed relate to Possible embodiments and further developments of the invention in eccentric jump mechanisms are also valuable in other contexts and are inventive in themselves.

In the drawing, FIGS. 1 and 2 show a switch with one according to the invention trained eccentric jump mechanism.

In FIGS. 3 to 5, the same jump mechanism is shown on a larger scale.

Figs. 6 and 7 show another embodiment.

In Figs. 1 and 2, 1 is the insulating base of the switch, 2 the cover cap and 3 the rotary knob. With 4 there are two shift drums designated. It is a multi-pole switch, e.g. B. to regulate heating circuits, whose contact organs are arranged on two floors one above the other. 5 is the axis of rotation carrying the handle.

*) The patent seeker stated as the inventor:

Walter Schruut in Berlin-Siemensstadt:

Between toggle 3 and cap 2 there is a spring 6 which holds the cap against the base presses. The shift drums 4 are firmly seated on a socket 7 which is connected to a toggle 3. opposite bearing pin engages in a hole in the base. With the Socket 7 is riveted to a driver 8. The socket also has a hole into which the End of the switch axis 5 freely rotatable in-ίο engages.

The jump mechanism is arranged on a bridge 9 which crosses the shift drums. The bridge is attached to two of the insulation base \ ^r orsprüngen 10, by the designated Ii screws. 12 are the terminals of the switch provided with the contact springs and 13 are the wall mounting holes.

The jump mechanism, the training of which can be seen in more detail in FIGS. 3 to 5, contains following parts. A detent disk 14 is located under the bearing bracket 9 leading the axis 5 arranged, which can optionally also consist of one piece with the bearing bracket. The disc 14 has a wide bore for the passage of the remaining parts of the jump mechanism. It carries the stationary locking stops 15. The controllable one acts with these stops Locking bolt 16 together. The bolt sits on an eccentric 17. The eccentric has a flange-like collar 18, which the locking bolt 16 moves axially in the direction to the shift drum prevented. Moving the bolt to the other side is made possible by the between the bridge 9 and the eccentric arranged spring housing 19 excluded. The spring housing consists of the usual way from a bent stamped piece. The tension spring 20 set under pretension +0 lies with its over the spring housing protruding ends against both sides of one formed by the housing Bridge.

The locking bolt lays down with it. its two outer sides against a projection 15 each Detent disk 14 (Fig. 3). The bolt has a recess between the two contact points. Through this recess, the driver 8 seated on the roller engages in the area of the ends of the tension spring 20.

The individual parts of the jump mechanism are connected to one another in the following way. The switch axis 5 has a circumferential incision at 21. According to FIG. 5, the bore of the bearing bracket 9 is enlarged by two lateral incisions 22. After the switch axis has been pushed through, the bridge 9 is compressed so that the incisions 22 and the bore for guiding the switch axis are reduced in size. The bridge then engages in the circumferential incision 21 of the axle and couples both parts to one another. The cam 17 sits on a non-circular position of the axis, in such a way that it is secured against axial erschieben \ ^T. The individual parts of the jump - '.' · Work are therefore on the one hand by the 'riveting between the switch axis 5 and bearing bracket 9, on the other hand by the collar

18 of the eccentric held together. The axis 5 is loose in the hole or the Socket 7 of the shift drum inserted. Since the driver 8 connected to the roller loosely inserted through the guide notch of the locking bolt 16 in the area of the tension spring is, you can jump off the gearshift drum that has been combined to form a whole to solve.

The effect of the mechanism with regard to the jump and trigger effect is the same the well-known eccentric switches. By turning the toggle, the spring housing is opened

19 rotated and thereby taken one end of the spring, while the other end sets against the driver 8 and is held in its rest position. Consequently the spring 20 is tensioned. Your tension force exerted on the holding roller remains for the time being ineffective because the locking bolt 16 holds the driver in its rest position. Has In the further course of the rotary movement of the toggle, the spring has sufficient tension When the locking bolt 16 is reached, the eccentric 17 gradually moves towards the axis is moved out of the area of the stationary detent projections 15, so that the spring is released will. The shift drum is then thrown into the next position, where the The locking bar strikes against the next notch projection and the movement of the roller ! »Borders.

FIGS. 6 and 7 show another embodiment in connection with a packet switch.

The closed switching chamber made up of a package of individual rings the contact device is denoted by 23. On the axis that leads outwards the contact device sits the driver 8. The locking bolt 16 lies in the same plane like the detent disk 14. The detent disk does not have any protruding axially Lock approaches. The stationary notches 24 are rather only by a suitable Shaping the punched hole of the detent disk achieved. The disc is made therefore from a simple stamped piece. There are no embossing or Bending work required. The riveting of the switch axis 5 with the bearing bracket 9 iao is achieved with the help of a split washer 25, which is pushed onto the axle and through

Squeezing is secured in their position. The eccentric 17 also has this Embodiment a flange-like collar 18, the locking bolt 16 in his Location secures. According to the invention, the eccentric is also used as a guide for the Tension spring 20 is formed. For this purpose, the eccentric or its flange-like Edge a projection 26 against which the spring ends lay. Eccentric, spring housing and a device for securing the locking bar in its position are therefore at this embodiment of a single body, which z. B. may consist of injection molding. In the illustrated embodiments, the coupling between the driver and the spring mechanism takes place according to the invention as follows a lot of play in the axial direction, that thereby measuring differences of the individual, with the same Jump work couplable contact devices are compensated. As a result, it doesn't do any Difficulties, several contact devices, especially shift drums, with a different training to be set up in such a way that they can be coupled with one and the same jump mechanism. A comparison of FIGS. 1 and 7 reveals this without further ado. Fig. 1 shows a Jump mechanism with controlled release in connection with a shift drum, as in Wall switches, regulating switches or the like (box switches) is common. 7, however shows a jump mechanism in connection with a parcel counter. Naturally, both The same jump mechanism is used for the regulating switch and the package switch will.

