• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a range extender (1) for a motor vehicle, in particular for an electric motor vehicle, comprising: a first electromechanical energy converter (2); and an internal combustion engine (3) which is coupled to the first electromechanical energy converter (2) for power transmission, wherein in the rotor (5) of the first electromechanical energy converter (2), a vibration damper (6a, 6b, 6c) is integrated.
    公开号:AT512516A4
    申请号:T50167/2012
    申请日:2012-05-10
    公开日:2013-09-15
    发明作者:Vincent Dipl Ing Benda;Peter Dipl Ing Dr Ebner;Richard Dipl Ing Schneider;Bernhard Dipl Ing Sifferlinger
    申请人:Avl List Gmbh;
    IPC主号:
    专利说明:

    Binteck 10-05-2012 E014 1 10 2012/50167
    Vibration damping for a range extender
    description
    The present invention relates to a range extender for a motor vehicle, in particular an electric motor vehicle, which has an electromechanical energy converter and an internal combustion engine, which can be coupled with the electromechanical energy Wandier for power transmission.
    Range extender refers to additional units in an electric motor vehicle, which usually consist of an internal combustion engine that drives a generator to provide an energy storage device or an electric motor with electrical energy to expand the range of electric vehicles.
    For energy supply of electric vehicles usually accumulators or batteries are used as energy storage device, which are aufgeπaden localized via the mains. If there is no power grid and the remaining energy hi of the energy storage device is coming to an end, the range extender can recharge the energy storage device along the way or at least ensure that the electric motor vehicle can continue to drive.
    In electric vehicles with a range extender, the internal combustion engine of the range extender is usually started and staggered while driving without direct action of the driver, in particular depending on the state of charge of Energiespei-cherelnrichtung. The generation of electrical energy is usually carried out by means of an electromechanical energy converter, d, h. an electric machine, which is usually a permanent magnet synchronous machine.
    Printed: 10-05-2012: E014 10 2012/50167 2
    The electromechanical energy converter usually has at least two operating modes, which are controlled by a corresponding control electronics: The generator mode is the normal operation of the range extender. Conversely, this can also be operated in motor mode. This mode is commonly used to start the internal combustion engine.
    The electric driving feel, which results essentially from the particular performance characteristics of the electromechanical energy converter, which serves as a traction drive, and the WegfaJI engine noise of the internal combustion engine in the drive train, but should not be affected by the internal combustion engine of the Range-I extender.
    Therefore, disturbing factors that are generated by the internal combustion engine or the electromechanical energy converter of the range extender should be avoided or suppressed as possible.
    As a rule, noise when starting and operating the range extender and vibrations should therefore be avoided as much as possible.
    WO 97/08435 relates to a system for the active reduction of rotational nonuniformities of a shaft, in particular the drive shaft of an internal combustion engine or of a shaft which can be coupled or coupled thereto. This system includes an electric machine coupled to or coupled to the shaft, wherein a controller controls the electric machine to counteract the positive and negative rotational irregularities of the shaft.
    The present invention has for its object to provide an improved range extender, which reduces the above-mentioned problems in a motor vehicle with range extender.
    This object is achieved by a range extender according to claim 1 and a motor vehicle according to claim 8. Advantageous embodiments are claimed in the dependent claims.
    Printed: 10-05-2012 'E014 10 2012/50167 3
    In the range extender according to the invention, therefore, a vibration damper is integrated in the rotor of the first electromechanical energy converter.
    Due to the vibration damping integrated into the rotor, vibrations and thus NVH are reduced or even completely suppressed in every driving situation. This leads to a much improved Fahrgefül. in particular by the integration in the rotor of the electromechanical energy converter damping can be done to save space. Integrating into the rotor advantageously means that the secondary mass of a two-mass oscillator, which serves as a vibration damper, is the rotor of the first electromechanical energy converter. Preferably, the primary mass of the two-mass oscillator sits directly on the shaft of the rotary piston machine. To this
    This reduces the number of additional components for a vibration damper.
    An electronic control of the damping is not necessary here. Rather, the vibration damping according to the invention is a simple, robust and cost-effective device.
    An electromechanical energy converter in the context of the invention is used for the conversion of electrical energy into mechanical energy and vice versa. These include in particular electric motors and electric generators. Depending on the direction of the transmitted power, electromechanical energy converters differentiate between Moiormo-dus, which transmits power from the electrical side to the mechanical side, and the generator mode with reverse power flow.
