Electrical generator or motor structure – Dynamoelectric – Linear
Reexamination Certificate
2003-04-10
2004-06-08
Mullins, Burton S. (Department: 2834)
Electrical generator or motor structure
Dynamoelectric
Linear
C310S015000
Reexamination Certificate
active
06747376
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a linear motor. More particularly, the invention pertains to a linear motor used in a table feed mechanism of a machine tool.
2. Description of the Background Art
FIG. 20
is a cross-sectional diagram showing the construction of a conventional linear motor disclosed in Japanese Laid-open Patent Publication No. 2000-217334.
Referring to
FIG. 20
, a stator
1
includes a plurality of permanent magnets
3
a
,
3
b
arranged in a line at regular intervals on a stator yoke
2
in alternately reversed directions to produce alternating polarities. A moving part
4
moves along the stator
1
as if sliding over the stator
1
with a specific distance (gap) therefrom.
The moving part
4
includes a moving yoke
5
, connecting parts
7
each having a trapezoidal cross section which are held at specific intervals on one side of the moving yoke
5
facing the stator
1
by bolts
6
fitted in the moving yoke
5
, a plurality of magnetic teeth (poles)
8
generally T-shaped in cross section and joined to the individual connecting parts
7
which are fitted into dovetail grooves
8
a
formed in a central part of each tooth end, each magnetic tooth
8
having a recess
8
b
and a protrusion
8
c
formed on opposite sides, and a plurality of magnetic teeth (poles)
9
generally I-shaped in cross section and fitted between the successive magnetic teeth
8
as a recess
9
a
and a protrusion
9
b
formed on opposite sides of each magnetic tooth
9
fit over and into the protrusion
8
c
and the recess
8
b
of the adjoining magnetic teeth
8
, respectively. Also included in the moving part
4
are coils
10
individually wound around the magnetic teeth
8
,
9
and a resin molding
11
surrounding the magnetic teeth
8
,
9
and the coils
10
to join them together into a single structure.
In the conventional linear motor thus constructed, the moving part
4
is assembled by first winding the coils
10
around the individual magnetic teeth
8
,
9
. Next, the dovetail grooves
8
a
formed in the individual magnetic teeth
8
are fitted over the respective connecting parts
7
held by the bolts
6
fitted in the moving yoke
5
by sliding the magnetic teeth
8
in a direction perpendicular to the plane of the paper (
FIG. 20
) and, when the magnetic teeth
8
have been set into position, they are fixed to the moving yoke
5
by tightening the bolts
6
. Then, the individual magnetic teeth
9
are slid between the successive magnetic teeth
8
with the recess
9
a
and the protrusion
9
b
formed on each magnetic tooth
9
meshed with the protrusion
8
c
and the recess
8
b
of the adjoining magnetic teeth
8
, respectively. Finally, the alternately arranged magnetic teeth
8
,
9
and the coils
10
are joined together into a single structure by the resin molding
11
.
Since the conventional linear motor is assembled by inserting the magnetic teeth
9
between the successive magnetic teeth
8
as stated above, the coils
10
wound around the magnetic teeth
9
slide over the coils
10
wound around the magnetic teeth
8
with friction. This assembly process could cause damages to the coils
10
, such as an insulation failure or a wire breakage, resulting in a reduction in reliability.
Furthermore, the conventional linear motor is associated with a poor labor efficiency problem. This is because its assembly involves rather complicated procedures including fitting and sliding the dovetail grooves
8
a
formed in the individual magnetic teeth
8
over the respective connecting parts
7
, tightening the bolts
6
to fix the magnetic teeth
8
to the moving yoke
5
, mating the recess
9
a
and the protrusion
9
b
formed on each magnetic tooth
9
with the protrusion
8
c
and the recess
8
b
of the adjoining magnetic teeth
8
and sliding them to fit the magnetic teeth
9
between the successive magnetic teeth
8
.
Generally, magnetic teeth are manufactured by stacking press-cut electromagnetic steel sheets. Accordingly, the stacking thickness of the electromagnetic steel sheets should be increased if it is necessary to increase the width of the individual magnetic teeth due to an increase in motor capacity. An increase in the stacking thickness tends to cause an inclination of the stacked electromagnetic steel sheets due to stacking errors as well as a deterioration in assembling efficiency. In addition, it is necessary to increase the thickness of a lower press die if the stacking thickness increases. This would lead to an increase in cost for making the die and an eventual rise in manufacturing cost of the magnetic teeth.
Even when the structure of magnetic teeth does not adopt the aforementioned steel sheet stacking design, it is still necessary to vary the width of the individual magnetic teeth with changes in motor capacity, and this makes it difficult to attain desirable levels of efficiency with respect to the control of production and inventory of various components.
SUMMARY OF THE INVENTION
In light of the aforementioned problems of the prior art, it is an object of the invention to provide a novel structure for joining a plurality of magnetic teeth into a single structure. More specifically, it is an object of the invention to provide a linear motor adopting a magnetic tooth joining structure which permits improvements in reliability of a magnetic tooth assembly and in assembling efficiency. It is also an object of the invention to enable a cost reduction by improving the efficiency of controlling the production and inventory of components regardless of changes in motor capacity.
According to a principal feature of the invention, a linear motor comprises a stator including a stator yoke extending in a motor running direction and a plurality of permanent magnets arranged on the stator yoke at regular intervals along the motor running direction in alternately reversed directions to produce alternating polarities, and a moving part positioned generally parallel to the permanent magnets of the stator and separated therefrom by a specific gap, the moving part including a plurality of magnetic teeth arranged side by side along the motor running direction and coils wound around the individual magnetic teeth. In this linear motor, each of the magnetic teeth has a yoke portion located opposite to a side facing the stator, the yoke portion of each magnetic tooth being held in contact with the yoke portion of each adjoining magnetic tooth, and a tooth portion around which the coil is wound, the tooth portion extending from the yoke portion toward the stator. Cutouts formed in end surfaces of the yoke portions of the individual magnetic teeth opposite to their side facing the stator line up to form a groove-shaped channel running through the yoke portions of the successive magnetic teeth, and the multiple magnetic teeth are joined together into a single structure by fitting a connecting member in the groove-shaped channel.
The linear motor thus constructed offers enhanced reliability and greater assembling efficiency.
These and other objects, features and advantages of the invention will become more apparent upon reading the following detailed description along with the accompanying drawings.
REFERENCES:
patent: 5854521 (1998-12-01), Nolle
patent: 6087742 (2000-07-01), Maestre
patent: 6281644 (2001-08-01), Komatsu
patent: 6528907 (2003-03-01), Hwang
patent: 2000217334 (2000-08-01), None
patent: 2000-217334 (2000-08-01), None
patent: 2001-145327 (2001-05-01), None
patent: 2001145327 (2001-05-01), None
patent: 2002-095232 (2002-03-01), None
Hashimoto Akira
Kimura Yasuki
Nakahara Yuji
Nishitani Shoichiro
Watarai Akira
Burns Doane Swecker & Mathis L.L.P.
Mitsubishi Denki & Kabushiki Kaisha
Mohandesi Iraj A.
Mullins Burton S.
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