Hermetic motor-driven compressor

Details Hermetic motor-driven compressor Hermetic motor-driven compressor

2002-01-14

2004-01-20

Ramirez, Nestor (Department: 2834)

Electrical generator or motor structure

Dynamoelectric

Rotary

C310S059000, C310S061000, C310S06000A, C310S052000, C310S054000, C310S06000A

Reexamination Certificate

active

06680550

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a hermetic motor-driven compressor for use in an air conditioner, refrigerator, and the like.
BACKGROUND OF THE INVENTION
A hermetic motor-driven compressor for use in an air conditioner, refrigerator, and the like, is so structured that the coolant gas compressed by the compressing element is discharged within the hermetic container once together with the lubricant used for lubricating or sealing the sliding parts, and only the coolant gas is discharged outside after the lubricant is separated, in order to prevent the lubricant from flowing outside together with coolant and causing lubrication failure. Such kind of hermetic motor-driven compressor is described with reference to FIG.
3
.
In
FIG. 3
, reference numeral
1
shows a hermetic container. Motor element
2
and compressing element
3
are housed at the top and bottom of the container, respectively. Motor element
2
comprises rotor
21
attached to rotating shaft
23
, and stator
22
attached to the inside wall of hermetic container
1
. Compressing element
3
comprises cylinder
31
, rolling piston
32
rolled in cylinder
31
by the rotation of rotating shaft
23
, vane
33
in contact with this rolling piston
32
for partitioning cylinder
31
into high-pressure and low-pressure chambers, and bearings
35
and
36
for closing the openings of cylinder
31
. Reference numeral
24
shows a gas passage formed along the outer circumference of the stator. Together with the clearance formed between the stator and rotor, the gas passage
24
allows the passage of high-temperature and high-pressure coolant gas compressed by the compressing element, introduces the gas into space
5
provided at the top of hermetic container
1
, and discharges the gas from discharge pipe
6
into the external cooling circuit. On the other hand, the lubricant discharged from the compressing element together with the coolant gas is separated from the coolant gas in top space
5
, goes through the clearance between the rotor and stator and gas passage
24
, and returns to lubricant reservoir
7
provided at the bottom of the hermetic container.
At this time, gas passage
24
should have a cross-sectional area as large as possible in order to minimize pressure loss, and moreover, pressure difference between top space
5
and bottom space
8
of the hermetic container, and to assist the lubricant in returning to lubricant reservoir
7
by its weight smoothly. For this purpose, a hermetic compressor described in Japanese Utility Model Laid-Open Publication No. H01-159559, for example, has gas passage
24
a
and gas passage
24
b
in a parallel arrangement, as shown in
FIGS. 4 and 5
. Gas passage
24
a
is formed of a space between a linear section along the outer circumferential surface of the motor element and the inside wall surface of the hermetic container, and gas passage
24
b
is formed of through holes concentrically arranged in the vicinity of the outer circumference of the motor element. The through hole constituting gas passage
24
is structured to have a V-shaped inner periphery that has an apex on the centerline of the teeth in the stator core and is directed toward the outer periphery as it goes away from the apex.
However, with the structure shown in
FIGS. 4 and 5
, the width of the stator core between gas passage
24
b
and the stator slot in which windings are wound is too small to have sufficient mechanical strength. Therefore, the structure has problems: the teeth of the stator core are distorted easily by the stress applied thereto when the stator is pressed into the hermetic container and the distortion of the stator core hinders the hermetic container and the stator core from having sufficient holding force.
SUMMARY OF THE INVENTION
To address the above-mentioned problems, the present invention provides a hermetic motor-driven compressor in which magnetic flux passages in the stator core are sufficiently secured, the stator core is not distorted by the stress applied thereto when pressed into the hermetic container, and holding force of the stator core and the hermetic container is ensured.
The hermetic motor-driven compressor in accordance with the present invention has a first gas passage formed of a space between a linear section along the outer circumferential surface of the motor element and the inside wall surface of the hermetic container, and a second gas passage formed of through holes concentrically arranged in the vicinity of the outer circumference of the motor element. The through holes are disposed outside of the smallest inscribed circle that is concentric with the motor element and inscribed in the linear sections. The through holes are shaped like a bow or semicircle. The outer periphery of the through hole is shaped like an arch that has a curvature larger than that of the outer circumference of the motor element. The inner periphery thereof is shaped like an arc that has a radius larger than that of the smallest inscribed circle or a line.
Such a structure enables to provide a high-performance hermetic motor-driven compressor with little lubricant leak in which magnetic passages in the stator core are sufficiently secured, the stator core is not distorted by the stress applied thereto when pressed into the hermetic container, and holding force of the stator core and the hermetic container is ensured.


REFERENCES:
patent: 2508207 (1950-05-01), Woll et al.
patent: 3663127 (1972-05-01), Cheers
patent: 4912350 (1990-03-01), Parshall et al.
patent: 5173629 (1992-12-01), Peters
patent: 5365132 (1994-11-01), Hann et al.
patent: 5970600 (1999-10-01), Huang et al.
patent: 6020667 (2000-02-01), Carey et al.
patent: 6174149 (2001-01-01), Bush
patent: 6218753 (2001-04-01), Asano et al.
patent: 6280168 (2001-08-01), Matsumoto et al.
patent: 6413061 (2002-07-01), Esumi et al.

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