DE1763728B2 - Electric oscillating armature motor with adjustable natural frequency - Google Patents

Description

The invention relates to a device for adapting the natural frequency of the vibrating system of a Oscillating armature motor to different network frequencies by means of additional masses, in particular the door Dry razors.

Such institutions are mainly in the federal states required in which the general power supply system with different line frequencies Is provided.

The adjustment of the natural frequency to the mains frequency can be done on the one hand by changing the spring characteristic, on the other hand, however, also by changing the moment of inertia, i.e. by shifting or Change the inertial mass of the oscillating system.

For example, oscillating armature motors for electric dry shavers are known (German Auslegeschrift 1 162 462), in which the adjustment of the natural frequency of the oscillating system is made by changing the directional force of a return spring. In a special embodiment of this type , the oscillating system consists of two moving individual systems containing the two magnetic arms. The change in the straightening force of the return spring takes place here in such a way that the relative position of the two moving systems does not change and the coincidence of the centers of gravity of these moving systems required to avoid disruptive vibrations is not lost.

S Swing armature motors are also known (German utility model 1819 727). where the return springs as a helical spring ^ on both sides of the rocker arm and diagonally towards the armature between perpendicular to the spring axis, axially

* o adjustable bearings are arranged and one full or have almost the full number of turns, so that their spring constants and thus the natural frequency the system can be changed within narrow limits by turning the springs in the bearings.

»5 In another known oscillating armature motor (German patent specification 1 174 416) with one on one Anchors attached to leaf springs are for the operationally necessary setting of the spring constant and thus the resonance frequency of the system is several

Slidable clamping strips provided with which the clamping length of the leaf spring and thus its freely oscillating length can be changed so that the spring constant corresponds to the magnetic flux of the oscillating armature motor.

»5 The frequency tuning of the mechanical system by changing the spring characteristic, however, it is usually not possible to carry out it with sufficient precision is required for dry razors. because the tolerances for springs are generally too great.

One is therefore with another well-known Oscillating armature motor (German patent specification 828 884) switched to frequency tuning To move the inertial mass. For this purpose there is an additional one on the rocker arm Mass arranged in the form of a screw, which is adjustable in the direction of the swing axis, whereby the moment of inertia of the vibrating system changes and thus the natural frequency of the system can be adjusted.

The oscillating additional mass is, however, constantly connected to the rocker arm, not without further ado externally accessible and cannot be adjusted while the device is in operation, so that this Frequency tuning by the consumer himself

table cannot be made. In addition, only small ones can be achieved with such arrangements Achieve frequency changes, especially with dry razors because of the low available standing room does not accommodate the necessary large adjustment paths for the additional dimensions can be.

After all, it is with oscillating armature motors for larger machines. /.B. Vibrating conveyors, vibrating screens and vibrating machines are basically known (German utility model 1741393, German patent 801 237). to change the natural frequency of the oscillating system by adding or removing additional masses in a larger area, but this measure can also not be taken during operation of the machine and is in this known manner, especially for smaller devices such as dry shaver or the like. Not applicable .

The object of the invention is to create a single

multiple devices of the type mentioned at the beginning, which can also be used for small electrical appliances and can be operated by lay users.

This object is achieved according to the invention

! That additional mass is mounted coaxially to the oscillating armature per frequency stage ), which is pressed by a spring en the oscillating armature and can be lifted off the oscillating armature against the action of the spring by a cams that are mounted on the housing and can be adjusted from the outside of the housing.

[According to an advantageous embodiment of the invention, the additional mass is in two on either side of the vingankers arranged partial masses, expediently designed with the same mass in order to maintain the symmetry of the tangential acceleration of the vibration amplitudes. Advantageously, the spring acts exclusively on the associated partial masses in order to reduce the influence of et-5s Exclude bearing friction of the spring on the vibrating em.

_ 'In order to prevent hitting the cam when the partial masses are in the engaged position, the Partial recesses provided.

In an advantageous development of the invention is! finally with a dry shaver with a voltage selector switch the actuating device coupled to the voltage selector switch, so that the user of the Apparatus can adjust both the frequency and the voltage with a single movement of the hand. An exemplary embodiment of the invention is shown in the drawing. It shows

Fig. 1 is a front view of a partially cut away Dry shaver with built-in oscillating armature motor, some components of which are better Are omitted for the sake of clarity,

FIG. 2 is a view along section line 2-2 in FIG. 1,

3 shows the oscillating system of the oscillating armature motor according to FIG. 1.

Fig. 4 is the same view as in Fig. 3, with additional Components,

Fig. 3 parts of the oscillating armature motor in an exploded view Representation,

Fig. F> a detail in a schematic representation.

The dry shaving apparatus shown in FIG. where the usual electrical switching elements are not shown, has a longitudinally divided housing 1, which consists of two shells 2 and 3 and carries a removable frame 4 in which a sieve film 5 is clamped in an arched manner. She works with you Knife block 6 together, which is driven by a vibrating armature motor, which will be described in more detail below 7 set in reciprocating motion by a swing arm 8 and by a upper cylindrical end 9 of the swing arm 8 coiled spring 10 is pressed against the sieve film 5. The oscillating armature motor is attached to a mounting plate 11, which in turn is attached to the one housing shell 3 by means of screws, of which in FIG. 2 only one screw 12 can be seen is mounted. The motor has an electromagnet, of which only the two pole pieces 13 and 14 and the in the drawing Bobbins 15 and 16 are shown. An axle 17 is also attached to the mounting plate 11, on which the above-mentioned swing arm 8 is pivotably mounted, which in turn at its lower End carries the oscillating armature 18, which interacts with the pole pieces 13 and 14. At the Rocker arm 8 g / dfen two coil springs 19 and 20. which are at their outer ends against two Support abutments 21 and 22 formed on the mounting plate U. There is one in an abutment Screw 23 guided, which is used to adjust the rest position of the oscillating armature 18 with respect to the PolscmAen 13

and 14 serves. The free end of the axle 17 is in a bore 24 (Fig. 5) of an approximately T-shaped bridge 25 stored, the yoke 26 attached with two screws 27 and 28 to bases 29 and 30 of the mounting plate II is and thus the pole pieces 13 and 14 Gegei. dit

Mounting plate 11 presses. In Figs. 1 and 3 this is Bridge 25 omitted to allow a view of the components below, described below to release.

