TWO-POLE TEFC ELECTRIC MOTOR AND AN ELECTRIC MOTOR DRIVE ARRANGEMENT

Abstract

A two-pole TEFC (totally enclosed, fan-cooled) electric motor is concerned. A housing of the motor as an inner space, into which a stator assembly, a motor shaft and a rotor assembly fixed to and surrounding the motor shaft is fitted. A mounting foot structure radially protrudes from the outer surface of the housing for mounting the induction motor to a planar base structure. The mounting foot structure includes four mounting points defining corner points of a rectangular mounting footprint of the motor, such that the rectangular mounting foot print has two opposite sides parallel with the motor shaft. Furthermore, the mounting foot structure including at least an additional mounting point positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points of the mounting footprint.

Claims

1. A two-pole TEFC (totally enclosed, fan-cooled) electric motor, comprising: a housing having an inner space; a mounting foot structure radially protruding from the outer surface of the housing for mounting said motor to a planar base structure; a stator assembly arranged annularly within the inner space of the housing; a motor shaft rotatably supported so as to concentrically extend through the stator assembly, and a rotor assembly fixed to and surrounding the motor shaft within the inner space, the rotor assembly being disposed concentrically with and inside the stator assembly, wherein the mounting foot structure comprises four mounting points defining corner points of a rectangular mounting footprint of the motor, such that the rectangular mounting foot print has two opposite sides parallel with the motor shaft, the mounting foot structure further comprising at least an additional mounting point positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points of the mounting footprint, and wherein each of the mounting points are provided as openings, through which the motor is bolt-mountable to the base structure.

2. The electric motor according to claim 1, wherein the mounting foot structure comprising at least two additional mounting points positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points.

3. The electric motor according to claim 1, wherein the distance between the mounting footprint and the motor shaft is between 355-560 mm.

4. The electric motor according to claim 1, wherein the motor shaft and the rotor assembly have a length of 300-1070 mm and a weight of 320-1570 kg.

5. The electric motor according to claim 1, wherein the mounting feet structure comprises two separate mounting feet, each protruding radially from the outer circumference of the housing and extending in a direction parallel with the motor shaft.

6. The electric motor according to claim 1, which further comprises a mounting base for each mounting point, such that the mounting bases extend further towards the base structure than the rest of the mounting foot structure, when in use.

7. The electric motor according to claim 1, wherein the mounting foot structure comprises stiffener portions provided between adjacent mounting points.

8. The electric motor according to claim 1, wherein the motor having a maximum operation speed of 3000-3600 rpm.

9. The electric motor according to claim 8, wherein the motor having a nominal maximum output power of 200-1500 kW.

10. An electric motor drive arrangement, comprising: an AC power supply having a nominal output frequency of 50-60 Hz; and the electric motor according to claim 1 operationally coupled to the power supply.

11. The electric motor drive arrangement according to claim 10, wherein the power supply having a nominal maximum power output of 200-1500 kW.

12. The electric motor drive arrangement according to claim 11, wherein the mounting foot structure comprising at least two additional mounting points positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points; and wherein the distance between the mounting footprint and the motor shaft is between 355-560 mm.

13. The electric motor according to claim 2, wherein the distance between the mounting footprint and the motor shaft is between 355-560 mm.

14. The electric motor according to claim 2, wherein the motor shaft and the rotor assembly have a length of 300-1070 mm and a weight of 320-1570 kg.

15. The electric motor according to claim 3, wherein the motor shaft and the rotor assembly have a length of 300-1070 mm and a weight of 320-1570 kg.

16. The electric motor according to claim 13, wherein the motor shaft and the rotor assembly have a length of 300-1070 mm and a weight of 320-1570 kg.

17. The electric motor according to claim 2, wherein the mounting feet structure comprises two separate mounting feet, each protruding radially from the outer circumference of the housing and extending in a direction parallel with the motor shaft.

18. The electric motor according to claim 2, which further comprises a mounting base for each mounting point, such that the mounting bases extend further towards the base structure than the rest of the mounting foot structure, when in use.

