DE2019338A1 - Electric vacuum cleaner - Google Patents

Description

Electric vacuum cleaner Electric vacuum cleaners, especially household vacuum cleaners, are increasingly equipped with more powerful drive motors for the suction fan. This increases the need to optimize the suction power for the individual cleaning tasks adapt.

It has therefore already been proposed in the suction line of the vacuum cleaner Provide a suction opening for secondary air, the suction cross-section of which is adjustable is. However, this attempted solution is not always satisfactory.

There are auesl vacuum cleaners known that have a drive motor with tapped Have winding, so that its speed switched to a lower level can be. However, the given control range is for the versatile application a vacuum cleaner is far from sufficient.

The task of the Brfindlrg is therefore to create a simple way of to regulate the suction power of a vacuum cleaner over a wide range.

According to the invention this object is achieved in that the speed of the motor driving the fan can be changed continuously or in several steps is.

An electronic #speed controller is particularly suitable for this purpose, which consists of a printed circuit assembly having a Has thyristor or a triac. the Control line of the triac or the thyristor is connected in a manner known per se via a trigger diode RC element connected, its ohmic part. either from a continuously variable Resistance or from several charging resistors with different resistance values exists, which are connected to a step switch, so that by changing the Resistance value of the RC element of the phase angle of the triac or thyristor and thus the speed of the drive motor continuously or in several stages can be regulated over a wide range.

In the drawing, an embodiment of a erfindungsge is according to trained vacuum cleaner shown. It shows Fig. 1 a schematic overall view, FIG. 2 shows a plan view of the speed controller, FIG. 3 shows a circuit diagram of the speed controller.

The fan 1 of the vacuum cleaner shown schematically in FIG. 1 is driven by a universal motor 2 to which an electronic Speed controller 3 is assigned to an adjusting element 4.

The speed controller 3 has, as shown in FIG. 2, a Printed circuit 4, which is equipped with capacitors 5 and step resistors 6 is, the step resistors 6 connected in series with the capacitors 5 have different resistance values and according to these values to one Step switch 7 are connected. The step resistors 6 and the step switch 7 can within the scope of the invention also by means of a continuously variable resistance be replaced. In addition, the speed controller 3 with a triac 8 or a corresponding electronic component, e.g. a thyristor.

As shown in Fig. 3, the triac 8 is in the circuit 9 of the universal motor 2, preferably between its field winding 10 and the armature winding 11 switched. In parallel with the triac 8, an RC element is connected, which essentially consists of the step resistors 6 and the capacitors 5.

The capacitors 5 and the step resistors 6 are each connected in parallel, being in the connecting line 12 between the step resistors 6 and the capacitors 5 a resistor 13 and between the connection points 14 and 15 of the capacitors 5 another resistor 16 are connected. The control electrode 17 of the triac 8 is connected via a trigger diode 18 to the connection point 15 of the RC element. According to the setting of the step switch 7, the ignition time is lost of triac 8 and thus the effective value of the voltage applied to the motor. Accordingly the engine speed also changes.

When using a thyristor instead of the triac 8, only one Half-wave of the applied voltage can be controlled. The other half-wave is over to feed a diode connected in anti-parallel to the thyristor in an uncontrolled manner to the motor 2.

13 claims 3 figures

Claims (1)

Claims 1. Electric vacuum cleaner with a fan driving universal motor The speed of the motor (2) can be changed continuously or in several steps. 2, Electric vacuum cleaner according to claim 1, characterized in that that the motor (2) is assigned an electronic speed controller (3). 3. Electric vacuum cleaner according to claims 1 and 2, characterized in that that the speed controller (3) from a printed circuit (4) having Unit consists. 4. Electric vacuum cleaner according to claims 1 to 3, characterized in that that the unit (4) has a thyristor or a triac (8). 5. Electric vacuum cleaner according to claims 1 to 4, characterized in that that the structural unit (4) one in the control line of the triac (8) or the thyristor switched trigger diode (crack). 6. Electric vacuum cleaner according to claims 1 to 5, characterized in that that the unit has a step switch (7), the switching steps of which are connected to charging resistors (6) with different resistance values for at least one ignition capacitor (5) connected are 70 electric vacuum cleaner according to claims 1 to 5, thereby gekennzeickneb9 that the speed controller (3) has a notor speed determining, continuously variable resistance aul has. 8. Electric S-vacuum cleaner according to one or more of the preceding Ailsprüche, characterized in that the speed controller (3) is a changeable RC element for phase control of the triac (8) or the thyristor. 9. Electric vacuum cleaner according to claim 8, characterized in that that the RC element consists of a parallel connection of step resistors (6), which over a # fixed resistor is connected to the capacitors (tj). 10. Electric vacuum cleaner according to claims 8 and 9, characterized characterized in that the capacitors (5) are connected in parallel and in connection points (14,15) are connected to one another by a resistor (16). 11. Electric vacuum cleaner according to claims 8 to 10, characterized characterized in that the parallel resistors (16) via the resistor (13) with the Connection point (14) are connected. 12. Electric vacuum cleaner according to claims 8 to 11, characterized gekennseichnet that the control line (17) of the triac (8) via a trigger diode (18) is connected to the connection point (15). 13. Electric vacuum cleaner according to claims 8 to 12, characterized characterized in that the triac (8) in the circuit (9) of the motor (2), preferably is connected between the field winding (10) and the armature winding (11). Blank page