AT507514B1 - TEST STATION WITH AT LEAST ONE DYNAMOMETER - Google Patents

Description

Austrian Patent Office AT 507 514 B1 2011-01-15

description

TEST STATION WITH AT LEAST ONE DYNAMOMETER

The invention relates to a test stand with at least one dynamometer according to the preamble of claim 1. Furthermore, the invention relates to a dynamometer according to the preamble of claim 13.

A test bench, such as a powertrain test bench, comprising at least one dynamometer, wherein the dynamometer, a test specimen and / or a measuring flange or a torque measuring device may optionally be connected in conjunction with an additional mass. A powertrain test stand for a motor vehicle with four-wheel drive has four dynamometers, with each dynamometer a wheel of the motor vehicle can be coupled.

Each dynamometer of a test stand has an electric machine that can be operated by a motor or a generator, wherein such an electric machine of a dynamometer comprises a stator and a rotor. The rotor of the electric machine is associated with a shaft journal, wherein an adapter can be connected to the shaft journal, and wherein the adapter, namely at a connection surface thereof, a test specimen and / or a measuring flange or a torque measuring device can optionally be attached together with an additional mass.

The mass of the rotor of the electric machine of the dynamometer, together with the mass of the specimen and / or the mass of the measuring flange or the torque measuring device, optionally together with the additional mass, a multi-mass system, wherein the dynamometer on the specimen and / or measuring flange or the torque measuring device to be simulated stationary and / or transient load profiles. Such load profiles are characterized by defined torque amplitudes and torque frequencies.

It is important that the greatest possible distance from a Torsionseigenfrequenz of the multi-mass system rotor of the dynamometer, specimen and / or measuring flange or torque measuring device and optionally additional mass is maintained to avoid excitation of the multi-mass system in the test mode in the range of Torsionseigenfrequenz , This is possible only with a torsionally rigid connection of the test specimen and / or the measuring flange or the torque measuring device optionally together with the additional mass on the rotor of the dynamometer. This presents difficulties in dynamometers known from practice.

Proceeding from this, the present invention is based on the problem to provide a novel test stand with at least one dynamometer and a novel dynamometer, which allows a torsionally rigid connection of the specimen and / or the measuring flange or the torque measuring device optionally together with an additional mass.

This problem is solved by a test stand according to claim 1. According to the invention, the shaft journal has an outer diameter which corresponds to at least 0.5 times an outer diameter of an air gap formed between the stator and the rotor of the electric machine.

To realize a torsionally rigid connection of the specimen and / or the measuring flange or the torque measuring device optionally together with the additional mass on the rotor of the dynamometer a defined dimensioning of the outer diameter of the shaft journal is proposed, namely such that the outer diameter of the shaft journal, with the Rotor of the electric machine of the dynamometer is connected, at least 0.5 times the outer diameter of the air gap, which is formed between the stator and the rotor of the electric machine. A shaft journal with such a large outer diameter allows a torsionally rigid connection of the test piece and / or the measuring flange or the torque measuring device, if appropriate together with the additional mass on the rotor of the dynamometer.

According to an advantageous embodiment, an axial distance between the connection surface of the adapter and a laminated core of the stator corresponds to a maximum of 1.0 times the outer diameter of the air gap.

By the above dimensioning of the axial distance between the connection surface of the adapter and the laminated core of the stator, the torsional stiffness of the connection of the specimen and / or the measuring flange or the torque measuring device may optionally be increased again together with the additional mass on the rotor of the dynamometer.

Preferably, the outer diameter of the shaft journal corresponds to at least 0.6 times the outer diameter of the air gap and the axial distance between the connection surface of the adapter and the laminated core of the stator at most 0.8 times the outer diameter of the air gap.

The dynamometer according to the invention is defined in claim 13.

Preferred embodiments of the invention will become apparent from the dependent claims and the description below. Embodiments of the invention will be described, without being limited thereto, with reference to the drawings. 1 shows a partial cross section through a dynamometer of a test stand.

The present invention relates to a test bench, as e.g. a powertrain test bench for a motor vehicle, wherein such a test bench comprises at least one dynamometer. Fig. 1 shows a section of such a dynamometer 10 of a test bench.