Furthermore, one can different from one another for one and the same contact device Provide trained jump units. For parcel counters, for example, it is common to either a jump mechanism with controlled release, e.g. B. an eccentric jump mechanism, or to give a simple frame work. The jump mechanism with controlled release is more advantageous for direct current. Namely, it guarantees an always erratic Rapid movement of the contact roller. This causes the creation of an electric arc difficult. The simple grid, z. B. has a leaf spring wedge lock, however only the effect of stopping the contact element in an intermediate position exclude and to accelerate the movement of the contact organ at the moment of making and breaking contact. However, the movement of the roller is slower than with a controlled jump unit Release, and its speed is inevitably dependent on that of the rotary knob. Such a rear derailleur is more advantageous for alternating current because it guarantees that the voltage reaches its zero value at least once during the slow switch-off process, where an approximately created arc to the-. delete comes. With the invention it becomes possible the storage of package counters or other switches that require an adjustment to direct current or alternating current is desired to simplify. In all cases the same contact device is used and the partial mechanism of the spring-loaded or ratchet mechanism that is detachable from it as a whole put on as required.

The above-discussed training of the eccentric in such a way that it is out of control the 'locking bolt takes over the function of the locking bolt against the axial Move to secure or at the same time the tensioning device for the coil spring to form, can also be used advantageously in the case of eccentric switches that are otherwise designed.

The formation of the riveting between the shift drum and the bearing bridge, which can be seen in FIGS. 4 and S, in which the bridge is used both for storing and guiding the ¹ axis as well as for holding the individual parts together and for preventing longitudinal movements of the axis, is also used in rotary switches with eccentric jumpers other training applicable and gives the same advantages there.

A simplification of the switching mechanism can also be achieved if the Switch axis with the eccentric or the spring housing or with both parts a single piece. That is easy to do when you are about to manufacture Injection molding used. In the case of the switch shown in FIG. 7, for example Switch axis S, eccentric 17, collar 18 and clamping extension 26 from a single piece Injection molding exist. An iron pin can be embedded in the injection-molded part. The locking bolt can be pushed over from the side of the axle 5 opposite the eccentric will. Then the bearing bracket 9 is put on and with the axis 5 splinted. In this way, one obtains a part consisting of very few parts mechanism. The production of the switch axis, the eccentric, etc. from a single one Piece, in particular made of injection molding, is naturally also for other jumpwork constructions α valuable.

Claims (9)

Patent claims: i. Rotary switch with eccentric jump mechanism, in which the axis of rotation carrying the handle In addition to the eccentric and quick spring, the locking bolt controlled by the eccentric and the stationary notch plate cooperating with the bolt into one Jump mechanism are combined, which is detachably coupled as a whole with the shift drum S, characterized in that a with Attachment ("S) that is firmly connected to the switch drum and runs parallel to the switch axis, which serves in a known manner as a plant for the ends of the tension spring ίο, as the only coupling part between Roller and spring mechanism and is used for the radial guidance of the locking bolt controlled by the eccentric. 2. Rotary switch according to claim i, characterized in that the eccentric lock including the stationary detents and the tension spring exposed to the coupling point between the spring mechanism and the switching element are inextricably linked with a bridge that crosses the switching drum to support the switch axis and are opened by placing the bridge the switch base can be coupled to the attachment (8) on the roller. 3. Rotary switch with eccentric jump mechanism, in particular according to claim 1, characterized characterized in that the eccentric controlling the locking bolt is a flange-like one Has collar that engages over the bolt and thereby secures it against longitudinal displacement. 4. Rotary switch according to claim 3, characterized in that the spring containing tensioning device, in particular a spring housing, on the opposite Side of the federal government is arranged and the locking bolt on moving to the opposite of the federal government Direction prevented. 5. Rotary switch according to claim 3, characterized in that the switch axis, the bearing bridge, the tension spring, the eccentric and the locking bolt on the one hand by one in an incision the switch axis gripping split pin or Xiet disc, on the other hand held together by the collar of the eccentric and with the storage bridge are inextricably linked. 6. Rotary switch with eccentric jump mechanism, in particular according to claim 1, characterized characterized in that the base overlapping, penetrated by the switch axis bearing bridge by means of a to be pressed part engages in a circumferential recess of the axis and thereby prevents longitudinal movements. 7. Rotary switch according to claim 6, characterized in that the bearing bracket has a hole that is interrupted by lateral recesses and thereby expanded, which after the switch axis has been pushed through by compressing the lateral ones lying between the webs Recesses is reduced so that it engages in an incision in the axis and Connects the axis and the bridge. 8. Rotary switch according to claim 1, wherein for the same switch base or for one and the same contact roller apart from the eccentric jump mechanism that can be detached as a whole another stepped mechanism is provided for slower shifting, thereby characterized in that the eccentric jump mechanism is interchangeable with the click mechanism is such that the coupling 'of the ratchet mechanism with the contact roller just as with the eccentric jump mechanism with the help of the attachment on the roller that runs parallel to the axis he follows. 9. Rotary switch according to claim 1, characterized in that the switch axis, the eccentric that controls the locking bolt of the spring mechanism and the extension for tensioning that runs parallel to the axis the spring is made from a single piece, in particular from injection molding are. go 1 sheet of drawings