Pumps – Motor driven – Electric or magnetic motor
Reexamination Certificate
2002-07-16
2004-07-13
Freay, Charles G. (Department: 3746)
Pumps
Motor driven
Electric or magnetic motor
C417S326000
Reexamination Certificate
active
06761542
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a multishaft electric motor for rotating a plurality of shafts in synchronism with each other and a positive-displacement pump which is combined with such a multishaft electric motor, and more particularly to a multishaft electric motor suitable for use with a rotary machine which is required to rotate two shafts synchronously in opposite directions, such as a two-shaft gear pump, a two-shaft screw pump, a two-shaft Roots blower, a two-shaft screw compressor, or the like, and a positive-displacement pump which is combined with such a multishaft electric motor.
2. Description of the Prior Art
Electric motors for use as driving means for driving pumps or the like include induction motors and direct-current motors. Generally, these motors have only one rotatable shaft.
FIG. 23
of the accompanying drawings shows in cross section a two-shaft rotary machine such as a Roots blower which is driven by an electric motor having only one rotatable shaft. The two-shaft rotary machine shown in
FIG. 23
comprises a pair of juxtaposed rotors
32
,
33
disposed in a housing
31
and having respective shafts
32
a
,
33
a
, and a pair of gears
34
,
35
fixedly mounted on the shafts
32
a
,
33
a
, respectively, and held in mesh with each other. An electric motor
35
has a rotatable drive shaft
35
a
coupled coaxially to the shaft
32
a
of the rotor
32
.
When the rotor
32
is rotated by the electric motor
35
, the rotational drive power is transmitted from the rotor
32
through the gears
34
,
35
to the other rotor
33
. Therefore, the shafts
32
a
,
33
a
and hence the rotors
32
,
33
are rotated synchronously in opposite directions.
Japanese laid-open patent publication No. 4-178143 discloses a two-shaft electric motor for rotating two shafts synchronously in opposite directions. The disclosed two-shaft electric motor is shown in
FIGS. 24 and 25
of the accompanying drawings. As shown in
FIGS. 24 and 25
, two rotors
41
,
42
with circumferential permanent magnets are disposed in a housing
40
such that the permanent magnets are held in contact with each other or are positioned closely to each other. The rotors
41
,
42
are juxtaposed in a stator
44
mounted in the housing
40
and supported on parallel shafts that are rotatably mounted in the housing
40
by respective sets of bearings
45
,
46
. An array of armature elements
43
is mounted on an elliptical inner circumferential surface of the stator
44
. The rotors
41
,
42
jointly provide a magnetic coupling in confronting tooth-free regions thereof where unlike magnetic poles of the permanent magnets of the rotors
41
,
42
face each other.
The two-shaft rotary machine shown in
FIG. 23
suffers size and noise problems because the gears
34
,
35
are required as timing gears for rotating the rotors
32
,
33
synchronously in opposite directions.
In the two-shaft electric motor shown in
FIGS. 24 and 25
, an attractive force is developed due to the magnetic coupling between the rotors
41
,
42
which are supported in contact with each other or with a small gap left therebetween. The attractive force thus developed is responsible for a radially unbalanced load imposed on the rotors
41
,
42
. To suppress an excessively large eccentric load applied to the bearings
45
,
46
owing to the radially unbalanced load and to allow the rotors
41
,
42
to rotate smoothly at high speeds, it is necessary to apply a certain magnetic attractive counterforce tending to cancel the magnetic attractive force acting between the rotors
41
,
42
. The armature elements
43
disposed on the elliptical inner circumferential surface of the stator
44
are not available for generating such a magnetic attractive counterforce because the armature elements
43
generate a rotating magnetic field for driving the rotors
41
,
42
. If the rotors
41
,
42
are held in contact with each other, then no such magnetic attractive counterforce needs to be generated, but the contacting rotors
41
,
42
are liable to produce an undue level of wear or noise.
SUMMARY OF THE INVENTION
It is therefore an object of the present invention to provide a multishaft electric motor capable of rotating a plurality of shafts in synchronism with each other stably at high speeds.
Another object of the present invention is to provide a two-shaft electric motor capable of rotating two rotors synchronously in opposite directions stably at high speeds while eliminating a radially unbalanced load due to a magnetic coupling between the rotors.
Still another object of the present invention is to provide a positive-displacement vacuum pump which can be controlled to vary, i.e., increase or decrease, its rotational speed and to prevent an electric motor combined therewith from being overloaded, without employing other components including an inverter, a magnet coupling, a fluid coupling, and a speed-increasing gear.
To achieve the above objects, there is provided in accordance with the present invention a multishaft electric motor comprising a plurality of juxtaposed rotors having respective permanent magnets disposed therearound, and a plurality of sets of armature elements disposed fully circumferentially around the rotors, respectively, the permanent magnets of adjacent two of the rotors having a plurality of pairs of unlike magnetic poles for magnetically coupling the rotors through the armature elements between the permanent magnets.
According to the present invention, there is also provided a positive-displacement vacuum pump comprising a casing, a pair of pump rotors rotatably disposed in the casing in confronting relation to each other, and a two-shaft electric motor coupled to the pump rotors for rotating the pump rotors in opposite directions, the two-shaft electric motor comprising a pair of juxtaposed rotors having respective permanent magnets disposed therearound, and a pair of sets of armature elements disposed fully circumferentially around the rotors, respectively, the permanent magnets of the respective sets having a plurality of pairs of unlike magnetic poles for magnetically coupling the rotors through the armature elements between the permanent magnets.
In the multishaft electric motor, magnetic fluxes generated by the rotors pass through closed magnetic circuits extending between the rotors, and act as a magnetic coupling between the rotors. The magnetic circuits extend through a common armature core and are closed, and are balanced between the armature elements and the rotors. The magnetic circuits are able to produce rotational forces to rotate the rotors synchronously in opposite directions stably at high speeds without imposing an excessive eccentric load on bearings of the rotors.
In the positive-displacement vacuum pump, the pump rotors can be driven by the two-shaft electric motor, and the rotational speed of the pump can be varied by an external signal that is supplied to a motor driver for the two-shaft electric motor. Consequently, the displacement of the pump can be controlled by controlling the two-shaft electric motor. A current supplied to the two-shaft electric motor, typically a brushless direct-current motor, is monitored and controlled to vary the rotational speed thereof for preventing the positive-displacement vacuum pump from being overloaded. Accordingly, the positive-displacement vacuum pump is free of limitations on its operation range which would otherwise be required by variations in the load on a gas handled by the positive-displacement vacuum pump.
The above and other objects, features, and advantages of the present invention will become apparent from the following description when taken in conjunction with the accompanying drawings which illustrate preferred embodiments of the present invention by way of example.
REFERENCES:
patent: 3863446 (1975-02-01), Giwosky
patent: 4530862 (1985-07-01), Kerzel
patent: 4639199 (1987-01-01), Frings et al.
patent: 4728869 (1988-03-01), Johnson et al.
patent: 4940398 (1990-07-01), Berges et al
Hisabe Yasushi
Matake Kozo
Nagayama Masami
Ogamino Hiroaki
Ojima Yoshinori
Ebara Corporation
Freay Charles G.
Oblon & Spivak, McClelland, Maier & Neustadt P.C.
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