Electrical generator or motor structure – Dynamoelectric – Rotary
Reexamination Certificate
2002-03-08
2004-07-06
Lam, Thanh (Department: 2834)
Electrical generator or motor structure
Dynamoelectric
Rotary
C310S088000, C310S089000
Reexamination Certificate
active
06759774
ABSTRACT:
I. BACKGROUND OF INVENTION
The present invention relates to electric motors and in particular, electric motors which are known in the art as “canned” or “sealless” motors.
Canned motors are well known in the art and an example of such motors may be seen in U.S. Pat. No. 4,990,068 which is incorporated by reference herein in their entirety. The term “canned” is derived from the fact that a first metal cylinder or “can” surrounds the rotor (the “rotor can”) while a second metal cylinder fits between the rotor can and the stator (the “stator can”). A small gap, approximately {fraction (30/1000)} of an inch, is created between the rotor and stator cans which allows cooling fluid to flow between the cans and extract heat from the motor. Additionally, the same fluid typically passes over the rotor shaft bearings on each eyed of the motor in order to cool and lubricate those bearings.
Canned motors are widely used to power pumps, mixers and the like in the petro-chemical industry. In such an arrangement, the pump or mixer is typically connected directly to the motor body. This eliminates the need for a separate, external seal at the point where the motor shaft engages the pump. Quite often, the fluid being pumped or mixed is also used as the cooling fluid. Because the fluid is often corrosive, sleeve bearings are a typically used in such canned motors since this type of bearing tends to be more resistant to corrosion. However, an inherent disadvantage of sleeve bearings is that they should be rotating at higher motor speeds (e.g. 1800 or 3600 rpm) in order for an effective film of lubricating fluid to form between the sleeves of the bearing. Therefore, at lower motor speeds (e.g. 1200, 900, 600 rpm), sleeve bearings are quickly damaged by failure of effective lubrication. However, the net positive suction head available (NPSHA) in many petro-chemical applications is on the order of 5 to 10 feet of head. Pumps operating at lower motor speeds typically have a lower net positive suction head required (NPSH
R
) and are more likely to meet the general pump design requirement of the NPSH
A
being greater than the NPSH
R
.
An alternative to using canned motor pumps is to use convention air gap motors (which can effectively operate at lower motor speeds) attached to a separate pump. A common example of this pump arrangement is vertical cantilever styled packed, Lawrence pumps. However, this pumping arrangement, as alluded to above, requires the use of a separate seal where the motor shaft engages the pump. Several factors may lead to the failure of these seals which could allow the escape of potentially explosive or toxic materials being pumped.
Furthermore, prior art motor/pump assemblies (whether canned motors or air gap motors) typically have an L
3
/D
4
ratio of 50 or more. The L
3
/D
4
ratio is defined as the overhung shaft length (L) measured between the axial centerline of the bearing closest to the impeller (inboard bearing) and the axial centerline of impeller cubed (L
3
), divided by the shaft diameter (D), defined as the diameter of the smallest cross section within length L exclusive of the impeller mounting surface, raised to the fourth power (D
4
). However, the larger the L
3
/D
4
ratio, the more shaft deflection which is likely to occur. Such shaft deflection may be generated by any unexpected operating conditions such as pump cavitations, closed suction or discharge valves, or improper operating conditions i.e. improper pump selection. The greater this shaft deflection, the greater the wear on seals and bearings in the system. It would be desirable to have an L
3
/D
4
ratio considerably less than 50.
Another disadvantage of prior art canned motors is their limited axial load thrust capacity and radial load capacity. For example, a 50 or 75 horsepower canned motor with a conventional double acting thrust bearing only has a thrust capacity of approximately 1100 lbs. at 1800 or 3600 rpm. This thrust capacity is considerably reduced if the motor runs at lower speeds. Likewise, a 4.5″ diameter, 3″ long sleeve bearing only has a radial load capacity of 2000 to 3000 lbs. (depending on the fluid used for lubrication). There is a need in the art for canned motors with considerably higher thrust and radial load capacities, both at higher and lower motor speeds.
H. SUMMARY OF INVENTION
One embodiment of the present invention provides a canned motor comprising a rotor assembly having at least 6 poles, a stator assembly, and an isolating can separating the rotor assembly and stator assembly.
An alternate embodiment of the present invention provides a canned motor comprising a stator assembly, a rotor assembly having a rotor shaft with an L
3
/D
4
ratio of less than 50, and an isolating can separating between the rotor assembly and stator assembly.
A still further embodiment of the present invention provides a canned motor comprising a rotor assembly including a rotor shaft having a first and second end and a stator assembly. An isolating can separates the rotor assembly and the stator assembly. A first frictionless bearing is position on the first shaft end and the first frictionless bearing is configured to resist an axial shaft load in at least one axial direction. A second frictionless bearing is positioned on the second shaft end and the second frictionless bearing is configured to pass an axial shaft load.
REFERENCES:
patent: 4885494 (1989-12-01), Higashi
patent: 4990068 (1991-02-01), Zhong et al.
patent: 5019738 (1991-05-01), Weilbach et al.
patent: 6242825 (2001-06-01), Mori et al.
patent: 6447271 (2002-09-01), Ojima et al.
Mcann, L. Thomas, H-Coal Pilot Plant —Topical Report —Rotating Equipment Test Program (With Separate Proprietary Appendix). Jun. 1983, 4 pages (cover 7, 16, appendix A pg 3, Ashland Synthetic Fuels, Inc. Ashland, KY (under contract with US Dept of Energy —DE AC05-76ET10143).
Lam Thanh
Lawrence Pumps, Inc
Maine & Asmus
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