    Under an internal combustion engine in the context of the invention is a heat engine to understand that bypasses a combustion process chemical energy of a fuel into mechanical energy. In the operation of an internal combustion engine usually by the expansion of an air fuel mixture during combustion in a working chamber usually referred to as a piston drive element is displaced from the combustion chamber region, whereby this drives a drive shaft in motion, preferably in rotation.
    A motor vehicle in the sense of the invention is a mobile means of transport which serves the transport of goods, tools or persons and is driven by a machine. printed: 10-05-2012 E014 ΤΟ 2012/50167 4
    For the purposes of the invention, an electric motor vehicle is preferably a motor vehicle which is operated with electrical energy from an energy storage device, preferably an electrochemical energy store, an accumulator or a battery. If the energy storage device is emptied, it must either be recharged via the mains or a mobile supply device, preferably a range extender or solar cells.
    Under vibration damper in the context of the invention, the damping of torsional vibrations of the shaft of the internal combustion engine is to be understood by structural elements, in particular a vibration damping to eliminate NVH. In four-stroke lifting machines, but also in rotary-piston engines, the periodic course of the four strokes, suction, compression, ignition, expulsion in combination with the firing order of the individual cylinders or disks leads to rotational irregularities of the shaft and of the flywheel which is preferably sheathed. In such a drive train is due to the inertia and stiffness contained therein a torsional vibration capable structure with characteristic natural frequencies, which inevitably lead to torsional vibrations of the shaft in introduced by a reciprocating engine or Rotationskoibenmaschine rotational irregularities. Particularly preferably, the vibration damper is a dual-mass flywheel, a torsion damper or any other known torsional vibration damper.
    Coupling to the power transmission in the sense of the invention is to be understood as a mechanical, fluid-mechanical, hydromechanical or magnetic power transmission. This is preferably done by a common wave, i. the electromechanical energy converter and the internal combustion engine are the same.
    An important criterion for the evaluation of the driving experience of the driver is NVH, which stands for Noise, Vibration, Harshness (German: noise, vibration, roughness). Harshness refers to the audible as well as tactile vibration transition range from 20 to 100 Hz. In general, the cause of NVH is the local force of a vibration source in vibration transmitting media, such. B. the mechanical structure in motor vehicles.
    Printeck i 0-05-2012 E014 10 2012/50167 5
    In an advantageous embodiment of the invention, the internal combustion engine is arranged between the first electromechanical energy converter and a second electromechanical energy converter, wherein the second electromechanical energy converter is coupled to the internal combustion engine for power transmission and / or vibration damping is integrated in the rotor of the second electromechanical energy converter.
    By the second electromechanical energy converter, the mechanical energy of the internal combustion engine can be more efficiently converted into electrical energy. Further, lateral forces on the bearings of the internal combustion engine can be reduced because deflection of the shaft due to non-uniform rotation of an internal combustion engine in operation with the guide at both ends of the
    Wave is reduced by the two electromagnetic energy transformers.
    In a further advantageous embodiment of the invention, the Verbrennungskraftma-machine is a Rotationskoibenmaschine.
    Under a Rotationskoibenmaschine according to the invention is preferably to understand a device which performs a preferably substantially triangular piston during operation of the internal combustion engine in the housing rotation about a major axis, wherein the piston rotates about its own axis, but also soft In addition, the piston moves in a planetary motion around the major axis. An advantage of using a Rotationskoibenmaschine as an internal combustion engine is a higher smoothness in such a machine compared with a reciprocating engine. In a preferred embodiment, such Rotationskoibenmaschine is a Wankel engine. The invention can also be used toi rotary piston machines with two, three or more juxtaposed pistons. Furthermore, the invention can also be used with any other type of internal combustion engine, preferably a Hubkoibenmaschine.
    The Rotationskoibenmaschine has in a particularly advantageous manner in operation on a high smoothness, so that the occupants of a motor vehicle are not disturbed by vibrations. Furthermore, the Rotationskoibenmaschine compared to a conventional gasoline or diesel engine on a much lower noise. 6 6 102012/50167
    Printed: 10-05-2012
    Finally, much higher speeds than with a Hubkoibenmotor can be achieved.
