DE1463999B2 - Oscillating armature motor - Google Patents

Description

The invention relates to a vibrating armature motor for driving tools, in particular of the cutting links of hair clippers and dry razors, where the tool is connected to the An armature swinging about an axis is connected by a spring.

The cutting tools in such devices are oscillating behind one or more shaving combs or shaving plates moved back and forth.

It is already known in razor drives to have two elastic connecting elements arranged parallel to one another clamped on one side in a housing and attached to the free ends of the movable cutter. By means of an electromagnet vibrations are then imposed on this structure. This arrangement gives the shear knife however, only unsatisfactory cutting properties, since the clamping of the shear knife as a result of large length of the elastic elements is not very directionally stable. Already minor from the outside on that The shocks exerted by the drive system have an unpleasant effect on the vibrations of the elastic elements Influence and lead to unpleasant disturbances in the movements of the cutting blade. In addition, the Vibrations of the armature are transmitted to the hand of the device user and cause the movement the parts of the motor and the cutting members from such oscillating movements that their masses and the the resulting vibrations reinforce each other. To compensate for these disturbances is an attenuator is also arranged in the housing of one of the known devices.

It is also known to attach the movable armature to an electromagnetic impact device to attach a rotatably mounted rocker arm and with the interposition of a spring with the Connect tool. In this way, the vibrations of the tool are increased; however, the increased vibrations are also transmitted back to the handle. Also has the device does not have great vibration stability, which makes it unsuitable for facial care.

It is the object of the invention to improve oscillating armature systems of the type mentioned to the effect that they are vibration-stable and transmit fewer vibrations to the handle.

In the case of a vibrating armature motor of the type mentioned at the outset, the problem posed is achieved by that according to the invention, the spring between the tool and the anchor in two opposite Support points is supported in such a way that it remains displaceable there only in its longitudinal direction.

The oscillating armature motor according to the invention has the advantage that the tool guides well has, since the spring is supported again not far from the clamping point of the tool. in the The whole thing is the oscillating armature motor thanks to the additional support between the two spring clamping points substantially stabilized. In addition, a vibration node is formed at the support point, which increases the vibration stability of the system increased. For the user, this means a smoother running of the engine and transmission less vibrations on the handle.

According to an advantageous embodiment of the invention, the end of the spring, which is the tool drives, provided with one or more fingers, the slot provided in a tool or in several slots are both tiltable and slidable.

The invention is explained in more detail using the exemplary embodiment shown in the drawing.
Fig. 1 shows a longitudinal section through a device with a motor according to the invention;

F i g. Figure 2 shows a longitudinal section through another device according to the invention.

The device according to FIG. 1 is a dry shaver,

ίο its razor plate 13, behind which the cutting plate 8 moves, one end of a largely cylindrical or prismatic housing forms.

The cutting member 8 has two lugs 8 a, which together form a slot in which a finger 9 can slide and tilt at the same time. The finger 9 is firmly cast on an elastic element 6 or is firmly connected to it in some other way. The elastic element here has the shape of a narrow one

ao edge drawn leaf spring and forms the only connection with the lower end of the armature 4 of the Engine 1.

The U-shaped stator 2 is excited by the coils 3 with alternating current. Per period of alternating current the armature 4 performs a complete oscillation about its axis 5.

The vibrations of the armature 4 are transmitted to a leaf spring 6, which is on both sides of two, one another opposite rollers 10 is guided, which are supported by two supports 11, which in turn are attached to the housing 20. The linear support of the leaf spring 6 on both sides results in an the support point is a vibration node. The leaf spring 6 forms with the mass of the armature 4 on one End and the masses of the finger 9 and the cutting member 8 at the other end a vibration system, whose natural frequency depends on the stiffness of the leaf spring 6 and on the size of the moving Masses depends. The oscillation frequency of the structure depends on the oscillation frequency of the the leaf spring part connected to the armature and the vibration frequency of the with the cutting members connected leaf spring part. The sizes of the vibration amplitudes of the armature and the cutting links let each other on the most favorable values by appropriate choice of the masses of each of these Set items. In order to achieve the best result, the natural frequency of the vibrating structure must equal to or nearly equal to the frequency of the magnetic generated by alternating current in the coils Be forces. The stiffness of the leaf spring 6 is due to its dimensions and shape; the point of the vibration node, however, can be determined by the two rollers 10 and the sizes of the set moving masses.

From Fig. 1 it can be seen that the leaf spring 6 is transverse to both sides with respect to its rest position 7 Performs vibrations (see the dashed lines), with the antinodes between the Axis 5 and the rollers 10 and occur at the end to which a finger 9 is attached. About changes in distance to allow between the finger 9 and the axis 5 due to the bending of the leaf spring in the vicinity of the antinodes must

the leaf spring 6 firmly connected to the armature 4 can slide between the rollers. To this Purpose are the rollers 10 made of elastic material, the elasticity being selected so that the sheet

spring 6 can be bent and shifted somewhat in its longitudinal direction.

F i g. Fig. 2 shows another embodiment of a device according to the invention, in which the cutting surfaces, which form the razor plates, form part of the side surfaces of the housing, which is an elongated Has shape.

In the figure are those of FIG. 1 corresponding Parts are denoted by the same reference numerals.

The moving part 16, which is attached to the leaf spring 6 in the same way as the finger 9, has at its end two identical fingers, which can slide and tilt simultaneously in slots that are in the cutting members 8 and 14 are provided.

The additional cutting member 14, to which the shaving plate 15 is assigned and also serves for shaving, could also be used for hair cutting.

It can be seen that the cutting members 8 and 14 are driven in the opposite direction by the oscillating movements of the leaf spring 6 triggered by the motor 1 via the movable part 16 in the longitudinal direction of the relevant razor plates. In this embodiment, the moving masses can be completely balanced because the cutting members 8 and 14 with the drive part 16 form a mass which rotates around the pivot point between the rollers 10 opposite to the armature 4 swinging around the axis 5. If the masses are chosen correctly, the device works free from vibrations.

The use of the motor with the oscillating armature according to the invention is limited to devices described above. Such a motor can also be used in small pumps and vibrating brushes use.

Claims (2)

Patent claims: 1. Oscillating armature motor for driving tools, especially the cutting links of Hair clippers and dry razors, in which the tool with the around one Axis oscillating armature is connected by the spring, characterized in that the spring (6) between the tool (8,14) and the anchor (4) is supported in two opposite support points (10) in such a way that it there remains displaceable only in its longitudinal direction. 2. Motor according to claim 1, characterized in that the end of the spring (6) which drives the tool (8,14) is provided with one or more fingers (9,16) which are in one in the tool (8) provided slot or in several slots are both tiltable and displaceable. 1 sheet of drawings