The dynamometer 10 shown in Fig. 1 comprises a motor and generator operable electric machine 11, which includes a rotor 12 and a stator 13. The rotor 12 of the electric machine 11 of the dynamometer 10 has, according to FIG. 1, a rotor laminated core 15 which is fastened to a rotor main body 14 and which cooperates with a stator lamination stack 16 of the stator 13. Between the rotor core 15 of the rotor 12 and the stator lamination 16 of the stator 13, an air gap 17 is formed.

At this point it should be noted that instead of the rotor laminated core 15 and electromagnets may be mounted on the rotor base 14 of the rotor 12 of the electric machine 11.

In not shown grooves of the stator lamination 16 of the stator 13 extend electrical conductors which can be connected via a winding head 18 and supplied with electrical voltage.

An axial end of the rotor base body 14 of the rotor 12 of the electric machine 11 is associated with a shaft journal 19 which is fixedly connected in the embodiment shown with the rotor base body 14 of the rotor 12. At the shaft journal 19, a bearing 21 engages, wherein seen in the axial direction to a first side of the bearing 21, a bearing cap 22 and adjacent to a second side of the bearing 21, a bearing plate 23 is positioned. The shaft journal 19 may be an integral part of the rotor base body 14.

With the shaft journal 19, an adapter 25 is connected in the illustrated embodiment via a screw 24, wherein according to FIG. 1 on the adapter 25 an additional mass 26 attacks. Such a threaded connection 24 is purely optional and may be replaced by other joining measures such as e.g. a shrunken ring, to be replaced. With the adapter 25, a test specimen, not shown, and / or a measuring flange, not shown, can furthermore be connected, preferably via a screw connection which engages in corresponding bores 27 in the adapter 25.

The present invention now proposes measures by means of which the additional mass 26 shown in FIG. 1 and the test specimen, not shown in FIG. 1, and / or the measuring flange, not shown, can be connected torsionally rigidly to the rotor 12 of the electric machine. According to the invention, it is proposed for this purpose that the shaft journal 19 has an outer diameter which corresponds at least to 0.5 times the outer diameter of the air gap 17 which is located between the stator 13 and the rotor 12 of the electric machine 11 is formed.

In particular, the outer diameter of the shaft journal 19 is at least 0.6 times the outer diameter of the air gap 17. Preferably, the outer diameter of the shaft journal 19 corresponds to at least 0.7 times, more preferably at least 0.8 times, of the outer diameter of the air gap 17.

According to a particularly preferred embodiment of the invention, the outer diameter of the shaft journal 19 corresponds to at least 1.0 times the outer diameter of the air gap 17th

The shaft journal 19 has an outer diameter which corresponds to a maximum of 1.2 times the outer diameter of the air gap 17.

The above outer diameter of the shaft journal 19 is the diameter of the shaft journal 19, on which the bearing 21 comes to rest on the shaft journal 19. This outer diameter of the shaft journal 19 is indicated in FIG. 1 by the dimension di9. The outer diameter of the air gap 17 is visualized in Fig. 1 by the dimension du.

The torsional stiffness of the connection of the specimen and / or measuring flange and optionally the additional mass to the rotor 12 of the electric machine 11 can be increased by not only a dimensioning for the outer diameter di9 of the shaft journal 19 but also a defined dimensioning for an axial Distance between a connection surface 20 of the adapter 25 for the DUT and / or measuring flange and the laminated core 16 of the stator 13 is maintained.

In this case, the axial distance between the connection surface 20 of the adapter 25 and the laminated core 16 of the stator 13 is at most 1.0 times the outer diameter of the air gap 17th

In particular, the distance between the connection surface 20 of the adapter 25 and the laminated core 16 of the stator 13 is at most 0.8 times the outer diameter of the air gap 17. Preferred is a variant in which the axial distance between the connection surface 20 of the adapter 25 and the laminated core 16 of the stator 13 a maximum of 0.7 times, more preferably at most 0.5 times, the outer diameter of the air gap 17 corresponds.

Also, a variant is possible in which the axial distance between the connection surface 20 of the adapter 25 and the laminated core 16 of the stator 13 corresponds to a maximum of 0.2 times the outer diameter of the air gap 17.