    In a further advantageous embodiment of the invention, the rotor of the first and / or second electromechanical energy converter additionally has a absorber.
    Under a absorber according to the invention is the eradication of vibration energy on the upsetting or stretching a material to understand. The associated energy consumption or heat energy development is removed from the vibration and has a dampening effect. Preferably, the absorber is integrated into the rotor of the first and / or second electromechanical energy converter. Excess energy, which can not be smoothed by vibration damping, can be converted into heat energy by the absorber. Thus, a further reduction of vibrations is achieved.
    The above and other advantages, features and applications of the present invention will become apparent from the following description of a preferred embodiment with reference to the drawings. It shows:
    Figure 1 is a schematic representation of a range extender of a first embodiment of the invention;
    Figure 2 is a schematic representation of a range extender 1 according to a second embodiment of the invention.
    Referring to Figure 1, a first embodiment of the invention will be explained in more detail. The invention is described using the example of a range extender 1 with a rotary piston machine with a substantially triangular rotary piston as the internal combustion engine 3. The rotary piston machine 3 is shown in cross-section, wherein the disc of the rotary piston machine 3 is rotated in the image plane, so that the Trochoidenform the disc and the triangular shape of the rotary piston or the rotor is visible. The shaft 8 is represented by a circle. The direction of rotation of the Rotatlonskoibenmaschine is indicated by a clockwise arrow about the shaft 8, the direction of rotation could also counterclockwise
    Printed: 10-05-2012 E014 10 2012/50167 7 lost. Further, the torsional vibration of the shaft 8 of the rotary piston machine 3 is indicated by double arrows.
    The illustrated embodiment is only exemplary. The machine could also be operated with any other type of internal combustion engine, in particular with a reciprocating piston engine, in particular a gasoline or diesel engine.
    The range extender 1 preferably has a rotary piston machine 3 and an electromechanical energy converter 2. Preferably, the shaft 8 couples the rotary piston machine 3 with the electromechanical energy converter 2 for power transmission. Preferably, the rotary piston machine 3 and the first electromechanical energy converter 2 are thus wave-like, i. the rotor 5 of the electromechanical energy converter 2 is mounted on the shaft of the rotary piston machine 3.
    The electromechanical energy converter 3 has a rotor 5 and a stator 7a, 7b, in which the rotor 5 rotates in the engine operation due to an electromagnetic alternating field. The electromechanical power converter 2 is an electric machine, preferably a pole machine, more preferably an internal or external pole machine, more preferably an asynchronous machine, more preferably a self-excited asynchronous machine, and most preferably a reluctance machine.
    The electromechanical energy converter 2 may be designed as a pure generator and / or generator motor. In the generator mode, this generates electrical energy by means of a torque, which is directed to it via the shaft 8 of the rotary piston machine 3. The electrical energy is generated by electromagnetic induction generated by the rotor 5 in the stator 7a, 7b of the first electromechanical energy converter 2. This electrical energy is fed via a power electronics 10 in a circuit, in particular in a DC intermediate circuit of a Eiektrokraftfahrzeugs. Alternatively or additionally, however, the electrical energy could also preferably be fed into the public power grid.
    In the combustion operation of the rotary piston engine 3, torsional vibrations are generated, which are excited by time-varying torques and are superimposed on the rotation of the shaft 8. These torsional vibrations are mainly due to the main harmonics of the gas and mass forces in the rotary piston machine 3. To smooth this torsional vibration, a vibration damper 6a, 6b, 6c, preferably a flywheel or dual mass flywheel is used. This is integrated in the rotor 5 of the first electromechanical energy converter 2. This means that additional components are necessary for the vibration damper 6, but these can be accommodated in a space-saving manner by integration into the rotor 5. Thus, as shown in FIG. 1, the rotor 5 may preferably be the secondary flywheel of a dual-mass flywheel. The primary flywheel is then preferably mounted directly on the common shaft 8 of the rotary piston machine 3 and the first e-lektromechanischen energy converter 2. More preferably, it is integrated into the shaft 8, and most preferably the period 8 is the primary flywheel. The primary flywheel and the secondary flywheel are preferably coupled via steel or rubber springs 6b or any other type of elastic coupling Müüeln.
