DE10056773B4 - radial fans - Google Patents

Abstract

Radial fan with one arranged on an output shaft of a motor drive impeller, characterized in that the impeller (8) by a magnetic field on the output shaft (2, 13, 17) is held.

Description

The The invention relates to a radial fan arranged with one on an output shaft of a motor drive Impeller.

such known radial fan especially in hot air or circulating air blowers for use, especially in cooking or Ovens. The impeller usually indicates a central bore so that it is pushed onto the output shaft and can be fixed. The output shaft has a longitudinal drive surface in the area of the shaft end. Accordingly, the central hole not circular, but it also has a straight line section. The driving surface must precise be ground to avoid imbalance of the impeller. All in all this type of attachment is expensive manufacture. To attach the impeller is a nut, preferably a Cap nut screwed onto the free end of the output shaft and with tightened to a certain torque. To an automatic release of this screw To prevent the fastening thread is a left-hand thread. Yet It can happen that the screw connection in the operation of the household appliance relaxes and vibrations and noises caused. For trouble-free concentricity to ensure, have to for all components, in particular for the central bore of the fan wheel tight tolerances are maintained. Be already small deviations The components or assembly errors affect the concentricity of the radial fan, which distracting makes noticeable and possibly to release the fan from the output shaft to lead can. To effectively prevent the loosening of the screw connection, would be more Safety precautions required, which cause additional costs.

From the DE 42 29 038 A1 , of the DE 31 45 947 A1 and the DE 32 26 706 A1 Cooling devices for machines, power generators and internal combustion engines are known, wherein roller-mounted fan wheels are magnetically coupled.

Of the The invention is therefore based on the problem, the disadvantages mentioned to avoid and to make the assembly of a radial fan easier.

to solution This problem is in a radial fan of the aforementioned Art provided according to the invention, that the impeller is held by a magnetic field on the output shaft.

The impeller is permanently fixed by the magnetic field without further precautionary measures required are. It can be dispensed in particular to the cap nut be, as well eliminates machining operations on the output shaft, which is much easier and cheaper can be designed. A later one Loosen the impeller is practically impossible there constantly the magnetic force on the impeller acts and this fixes in the once selected position. These Magnetic fixation also reduces the risk of injury during the procedure Assembly of the radial fan.

It is useful the magnetic field in a radial fan according to the invention by a possible strong permanent magnet generated. For this, all known permanent magnetic materials come in question, with iron alloys being preferred. permanent magnets are characterized by a good long-term stability of the magnetic properties so that a maintenance-free operation of the radial fan is possible.

A particularly secure fixation and a particularly good hold of the impeller is achieved when the magnet is disc and / or ring-shaped. At this embodiment The magnet can be plugged directly onto the output shaft. Subsequently can the impeller attached to the free end of the output shaft and in this way be centered automatically. A side surface of the magnet is located on the Center of the impeller so that it is held by the magnetic field on the output shaft becomes.

In Advantageous development of the invention is provided that the Output shaft is designed as a stepped shaft and a side surface of the Magnets on a step surface is applied. Such a stepped shaft preferably has on the drive side the output shaft has a larger diameter than at its free end, so that the annular magnet on the stepped shaft is slidable and rests against the step surface, which he automatically is positioned.

It can also be provided that the magnet via a press fit with the Output shaft is connected and / or that it is on the output shaft is attached by means of an adhesive. By both measures The magnet is held captive on the output shaft.

In a radial fan according to the invention, the output shaft itself may be essentially made of a permanent magnetic material, in particular of an iron alloy. Such an output shaft itself has magnetic properties, so that the attachment of a separate magnet can be omitted. A matching one Impeller consists at least in its center of metal, for manufacturing reasons, however, made of sheet metal impellers are preferred, which are punched out of a metal sheet. The output shaft is made in a conventional way, for example by turning, and then obtained in a magnetization process magnetic properties. The output shaft itself is constantly surrounded by a magnetic field, which acts on the impeller and fixes it in a once taken position.

