DE3528115C1 - Device for a domestic vibration apparatus which is driven by means of a single-phase synchronous motor - Google Patents

Abstract

The invention relates to a device for a domestic vibration apparatus, especially a dry-razor apparatus which is driven by means of a single-phase synchronous motor (3), the motor shaft (5) having a cam (7) whose contour (9) is followed by a contact-pressure roller (13) which is rotatably supported on a lever (15) which can pivot about an oscillating bearing (18). The lever (15) causes vibration of a vibration part (8) which is to be driven. The contact-pressure roller (13) is pressed in the direction of the cam (7) by means of a contact-pressure spring (21). As a supplement to the contact-pressure roller spring (21), a further vibration contact-pressure spring (29) is provided which acts directly on the vibration part (8) which is coupled to the lever (15), in such a manner that the effect of its force via the lever (15) and the contact-pressure roller (13) assists the contact pressure of the latter on the cam (7). <IMAGE>

Description

The invention relates to a device for a driven by a single-phase synchronous motor Household vibration device, especially a dry razor in which the motor shaft carries a cam, whose contour is scanned by a pressure roller, the on a lever that can be swiveled around a swivel bearing is stored, which is a vibrating part to be driven Vibration offset, the pressure roller using a Pressure spring is pressed in the direction of the cam.

Such a prior art class direction is in the subsequently published DE-OS 34 04 297 described. The spring used here has the task the contact between the cams and a roller also under to maintain dynamic conditions and in addition, the rotor in the rest position twist that the main direction of magnetization of the rotor is rotated from the main stator field direction. These Arrangement has the disadvantage in vibration devices that because of maintaining contact between The roller and cam require the large spring force Friction losses in the vibration system are very large. A part the engine power is caused by this friction loss consumed.  

A device is known from DE-OS 25 13 007, at the one against the one cam from opposite direction against pressure rollers that are on sliders are displaceable against each other and away from each other. These Device represents and has a preliminary start-up aid nothing to do with the actual operation. By means of the the cam is spring-loaded after the ver turn the stator even with high friction values Turn the rotor so that starting is always guaranteed or, in other words, that the main magnetization direction of the rotor from the main stator field direction so is twisted that both directions form an angle include others. Would both directions of magnetization coincide, then the motor would not start Lich.

Furthermore, it is from French FR-PS 8 72 634 known in a machine tool with a cam scanning system by means of the swing arm scanning the cam to press a spring against the cam. Task of the spring it is the constant contact between the swivel arm and cams upright even under dynamic conditions to obtain.

It has been shown that such vibration systems are disruptive Develop noises. These noises arise to one considerable part by the in the transmission path mechanical games. These games, which are sometimes necessary lead to uncontrolled movements of the lower knife corresponding noises.

It is known to develop noise through zero backlash Combat constructions. For example, at a construction according to FR-PS 8 72 634 one with this provided pressure spring a clearance.  

The object of the invention is a drive device to realize the type mentioned, in which the one phase synchronous motor starts safely and the arm on disturbing noises.

The object is achieved according to the invention in that that in addition to the roller pressure spring another pressure spring is provided, which is directly related to the Lever coupled vibrating part acts in such a way that their Force applied via the lever and the pressure roller Pressure on the cams supported.

The additional pressure spring fulfills two things Tasks. On the one hand, it supports the roller pressure spring and on the other hand eliminates them in the lever system up to Vibration part existing games in the transmission path. In order to become noises that are the result of such game are avoided.

According to a further embodiment of the invention is before seen that the spring force of the roller pressure spring and the Pressure spring are coordinated so that both Together they absorb the force to press the pressure roller apply to the cams.

Through the additional use of the pressure spring, the Spring force of the roller pressure spring can be reduced because both springs no longer need to apply force together than the roller pressure spring previously applied. Since the Do not verify total spring force on pressure roller and cam is reduced, the starting aid remains by twisting of the rotor guaranteed. Throwing away the pressure roll from the cam is also by the retention the pressure force on the cams secured. Furthermore but the noises are made by the sensible arrangement of the Pressure spring avoided at the end of the transmission path.  

The invention is illustrated by the in the drawing th embodiment explained.

The drawing shows a double-armed lever drive for a vibration device with a contact roller scanning a cam. On a mounting wall 1 of a dry shaving apparatus, a synchronous motor 3 is fixed with its permanent magnetic rotor 4 . The drive shaft 5 of the synchronous motor protrudes vertically from it and points upwards out of the plane of the drawing. On the drive shaft 5 , a cam 7 is arranged, which has such a contour 9 that a lower knife 8 of the vibration device experiences a sinusoidal deflection depending on the angle of rotation of the cam when the cam 7 rotates. The longer center line of the cam 7 is designated 41 .