    Furthermore, in the rotor 5 is preferably also a balancing mass 9a integrated, which compensates for the imbalance of the eccentric and the rotary piston of the rotary piston machine 3. Furthermore, in the rotor 5 is preferably also a damper for the eradication of the vibrations integrated, which is not dargesteilt in the figures. This can be implemented in particular by further elastic elements which are arranged between the primary flywheel mass 6a and the secondary flywheel mass 6c and by the extension or compression of which the vibration energy is converted into another energy form, preferably heat energy.
    The balancing mass can also be distributed to both ends of the shaft 8, in which case two partial compensation masses 9a and 9b are present.
    Referring to Figure 2, a second embodiment of a range extender 1 according to the invention will now be described.
    This second embodiment can advantageously be combined with the first embodiment of FIG. 1 explained above.
    The second embodiment differs from the first embodiment in that also on the opposite side of the first electromechanical energy converter 2 with respect to the rotary piston machine 3, a further second electromechanical energy converter 4 is provided , which is also coupled to the shaft 8 of the rotary piston machine 3 for power transmission, preferably by a wave equality with the rotary piston machine 3 and / or the first electromechanical energy converter 2. The second electromechanical energy converter 4 has a vibration damper 12a, 12b, 12c, which in the rotor 11 is integrated. Furthermore, the balancing mass 9b is preferably integrated in the rotor 11 and the rotor preferably also has a further absorber, which dissipates further oscillation energy. The rotor 11 of the second electromechanical energy converter 4 also rotates in a stator 13a, 13b, in which electrical energy is generated in generator operation. These electrical energy is via a power electronics 14 in a power grid, preferably a DC intermediate circuit of an electric motor vehicle 14, one (fed.
    Range extenders according to the invention are preferably also replaceable in houses as a combined heat and power plant or as generator units in other mobile applications.
    10 Printeei: 10-05-2012 E014 10 2012/50167
    LIST OF REFERENCE NUMBERS
    Range extender 1
    First electromechanical energy converter 2
    Rotary piston machine 3
    Second electromechanical energy converter 4
    Rotor of the first electromechanical energy converter 5
    Vibration damper of the first electromechanical energy converter 6a, 6b, 6c stator of the first electromechanical energy converter 7a, 7b
    8 minutes
    Leveling compound 9a, 9b
    Power electronics 10,14
    Rotor of the second electromechanical energy converter 11
    Vibration damper of the second electromechanical energy converter 12a, 12b, 12c stator of the second electromechanical energy converter 13a, 14a
    权利要求:
    Claims (8)
    [1]
    11 -05-2012 E015 10 2012/50167 1. Range extender (1) for a motor vehicle, in particular for a Eiektrokraftfahrzeug, comprising: a first electromechanical energy converter (2); and an internal combustion engine (3) which can be coupled to the first electromechanical energy converter (2) for power transmission, wherein a vibration damper (6a, 6b, 6c) is integrated in the rotor (5) of the first electromechanical energy converter (2),
    [2]
    2. range extender according to claim (1), wherein the internal combustion engine (3) between the first electromechanical energy converter (2) and a second electromechanical energy converter (4) is arranged, wherein also the second electromechanical energy converter (4) with the internal combustion engine (2 ) is coupled to the power transmission and / or in the rotor (11) of the second electromechanical energy converter (4), a vibration damper (12a, 12b, 12c) is integrated.
    [3]
    3. range extender (1) according to claim 1 or 2, wherein the internal combustion engine (3) is a rotary piston machine.
    [4]
    4. range extender (1) according to any one of the preceding claims, wherein the vibration damper (6a, 6b, 6c, 12a, 12b, 12c) is a two-mass flywheel.
    [5]
    5. Range extender (1) according to one of the preceding claims, wherein in the rotor (5, 11) of the first and / or second electromechanical energy converter (2.4} in addition a Tilger is integrated. Printed: 10-05-2012 £ 015 10 2012/50167 12
    [6]
    6. range extender (1) according to any one of the preceding claims, wherein the coupling by a common shaft (8).
    [7]
    7. range extender (1) according to any one of the preceding claims, wherein in the rotor (5, 11) of the first and / or second electromechanical energy converter (2, 4) in addition a balancing mass (9a, 9b) is integrated.
    [8]
    8. Motor vehicle, in particular an electric motor vehicle, with a range extender (1) according to one of claims 1 to 7. 2012 05 10
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