DE19957131A1 - Side channel machine with electric drive - Google Patents

Abstract

The side channel machine (1) has at least one rotor wheel (7) having a hub part (6) and a ring of peripheral rotor vanes (4), the stator (2) of the electric drive motor for the side channel machine contained within the housing of the latter for direct rotation of the rotor wheel, together with a supply and/or monitoring module (8). The supply and monitoring module may be positioned between the external rotor drive motor and the housing of the side channel machine, provided by a hood (11) having openings for cooling air.

Description

The invention relates to a side channel machine.

In the case of side channel machines, the gas to be pumped is reduced When entering the side channel from the blades of the barrel in a helical movement. It will taken in the circumferential direction and through an outlet pushed out. By the repeated entry of the gas the delivery pressure is increased in the paddle wheel.

From DE-AS 14 28 246 is a ring blower to the side known channel principle, the impeller through an inner pole Rotor motor is driven. The axial is disadvantageous Linear expansion of the overall arrangement of the side channel machine electric drive motor.

The object of the invention is therefore a Seitenka nal machine with electric drive to create against a reduced axia over conventional side channel machines le expansion.

The task is solved by a side channel machine with the following features

• - Be at least one in the housing of the side channel machine sensitive impeller, which has a hub part,
• - A blade ring through the outer circumference of the hub partially located blades are formed,
• - An electric drive motor, the stand in the Housing of the side channel machine is located, the barrel wheel or at least parts thereof are designed like runners are such that between the impeller and stand electromagnetic interaction that leads to a Rotation of the impeller leads
• - a supply and / or monitoring module.

By designing the housing of the side channel machine as Stator and the impeller as a rotor will be a very small one axial expansion of the side channel machine reached. The Ver care and / or monitoring module either closes axially to the side channel compressor or radially to the Housing.

The supply and / or monitoring module contains Senso for monitoring the drive and the side channel dimensions seem. The supply module provides in particular the electri energy available. The supply module also include a variable-speed drive, so that different working points of the side channel machine turned on can be put.

In addition, are in or on the housing of the side channel machine Cooling channels to provide the heat due to the Power loss of the electric drive and the heating of the medium is discharged.

The impeller of the side channel machine is in another Executed as an external runner, in which the run part of the impeller facing the wheel axis in particular Support ring is designed as a runner and the stand on the opposite side of the trained as a runner Partly located in the housing in the area of the hub part.

The side channel machine can in a further embodiment form also be designed as a disc motor, in which the hub part of the impeller designed as a rotor elements has with a stand that is in axial extension The hub part is electromagnetically interacting kend, and thus cause a rotation of the impeller.

The task is also solved by a side channel machine with the following features:

• - Be at least one in the housing of the side channel machine sensitive impeller, which has a hub part,
• - A blade ring through the outer circumference of the hub partially located blades are formed,
• - An external rotor motor, the one stator and one Stand at least partially axially encompassing runners points, which on the side channel machine facing away te of the external rotor motor is connected to a shaft, that drives the impeller
• - A supply and / or monitoring module that is between external rotor motor and housing of the side channel machine located.

Here, a commercially available side channel machine by ei NEN external rotor motor driven, its stand in the area the drive shaft arranged stationary. The runner surrounds the Stand at least partially. Furthermore, the outer area includes fermotor a connection between the external rotor and the Wave. A supply and / or monitoring module is located between the external rotor motor and the housing of the side channel seem. The modules are thus protected against mechani shocks or damage and are also present possible effects of splash water covered. Besides, will thereby introducing the electrical supply lines relieved for the external rotor motor.

The external rotor motor is advantageously of a hood surround. These are rotating parts of the external rotor motor covered and personal protection is guaranteed. It results in a further advantageous embodiment of the inventor ventilation of the external rotor motor preferably axial openings in the hood.

It is also advantageous if the connection of runners shaft and external rotor means that lead to an additional Chen lead air circulation within the hood, and thus cooling the components of the external rotor motor, d. H. the  Serve windings and the laminated core. In addition, the cooling air flow via guidance devices on the supply and Monitoring modules are bypassed, so that there too a cooling effect occurs.

The invention and further advantageous configurations of the Invention according to the features of the subclaims will follow the with reference to schematically illustrated embodiments in the drawing explained in more detail. In it show:

Fig. 1, 2 and 3 show side channel machines with integrated drive,

Fig. 4 is a side channel machine which is driven by an external rotor gate via a shaft.

Fig. 1 shows, in longitudinal section, a side channel engine 1 having an outer stator 2 and a permanent magnet 3 located on the blades. The stand 2 can be made of sheet metal or sintered. The windings known per se are used (one or two-layer windings; tooth coils; etc.) The blades 4 are arranged on a support ring 5 which forms the radially outer part of a Na part 6 of the impeller 7 . The impeller 7 is rich in its shaft 9 by two ball bearings 30 rotatably gela gert. The permanent magnets 3 are located in the radial outer regions of the blades 4 . In order to avoid cogging moments, the permanent magnets 3 are arranged on a ring provided in the circumferential direction at the radially outer end of the blades 4 in such a way that cogging moments are avoided during operation. A supply unit 8 is attached so that the axial length extension of the side channel machine 1 by the positioning kidneys on the side channel machine 1 does not increase.