19. The electric motor according to claim 2, wherein the mounting feet structure comprises two separate mounting feet, each protruding radially from the outer circumference of the housing and extending in a direction parallel with the motor shaft; which further comprises a mounting base for each mounting point, such that the mounting bases extend further towards the base structure than the rest of the mounting foot structure, when in use; and wherein the mounting foot structure comprises stiffener portions provided between adjacent mounting points

20. The electric motor according to claim 19, wherein the motor shaft and the rotor assembly have a length of 300-1070 mm and a weight of 320-1570 kg; wherein the motor having a maximum operation speed of 3000-3600 rpm; and wherein the motor having a nominal maximum output power of 200-1500 kW.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] In the following, the disclosure will be described in greater detail by means of preferred embodiments with reference to the accompanying drawings, in which:

[0013] FIG. 1 illustrates a schematic representation of a housing of an electric motor according to an embodiment of the present disclosure as seen as a perspective view, and

[0014] FIG. 2 illustrates a schematic representation of the motor housing of FIG. 1 as seen from a plane view from the direction of the mounting footprint.

DETAILED DESCRIPTION OF THE DISCLOSURE

[0015] According to a first aspect of the disclosure, a two-pole TEFC (totally enclosed, fan-cooled) electric motor is provided. Preferably, but not necessarily, the motor is an induction motor.

[0016] The motor comprises a housing 1 having an inner space 1a, a stator assembly arranged annularly within the inner space of the housing, a motor shaft rotatably supported so as to concentrically extend through the stator assembly, and a rotor assembly fixed to and surrounding the motor shaft within the inner space, the rotor assembly being disposed concentrically with and inside the stator assembly. Preferably, but not necessarily, the housing 1 is a cast housing, at least in part.

[0017] The motor further comprises a mounting foot structure 2 protruding radially from the outer surface of the housing 1 for mounting said motor to a planar base structure. The mounting foot structure 2 comprises four mounting points 2a, 2b, 2c, 2d defining corner points of a rectangular mounting footprint of the motor, such that the rectangular mounting foot print has two opposite sides parallel with the motor shaft. Preferably, but not necessarily, the mounting foot structure 2 is an integral part of a cast housing. Preferably, but not necessarily, the mounting foot structure 2 may be provided as two separate mounting feet protruding radially from the outer surface of the housing, extending parallel with motor shaft.

[0018] Particularly, the mounting foot structure 2 further comprises at least an additional mounting point 2e, 2f positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points 2a, 2b, 2c, 2d of the mounting footprint. That is, at least six mounting points in total are provided. For example, the mounting point may be provided as openings, through which the motor is bolt-mounted to the base structure, although other arrangements for providing the mounting points may be provided.

[0019] It has surprisingly been found, that these additional mounting points 2e, 2f provide for a mounting of the motor that is capable of shifting the natural frequency of the global rolling mode away from the frequency range near twice the feed frequency typically used in mains power, without having an adverse effect on the cooling of the motor. That is, a two-pole TEFC motor that does not accentuate vibration at a frequency range near twice the feed frequency of mains power is achieved without reducing the surface area of the motor housing contributing to heat transfer or impairing airflow along the motor housing. That is, the separation margin between the frequencies of the operational vibrations of the motor and its natural frequencies is increased.

[0020] In an embodiment according to the first aspect of the present disclosure, the distance between the mounting footprint and the motor shaft is at least between 355-560 mm. That is, the frame size is at least 355-560.

[0021] The solution according to the present disclosure is advantageous for two-pole TEFC electric motors of the frame size 355 and above. This is because it has been observed that accentuation of vibrations at a frequency range near twice the feed frequency is less prominent in smaller frame sizes.

[0022] The solution according to the present disclosure is particularly advantageous for two-pole TEFC electric motors of the frame size 400 and above. This is because, in practise, it has been found that vibration related requirements, particularly sufficient separation margins between the frequencies of operational vibrations and the natural frequencies of the motor, may be met more easily in smaller frame sizes, even without additional measures. However, even for two-pole TEFC electric motors of smaller frame sizes, the solution according to the present disclosure increases the separation margin.