In an alternative embodiment It can also be provided that the impeller at least in his Center essentially of a permanent magnetic material, is made in particular of an iron alloy and the output shaft made of metal. In this embodiment, the functions of the Output shaft and the impeller compared with the previous embodiment reversed, that is, that the impeller itself has magnetic properties and after plugging on the Output shaft automatically held in this position. Such an impeller is also punched out of sheet metal and then in its center area magnetized.

at Radial fans according to the invention are Magnets preferred, which is a large temperature stability exhibit. This is required so that the radial fan also at elevated Temperatures can be used. In addition to the temperature stability is also value put on a good long-term stability of the magnetic properties, thus the safe function of the radial fan during the entire life of the device guaranteed is.

Radial fans according to the invention are suitable also for use in a cooking or baking oven with pyrolysis function, if the Curie temperature of the magnet above the pyrolysis temperature lies. For pyrolysis operations very high temperatures occur inside a cooking or baking oven so on for this Application area used according to high temperature resistant magnets become.

The The invention also relates to a domestic appliance, in particular a cooking appliance. or oven with a hot air and / or recirculation device having a radial fan according to the invention.

Further Advantages and details of the invention will become apparent from the in following described embodiments and the figures. The figures are schematic representations and demonstrate:

1 a radial fan according to the invention in a side view;

2 an impeller of a radial fan according to the invention in a plan view;

3 the radial fan of 1 with mounted impeller;

4 an embodiment of a radial fan according to the invention with a partially cut step shaft; and

5 an embodiment of an output shaft made of a permanent magnetic material.

The in 1 schematically illustrated radial fan consists essentially of a motor drive 1 , which is designed as an electric motor and an output shaft 2 drives. The output shaft 2 has a round cross section, at its free end is a chamfer 3 attached to facilitate the attachment of components. As in 1 it can be seen is a magnet 4 on the output shaft 2 attached. At the magnet 4 it is a permanent magnet made of a permanent magnetic iron alloy. The magnet 4 is annular and has two parallel surfaces 5 . 6 and one in 1 not shown circular opening 7 on, putting on the output shaft 2 allows. The outer diameter of the output shaft 2 and the diameter of the circular opening 7 of the magnet 4 are chosen so that there is a press fit and the magnet 4 fixed after assembly. Alternatively or additionally, the attachment of the magnet 4 on the output shaft 2 also by a securing means, such as an adhesive done. Due to the exact positioning of the magnet 4 a high concentricity is achieved. As a result, imbalances and vibrations of the radial fan and possibly disturbing noises are avoided.

On the in 1 The arrangement shown in FIG 2 in a plan view shown impeller 8th attached. The impeller 8th is as a sheet metal stamping with six individual wings 9 educated. Each individual wing 9 consists of a section lying in the wing plane (or in the leaf plane) 10 and a 90 ° section 11 who in 2 can be recognized as a contour. The impeller 8th has in its center a circular opening 12 which is punched out during production. It is important that the opening 12 exactly in the center of mass of the impeller 8th is attached so that no imbalances occur.

3 shows the radial fan in the assembled state, that is, the out 2 known impeller 8th is on the out 1 known arrangement of the motor drive 1 with the output shaft 2 and the magnet 4 been plugged. The outer surface 6 of the magnet 4 lies on the corresponding counter surface of the impeller 8th on, the only by the magnetic field of the magnet 4 on the output shaft 2 is fixed. The size of the opening 12 in the impeller 8th is on the diameter of the output shaft 2 matched, so the impeller 8th automatically when plugging onto the output shaft 2 centered and adjusted.