A contact roller 13 presses against the cam 7 and is mounted in a double-armed lever 15 in a roller bearing 19 . The two-armed lever 15 has two lever arms 16 and 17 which around a common pivot bearing 18 between the two lever arms 16 and 17 are pivotable. The pressure roller 13 is mounted in the lever arm 16 by means of a roller axis 19 . The lever arms 16 and 17 are rigidly connected to one another, and the center line 37 and the connecting line 36 between the roller bearing 19 and the pivot bearing 18 form an angle E of approximately 140 ° with one another.

A pressure spring 21 presses against the lever arm 16 , the pretensioning of which can be adjusted with the aid of an adjusting screw 23 . The center line 35 of the pressure spring 21 runs through the motor shaft 5 when the lever 15 is in the center position and perpendicular to the connecting line 36 of the pivot bearing 18 and the roller axis 19 . The angle between the center lines 35 and 37 is approximately 50 °.

The lever arm 17 is provided with a driver 25 , which is encompassed by grippers 27 of a lower knife 8 . The lower knife 8 can be displaced in the direction of a double arrow 33 with the aid of indicated bearings 31 .

A pressure spring 49 is provided between one of the grippers 27 and a cantilever arm 47 of the assembly effort 1 . This pressure spring 49 runs in the direction of vibration (double arrow 33 ) of the lower knife 33 . Another pressure spring 51 extends through a cavity 53 in the arm 17 of the lever 15 . This pressure spring 49 presses against the lower knife 8 from below and in this way ensures an axial bracing of the lower knife 8 and lever 15 .

The pressure spring 49 acts by pressing against one of the grippers 27 in a pressure-loading manner on the lever arm 17 of the lever 15 and thus further via the lever arm 16 onto the pressure roller 13 and finally the cam 7 . The pressure spring 49 thus supports the pressure spring 21 in its action. Both compression springs 49 and 21 thus complement each other in their spring effects. This means that the compression spring 21 can be designed weaker than if it were effective alone. The pressure force of the roller 13 against the cam 7 need not be increased compared to the pressure of only one spring. By reducing the spring force of the spring 21 , the stiffness of the spring effect is reduced.

Both springs 49 and 21 ensure in addition to a constant con tact between the pressure roller 13 and the cam 7 that the rotor 4 is always shifted over the cam 7 in the rest position so that the main magnetization direction of the rotor and the main stator field device automatically against each other be twisted. This ensures self-start.

Since the pressure spring 49 acts on the bearings 18 and 19 , noise that comes from the area of these bearings is prevented. The pressure spring 49 acts in three directions:

• 1. it ensures sufficient pressure of the pressure roller 13 on the cams 7 ,
• 2. ensures that the rotor rotates at rest position to improve the starting properties,
• 3. it ensures the elimination of bearing play and thus Noise development.

Another possible source of noise is the connection of the shaving foil with the lower knife perpendicular to the direction of movement of the lower knife. The lower knife must not come loose from the shaving foil. This source of noise can be switched off by the spring 51 .

The pressure roller 13 is pressed with its surface 32 against the surface 9 of the cam 7 . The pressing force is dimensioned such that on the one hand the pressing roller 13 cannot lift off the cam 7 at any time, but on the other hand the pressing force does not become so great that the rotating movement of the rotor is impaired.

Claims (4)

1. Device for a household vibration device driven by means of a single-phase synchronous motor, in particular a dry shaving apparatus, in which the motor shaft carries a cam, the contour of which is scanned by a pressure roller which is mounted on a lever which can be pivoted about a pivot bearing and which is to be driven Vibration part set in vibration, the pressure roller being pressed in the direction of the cam by means of a pressure spring, characterized in that, in addition to the roller pressure spring ( 21 ), a further pressure spring ( 49 ) is provided which is directly connected to the vibration part coupled to the lever ( 15 ) ( 8 ) acts in such a way that their action via the lever ( 15 ) and the pressure roller ( 13 ) supports their pressure on the cams ( 7 ). 2. Device according to claim 1, characterized in that the further pressure spring ( 49 ) in the direction of movement of the vibrating part ( 8 ) acts on it, this spring ( 49 ) being supported on a stationary housing part ( 47 ). 3. Apparatus according to claim 2, characterized in that the spring force of the roller pressure spring ( 21 ) and the further pressure spring ( 49 ) are coordinated with one another in such a way that both springs jointly apply the force for pressing the pressure roller ( 13 ) onto the cam. 4. The device according to claim 1, wherein the vibrating part ( 8 ) is the lower knife pressing against a shaving foil of the dry shaving apparatus, characterized in that a tolerance spring ( 51 ) is provided between the lower knife and the lever ( 15 ), the two parts ( 8, 15 ) so apart that the lower knife presses against the shaving foil ( 55 ) without play.