On the axis 17 is between the rocker arm 8 and the bridge 25 an additional mass in the form of two arms 31 and 32 made of metal, pivotable stored, which carry cylindrical lugs 33 and 34 at their free ends. A spring 35 engages with her ends 36 and 37 bent at right angles in bores 38 and 39 (FIG. 4) of lugs 33 and 34 and pressed the arms in the swing armature 18 as shown in FIG. 1.

In an opening 40 of the bridge 25, by means of a pin 41, a circular segment-like nip 43 formed on a disk 42 is rotatably mounted, which is through eil :. ¹ in a square hole 44 (FIGS. 1 and 2) of the pin 41 insertable button 45 is adjustable. In Figs. 1 and 2, button 45 is omitted. As can be seen in particular from FIG. the cam 43 engages between the arms 31 and 32 of the additional mass and, when it is rotated to the upper position according to FIG i g. 1, however, the cam 43 remains ineffective, the arms 31 and 32 with their lugs 33 and 34 remain in engagement with the oscillating armature 18 through the action of the spring 35 and can swing freely with them. Ensure recesses 46 and 47 on the arms 31 and 32,

^ o that the arms in the engaged position according to FIG Do not strike the cam 43 during its oscillating movement.

The button 45 protrudes outward through an opening 48 (FIG. 2) in the associated housing shell 2, see above that it is readily accessible. Instead of a slotted button, which is usually by means of a Coin can be twisted, a knurled knob can of course also be used. The operation of the devices described above is as follows:

The oscillating system of the oscillating armature motor 7. consisting of the oscillating arm 8 with spring 10, of the knife block 6 and oscillating armature 18 and of the helical springs 19 and 2i). is in its natural frequency, which depends on the mass of the vibrating components and the springs, to a network frequency / of, for example, W H /. Voted

The additional mass, consisting of the spring 35 and the two arms 31 and 32 with the cylindrical lugs 33 and 34 is dimensioned so that the natural frequency drops to 50 Hz when the additional mass of the mass of the oscillating system is switched on. This state of the oscillating system is shown in FIG. 1 and the dry shaver can

can therefore be operated in this switch position with a mains frequency of 50 Hz.

If, on the other hand, the apparatus is to be operated with a mains frequency of 60 Hz, the adjusting knob 45

and with it the cam 43 shown in FIG Position rotated by 180 °, whereby the cam the two arms 31 and 32 or their lugs 33 and 34 pushes out of engagement with the oscillating armature 18, as in FIG. 3 is shown so that they are on the swing process no longer participate, which brings the natural frequency of the vibrating system back to 60 Hz increases.

The change of the natural frequency can be done with a voltage selector switch common with dry shavers, with which an adaptation to the respective line voltage is carried out, for example 110 Volts or 220 volts.

As the schematic representation in FIG. 6 shows, the adjusting knob 45 is provided with a for this purpose Gear 49 provided, which meshes with a second gear 50, which »in turn with a contact finger 51 of the voltage selector switch 52 is firmly connected. The gears are sized so that one rotation of the button 45 by 180 ° corresponds to a rotation of the contact finger 51 by 90 °. The contact finger 51 passes over four on an insulating plate 53 of the voltage selector switch 52 offset by 90 " Contacts 54, 55, 56 and 57, which have wires with corresponding taps on the bobbin stay in contact. Likewise, the contact finger 51 is not connected to one pole of the via a wire 58 shown mains plug connected. The assignment of the cam 43 to the contacts of the voltage selector switch is made in such a way that the following voltages and frequencies are switched can:

Contact 54
Contact 55
Contact 56
Contact 57

110 volts, 60 hertz
110 volts, 50 hertz
220 volts. 60 Hertz
220 volts, 50 hertz

A display device can be connected to the gearwheels 49 or 50, which shows the respective switching position of the dry shaver can be seen from the outside.

1 sheet of drawings

Claims (6)

i 763 728 Claims; J. Device for adapting the natural frequency of the oscillating system »of a vibrating armature motor to different network frequencies middle!" Additional masses, in particular for dry razors, characterized in that that coaxially to the oscillating armature (18) per frequency stage an additional mass (33, 34) is mounted which pressed by a spring (35) against the oscillating armature (18) and by a in the resting part (25) of the apparatus mounted and adjustable from the outside of the housing cams (43) against the action of the spring (35) can be lifted off the oscillating armature (18). 2. Device according to claim 1, characterized in that each additional mass is divided into two partial masses arranged on both sides of the oscillating armature (31, 33 and 32, 34). 3. Device according to claim 2, characterized in that that the partial masses (31, 33 and 32, 34) have the same mass. 4. Device according to claims 1 and 2, characterized in that the spring (35) exclusively acts on the associated partial masses (31,33 or 32, 34). 5. Device according to claims 1 and 2, characterized in that recesses (46 or 47) are provided on the partial masses (31, 33 and .72, 34) which, in the engaged position, cause the partial masses a_ »i cams ( 43) prevent. 6. Device according to claim 1, characterized in that the adjusting device (41 to 45) is coupled to a voltage selector switch (52).