Will now be the electric motor of the motor drive 1 set in motion, then the output shaft 2 and the magnet attached to it 4 set in rotation. The magnetic force turns the impeller 8th also set in rotation without slip. Accordingly, it is necessary that through the magnet 4 generated holding torque greater than the moment of inertia of the impeller 8th is. This condition is, however, given the low mass of the impeller 8th always met, so that the rotational movement of the output shaft 2 completely on the impeller 8th is transmitted. Further fuses for the impeller 8th are not required, the fixation in the axial direction is done solely by the magnetic force. Through the precise opening 12 the impeller 8th ensures that virtually no axial forces occur or that they compared to the holding force of the magnet 4 are negligibly small.

4 shows a further embodiment of the radial fan according to the invention, which in its basic structure of the in 1 Represented resembles. In contrast to the first embodiment, the output shaft 13 formed as a stepped shaft, wherein the outer shaft portion 14 has a smaller diameter. At the point of contact between the shaft 13 and the outer shaft portion 14 is formed due to the difference in diameter, an annular surface on which the parallel surface 16 of the magnet 15 positive fit. This will make the exact positioning of the magnet 15 ensured in the wavelength direction. In this arrangement, an impeller is plugged in the manner already described, wherein the center bore of the impeller to the diameter of the shaft portion 14 is adjusted.

5 shows a further embodiment of the radial fan according to the invention, in which the output shaft 17 is made of a permanent magnetic material. In contrast to the previously described embodiments is in the in 5 illustrated output shaft 17 no separate magnet attached, but the output shaft 17 has magnetic properties of its own. The output shaft 17 is made of an iron alloy and can be manufactured in a magnetization process where an external magnetic field is applied to the output shaft 17 acts, be magnetized. The magnetic properties are then retained, so that the in 5 illustrated impeller 8th after pushing on the shaft end 18 is held solely by the magnetic field. This is in the end of the output shaft 17 a circular ring section 19 with one to the impeller 8th pointing flat surface 20 formed at the the impeller 8th is applied. This variant of the invention is characterized by a particularly low number of parts.

Claims (13)

Radial fan with a arranged on an output shaft of a motor drive impeller, characterized in that the impeller ( 8th ) by a magnetic field on the output shaft ( 2 . 13 . 17 ) is held. Radial fan according to claim 1, characterized in that the magnetic field by a permanent magnet ( 4 . 15 ) is produced. Radial fan according to claim 2, characterized in that the permanent magnet ( 4 . 15 ) is disc-shaped and / or annular. Radial fan according to claim 2 or 3, characterized in that the permanent magnet ( 4 . 15 ) on the output shaft ( 2 . 13 ) is attached. Radial fan according to one of claims 2 to 4, characterized in that the output shaft ( 2 . 13 ) is designed as a step wave and a surface ( 5 . 16 ) of the permanent magnet ( 4 . 15 ) abuts against a step surface. Radial fan according to one of claims 2 to 5, characterized in that the permanent magnet ( 4 . 15 ) via a press-fit clamping with the output shaft ( 2 . 13 ) connected is. Radial fan according to one of claims 2 to 6, characterized in that de permanent magnet ( 4 . 15 ) on the output shaft ( 2 . 13 ) is glued. Radial fan according to claim 1, characterized in that the output shaft ( 17 ) is essentially made of a permanent magnetic material and the impeller ( 8th ) consists at least in its center of metal. Radial fan according to claim 1, characterized in that the impeller ( 8th ) is made at least in its center substantially of a permanent magnetic material and the output shaft ( 17 ) consists of metal. radial fans according to claim 8 or 9, characterized in that the permanent magnetic material is an iron alloy. Radial fan according to one of claims 2 to 10, characterized in that the permanent magnet ( 4 . 15 ) has a high temperature stability. Radial fan according to one of claims 2 to 10, characterized in that it is installed in a cooking or baking oven with pyrolysis and the Curie temperature of the permanent magnet ( 4 . 15 ) is above the pyrolysis temperature. Home appliance, in particular cooking or baking oven with a hot air and / or recirculation device, characterized in that it comprises a radial fan according to one of claims 1 to 12 has.