This axial distance between the connection surface 20 of the adapter 25 and the laminated core 16 of the stator 13 corresponds to at least 0.1 times the outer diameter of the air gap 17th

In Fig. 1, the axial distance between the connection surface 20 of the adapter 25 and the laminated core 16 of the stator 13 of the electric machine 11 is characterized by the dimension Δχ.

The invention allows a particularly torsionally rigid connection of a test specimen and / or measuring flange optionally together with an additional mass to the rotor of a dynamometer. This can increase the dynamics of a test bench with regard to the amplitude and frequency of load profiles to be simulated.

The electric machine 13 of the dynamometer is preferably a permanent-magnetically excited synchronous motor. 3.6

Claims (14)

Austrian Patent Office AT 507 514 B1 2011-01-15 REFERENCE LIST 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 Dynamoraeter Electric machine Rotor Stator Rotor main body Rotor laminated core Stator core package Air gap Winding head Shaft connection Bonding surface Bearings Bearing cover Bearing plate Screw connection Adapter Additional mass Bore Patent claims 1 A test stand having at least one dynamometer, wherein the or each dynamometer has a motor and a generator operable electric machine with a stator and a rotor, a shaft associated with the rotor of the electric machine shaft journals and connectable to the shaft journal adapter, and wherein at a connection surface of the adapter at least one DUT and / or a measuring flange or a torque measuring device is fastened, characterized in that the shaft journal (19) has an outer diameter which is at least 0.5 times an outer diameter of a between the St ator (13) and the rotor (12) of the electric machine (11) formed air gap (17) corresponds. 2. Test stand according to claim 1, characterized in that the outer diameter of the shaft journal (19) corresponds to at least 0.6 times the outer diameter of the air gap (17). 3. Test stand according to claim 2, characterized in that the outer diameter of the shaft journal (19) corresponds to at least 0.7 times the outer diameter of the air gap (17). 4. Test stand according to claim 3, characterized in that the outer diameter of the shaft journal (19) corresponds to at least 0.8 times the outer diameter of the air gap (17). 5. Test stand according to claim 4, characterized in that the outer diameter of the shaft journal (19) corresponds to at least 1.0 times the outer diameter of the air gap (17). 6. Test stand according to one of claims 1 to 5, characterized in that the shaft journal (19) has an outer diameter which corresponds to a maximum of 1.2 times the outer diameter of the air gap (17). 7. Test stand according to one of claims 1 to 6, characterized in that an axial distance between the connection surface (20) of the adapter (25) and a laminated core (16) of the stator (13) a maximum of 1.0 times the outer diameter of the Air gap (17) corresponds. 4/6 Austrian Patent Office AT 507 514 B1 2011-01-15 8. Test stand according to claim 7, characterized in that the axial distance between the connection surface (20) of the adapter (25) and the laminated core (16) of the stator (13) at most 0.8 times the outer diameter of the air gap (17) equivalent. 9. A test stand according to claim 8, characterized in that the axial distance between the connection surface (20) of the adapter (25) and the laminated core (16) of the stator (13) a maximum of 0.7 times the outer diameter of the air gap (17). equivalent. 10. A test stand according to claim 9, characterized in that the axial distance between the connection surface (20) of the adapter (25) and the laminated core (16) of the stator (13) a maximum of 0.5 times the outer diameter of the air gap (17). equivalent. 11. A test stand according to claim 10, characterized in that the axial distance between the connection surface (20) of the adapter (25) and the laminated core (16) of the stator (13) at most 0.2 times the outer diameter of the air gap (17) equivalent. 12. Test stand according to one of claims 7 to 11, characterized in that the axial distance between the connection surface (20) of the adapter (25) and the laminated core (16) of the stator (13) at least 0.1 times the outer diameter of the Air gap (17) corresponds. 13. dynamometer, with a motor and generator operable electric machine having a stator and a rotor, wherein the rotor of the electric machine is associated with a shaft journal, with the shaft journal an adapter is connectable, and wherein at a connection surface of the adapter at least one test object and or a measuring flange or a torque measuring device can be fastened, characterized in that the shaft journal (19) has an outer diameter which is at least 0.5 times an outer diameter of a between the stator (13) and the rotor (12) of the electric machine ( 11) formed air gap (17) corresponds. 14. Dynamometer according to claim 13, characterized by features according to one or more of claims 2 to 12. For this purpose 1 sheet drawings 5/6