[0023] However, a total of six mounting points 2a, 2b, 2c, 2d, 2e, 2f have been found to meet vibration requirements, particularly separation margins indicated in certain standards up to the frame size 450, although vibration characteristics are improved to some extent even in larger frame sizes.

[0024] In an embodiment according to the first aspect of the present disclosure, the mounting foot structure 2 comprises at least two additional mounting points positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points. That is, at least eight mounting points in total are provided. Exactly eight mounting points have been found to meet vibration requirements, particularly separation margins indicated in certain standards up to the frame size 500, although vibration characteristics are improved to some extent even in larger frame sizes.

[0025] In still another embodiment according to the of the present disclosure, the two-pole TEFC electric motor has a rotor length of 300-1070 mm and a rotor weight of 320-1570 kg, i.e. the combined length and weight of the motor shaft and the rotor assembly. It has been found, that in practice, additional mounting points, as discussed above, have been particularly advantageous for improving vibration characteristics for such two-pole TEFC electric motors, as such motors tend to exhibit natural frequencies of the global rolling mode at a frequency range resulting in an insufficient separation margin from the frequency range of the operational vibrations.

[0026] Moreover, for a frame size of 355, motors having a rotor length of 300-620 mm and a rotor weight of 320-510 kg have been found to particularly benefit from additional mounting points, as discussed above. For a frame size of 400, motors having a rotor length of 400-780 mm and a rotor weight of 540-750 kg have been found to particularly benefit from additional mounting points, as discussed above. For a frame size of 450, motors having a rotor length of 550-900 mm and a rotor weight of 830-1130 kg have been found to particularly benefit from additional mounting points, as discussed above. For a frame size of 500, motors having a rotor length of 600-1070 mm and a rotor weight of 1100-1570 kg have been found to particularly benefit from additional mounting points, as discussed above. Again, in the context of this disclosure, the terms rotor length and rotor weight refer to the length and weight, respectively, of the motor shaft and rotor assembly together.

[0027] In a further embodiment according to the first aspect of the present disclosure, the mounting foot structure 2 comprises two separate mounting feet, each protruding radially from the outer circumference of the housing 1 and extending in a direction parallel with the motor shaft.

[0028] Preferably, but not necessarily, a mounting base may be provided for each mounting point 2a-2f, such that the mounting bases extend further towards the base structure than the rest of the mounting foot structure 2, when in use. Preferably, but not necessarily, such mounting bases are of an equal size with respect to each other. For example, such mounting bases occupy an area of approximately 20 cm by 20 cm of the mounting footprint. Preferably, but not necessarily, each of the mounting points 2a-2f are provided as an opening extending through the respective mounting base. Suitably, the mounting point 2a-2d defining the corner points of the mounting footprint are provided on their respective mounting bases offset from the center thereof, towards the outer edge of the mounting footprint, whereas the additional mounting points 2e, 2f are provided centrally on their respective mounting bases.

[0029] Preferably, but not necessarily, the mounting foot structure 2 comprises stiffener portions provided between adjacent mounting points 2a, 2e, 2b, for improving rigidness of the mounting foot structure itself. Such stiffener portions may be provided, for example, as portions of the mounting feet having an increased thickness. Moreover, such stiffeners do not need to have a uniform thickness, but may be provided with shape, such as a frusto-pyramidal shape. Furthermore, stiffeners advantageously extend from one mounting base to another.

[0030] In a further embodiment according to the first aspect of the present disclosure, the two-pole TEFC motor has a maximum operating speed of 3000 rpm for a 50 Hz feed frequency, or alternatively 3600 rpm for a 60 Hz feed frequency, correspondingly. These correspond to rotating speeds of typical two-pole TEFC electric motors operated without a VFD (variable frequency drive), i.e. at a feed frequency of typical mains power.

[0031] Additional mounting points, as discussed above, are considered particularly advantageous for improving vibration characteristics in these operating speed ranges, as they correspond to frequency ranges at which the natural frequency of the global rolling mode has previously been exhibited with conventional motors.

[0032] In still a further embodiment according to the first aspect of the present disclosure, the two-pole TEFC motor has a nominal maximum output power of at least 200-1500 kW.