Fig. 2 also shows a longitudinal section of a Seitenkanalma machine 1 , in which 5 permanent magnets 3 are arranged in the radially inner part of the support ring. This Perma nentmagnete 3 interact with a stand 2 , the housing in the Ge side channel machine 1 is positioned radially further inside. The stator 2 is electrically supplied by a supply unit 8 which is placed in such a way that the axial length extension of the side channel machine 1 also does not increase.

Fig. 3 shows a side channel machine 1 in which the permanent magnets 3 are arranged in the region of the disc-shaped hub part 6 of the impeller 7 . Compared to this permanent magnet 3 , the stand 2 is arranged in the axial direction and, more advantageously, the supply unit 8 in its immediate vicinity. The wiring effort is reduced. However, the supply unit 8 can in principle be arranged anywhere on the housing of the side channel machine 1 or a central supply for several side channel machines. All embodiments have in common that the axial expansion of the side channel machines 1 is optimized. The axial extent of these side channel machines 1 is determined by the width of the side channel.

The stand 2 is fundamentally positioned on the housing of the side channel machine 1 in recesses provided therefor. The impeller 7 basically has rotor elements such. B. permanent magnets 3 .

Fig. 4 shows a side channel compressor 1 whose impeller 7, hub portion 6, the support ring 5 and blades 4 substantially corresponds to the previously known side channel machines 1. At the drive of this impeller 7 is carried out by an external rotor motor which is connected via a shaft 9 to the impeller 7 . The usual shaft hub connection is used when connecting the shaft 9 in the impeller 7 . The stand 2 is pushed onto a projection 12 of the side channel housing and fixed in a manner known per se. The external rotor 13 is connected to the shaft 9 via disk-shaped or spoke-shaped parts 10 . The outer rotor 13 has permanent magnets 3 on the side facing the stator 2 in order to interact magnetically with the electrically excited stator 2 and thus drive the impeller 7 . The stand 2 is provided and monitored electrically by a supply and monitoring unit 8 . Among other things, the winding temperature, the air temperature and possibly the magnetic field are recorded, evaluated and / or forwarded to a control center. A hood 11 is arranged around the outer rotor 13 , which ends flush with lugs 31 of the side channel housing. At the transition point, a sealing device 32 is provided, which also dampens vibrations. In the imaginary axial extension of the shaft 9 there are openings 14 in the hood 11 to allow cooling air to enter. The cooling air cools both the stator 2 , the external rotor 13 , the supply and monitoring device 8 and also parts of the side channel housing. The disk-like or spoke-like connection between the outer rotor 13 and the shaft 9 can have wing-like configurations, so as to have an increased air circulation inside the hood 11 .

Claims (8)

1. Side channel machine ( 1 ), with the following features:

• - At least one in the housing of the side channel machine be sensitive impeller ( 7 ) having a hub part ( 6 ),
• a blade ring which is formed by blades ( 4 ) located on the outer circumference of the hub part ( 6 ),
• - An electric drive motor, the stator ( 2 ) is located in the housing of the side channel machine ( 1 ), the impeller ( 7 ) or at least parts of which are runner-like, such that there is a between the impeller ( 7 ) and the stator ( 2 ) electromagnetic interaction, which leads to a rotation of the impeller ( 7 )
• - A supply and / or monitoring module ( 8 ).

2. Side channel machine ( 1 ) according to claim 1, characterized in that the impeller ( 7 ) on the outer circumference of the blade ring is designed as a rotor, the stand ( 2 ) being positioned in the radial extension of the blades ( 4 ) in the housing. 3. Side channel machine ( 1 ) according to claim 1, characterized in that the blades ( 4 ) receiving the hub part ( 6 ) in the region of the axially projecting part pointing to the impeller axis is designed as a rotor ( 7 ), the stand ( 2 ) on the opposite side of the part designed as a rotor in the housing be so that the impeller ( 7 ) with its blade ring forms an external rotor of the electric drive motor. 4. Side channel machine ( 1 ) according to claim 1, characterized in that the side channel machine ( 1 ) can be driven by a disc motor, the stand ( 2 ) in the axial extension of the hub part ( 6 ) in the housing of the side channel machine ( 1 ) and the Na part ( 6 ) formed as a runner elements. 5. Side channel machine ( 1 ), which has the following features:

• - at least one impeller ( 7 ) located in the housing of the side channel machine ( 1 ) and having a hub part ( 6 ),
• a blade ring which is formed by blades ( 4 ) located on the outer circumference of the hub part ( 6 ),
• an external rotor motor which has a stator ( 2 ) and a rotor comprising the stator ( 2 ), which rotor is connected to a shaft ( 9 ) on the side of the external rotor motor facing away from the side channel machine, said shaft being coupled to the impeller ( 7 ),
• - A supply and / or monitoring module ( 8 ), which is located between the external rotor motor and the housing of the side channel machine ( 1 ).

6. Side channel machine ( 1 ) according to claim 5, characterized in that at least the outer motor is surrounded by a hood ( 11 ). 7. side channel machine ( 1 ) according to claim 6, characterized in that the hood ( 11 ) at least in the axial extension of the rotor shaft ( 9 ) has openings. 8. side channel machine ( 1 ) according to claim 6 or 7, characterized in that as a connec tion of the rotor shaft ( 9 ) and external rotor a disc or spoke-shaped element ( 10 ) is provided, which has means which, when operating the side channel machine ( 1 ) cause air movement inside the hood ( 11 ).