[0033] It has been found, that in practice, additional mounting points, as discussed above, have been particularly advantageous for improving vibration characteristics in such a power range. According to a second aspect of the present disclosure, an electric motor drive arrangement is provided. The motor drive arrangement comprises an AC power supply having a nominal output frequency of 50-60 Hz and the two-pole TEFC electric motor according to the first aspect of the present disclosure.

[0034] Suitably, the electric motor is operationally coupled to the power supply so as to be driven. It should be noted, that any single embodiment or a combination of embodiments, including variants thereof, of the first aspect may be used.

[0035] Preferably, but not necessarily, the power supply is mains power.

[0036] In an embodiment according to the second aspect of the present disclosure, the power supply has a nominal maximum power output of at least 200-1500 kW.

[0037] It has been found, that in practice, additional mounting points, as discussed above, have been particularly advantageous for improving vibration characteristics in these power ranges.

[0038] FIG. 1 illustrates a housing 1 of a two-pole TEFC electric motor according to the present disclosure. Particularly, the housing 1 has an inner space 1 a into which a stator assembly, motor shaft assembly and a rotor assembly may be fitted any suitable manner known to the skilled person.

[0039] Radially extending cooling ribs are provided on the outer circumference of the housing 1 for improving heat transfer from the motor housing to the surroundings thereof. Moreover, a mounting foot structure 2 is provided as radially protruding from the outer surface of the housing 1. In the embodiment of FIG. 1 the mounting foot structure 2 comprises two separate mounting feet, each protruding radially from the outer circumference of the housing 1 and extending in a direction parallel with the motor shaft (not shown). However, other configurations for the mounting foot structure 2 are conceivable.

[0040] Positions of the mounting points 2a, and 2b, defining two of the four corner points of a rectangular mounting footprint of the motor, are indicated with a cross. Typically, mounting points are provided as through-holes or other openings enabling a mounting bolt being fitted therethrough, although other configurations are conceivable. Between the mounting points 2a, 2b, an additional mounting point 2e is provided. Between adjacent mounting points 2a, 2e, 2b, stiffener portions are provided for improving rigidness of the mounting foot structure itself. Such stiffener portions may be provided, for example, as portions of the mounting feet having an increased thickness. Moreover, such stiffeners do not need to have a uniform thickness but may be provided with shape. For example, FIG. 1 show stiffeners of a frusto-pyramidal shape.

[0041] Furthermore, as shown in FIG. 1, each of the separate mounting feet of the mounting foot structure 2 may comprise a mounting base for each mounting point 2a-2f, said mounting bases extending further towards the mounting foot print than rest of the mounting foot. That is, the 2-pole TEFC electric motor will be in contact with the base structure, to which the motor is attached, only by such mounting bases. The mounting points 2a-2f may consequently be provided as through-holes extending through respective mounting bases. Furthermore, stiffeners, as discussed above, advantageously extend from one mounting base to another.

[0042] FIG. 2 illustrates a plan view seen from the bottom, i.e. from a direction of the mounting foot print. FIG. 2 more clearly illustrates the mounting points 2a, 2b, 2c, 2d defining the rectangular mounting footprint of the motor, and the additional mounting points 2e, 2f positioned on each side of the mounting footprint parallel with the motor shaft, between the corner points.

[0043] Also more clearly seen in FIG. 2, is the mutually equal size of the mountings bases. Although a rectangular shape of the mounting bases is illustrated, other shapes may be provided. Preferably, but not necessarily, each of the mounting points 2a-2f are provided as an opening extending through the respective mounting base. In the embodiment of FIG. 2, the mounting points 2a-2f are positioned centrally on their respective mounting base, although other configurations are conceivable. For example, the mounting points 2a-2d defining the corner points of the mounting footprint may be provided on their respective mounting bases offset from the center thereof, towards an outer edge of the mounting footprint, while additional mounting points 2e, 2f may be provided centrally on their respective mounting bases.

[0044] As described above, even two or more additional mounting points may be positioned between the corner points 2a, 2b, in which case a stiffener portion between each adjacent mounting point is preferably provided.