JP2008248889A - Hermetic compressor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hermetic compressor capable of suppressing vibration of a casing. <P>SOLUTION: The hermetic compressor 1 is provided with an annular motor stator 8, a motor rotor 9, the casing 2 and a plurality of point joints 7. The motor rotor 9 is rotatably provided in an inner space of the motor stator 8. The casing 2 includes a cylindrical part 10. The cylindrical part 10 stores the motor stator 8 and the motor rotor 9. The plurality of point joints 7 fixes between the motor stator 8 and the cylindrical part 10 by point joint while securing a clearance between the motor stator 8 and the cylindrical part 10. Three or more point joints 7 are provided in an outer circumference surface of the motor stator 8 in a circumferential direction. The point joints 7 are formed by spot welding. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a hermetic compressor in which a motor stator is fixed inside a casing.

Conventionally, a hermetic compressor employs a structure in which a motor stator is fixed to an inner peripheral surface of a casing. For example, in the concentrated winding motor described in Patent Document 1, the motor stator is fixed inside the casing by shrink fitting or press fitting.
Hermetic compressor
JP 2004-201428 A

  However, when magnetic flux concentrates on the teeth of the concentrated winding motor described in Patent Document 1, the circumferential force (radial force) that tends to deform the motor stator tends to increase. Further, in a motor driven by a rectangular wave voltage or a rectangular wave current, the magnetic force concentrates on the teeth, so that the circumferential force is biased, and the vibration and noise of the motor increase. This increases the vibration and noise of the casing that is in intimate contact with the motor stator.

  Further, in the case of the concentrated winding motor described in Patent Document 1, since the motor stator is fixed to the casing by shrink fitting or press fitting, there is a problem that stress is applied to the motor yoke and iron loss increases.

Further, in the case of a hermetic compressor using a CO ₂ refrigerant, since the internal pressure inside the casing is high, it is difficult to fix the motor stator inside the casing by shrink fitting or press fitting.

  The subject of this invention is providing the hermetic compressor which can suppress the vibration of a casing.

  The hermetic compressor of the first invention includes an annular motor stator, a motor rotor, a casing, and a plurality of point joints. The motor rotor is rotatably arranged in the internal space of the motor stator. The casing includes a cylindrical portion. The cylindrical portion houses the motor stator and the motor rotor. The plurality of point joints fix the gap between the motor stator and the tubular portion by point joining in a state where a gap is secured between the motor stator and the tubular portion. Three or more point joints are arranged in the circumferential direction on the outer peripheral surface of the motor stator. The point joint is formed by spot welding.

  Here, since the plurality of point joining portions secures a gap between the motor stator and the cylindrical portion, the motor stator and the cylindrical portion are fixed by point joining, so that the cylindrical portion of the casing Vibration and noise can be suppressed.

  In addition, since three or more point joints are arranged in the circumferential direction on the outer peripheral surface of the motor stator, vibration of the cylindrical portion of the casing can be more effectively suppressed while fixing the motor stator in a stable state. Is possible.

  Furthermore, since the point joint is formed by spot welding, the motor stator can be easily and reliably fixed inside the cylindrical portion of the casing, and vibration of the cylindrical portion of the casing can be more effectively suppressed. It is possible.

  The hermetic compressor of the second invention is the hermetic compressor of the first invention, and the size of the gap is 10 to 300 μm.

  Here, since the size of the gap is set to about 10 μm or more in radius, the vibration of the cylindrical portion can be more effectively suppressed. In addition, since the upper limit of the gap is set to about 300 μm or less in radius, when spot welding is performed by spot welding, it is possible to prevent the generated spatter from entering the compressor. Moreover, when joining by a convex part, it is possible to satisfy required joining strength.

  The hermetic compressor of the third invention is the hermetic compressor according to any one of the first to second inventions, wherein the point joints are arranged at a plurality of locations in the axial direction of the motor rotor on the outer peripheral surface of the motor stator. Yes.

  Here, since the point joint portions are arranged at a plurality of positions in the axial direction of the motor rotor on the outer peripheral surface of the motor stator, the vibration of the cylindrical portion of the casing is more effectively suppressed while fixing the motor stator in a stable state. It is possible.

  The point joining portion may be a convex portion formed on either the motor stator or the cylindrical portion.

  Here, since the point joint is a convex portion formed on either the motor stator or the cylindrical portion, the vibration of the motor stator becomes difficult to be transmitted to the casing, and the vibration of the cylindrical portion of the casing is suppressed. Is possible.

  In addition, the convex part of a cylindrical part here is the protrusion deform | transformed inside from the cylindrical outer side, the nail | claw provided by shaving the cylindrical part inner surface, or another part inside a cylindrical part. And the like provided in the above. Moreover, the convex part of the motor stator is a protrusion that is partially increased in the outer diameter of the laminated steel sheet, provided as a separate part on the outer periphery of the motor stator, or has a convex part toward the cylindrical part and the motor stator. Or parts with limited contact. In addition, the convex portion of the motor stator may be a convex surface in a gap of 10 to 300 μm, or a cylindrical portion having a convex portion (as viewed from the inside of the casing) and caulked.

  The point joint portion may include a spacer sandwiched between the motor stator and the cylindrical portion, and a laser weld portion obtained by laser welding the spacer to the motor stator and the cylindrical portion, respectively.

  Here, since the point joint has the spacer and the laser welded portion, the vibration of the motor stator becomes difficult to be transmitted to the casing, and the vibration of the cylindrical portion of the casing can be suppressed.

  A hermetic compressor according to a fourth aspect of the present invention is an annular motor stator, a motor rotor that is rotatably disposed in the internal space of the motor stator, a casing that includes the motor stator and a cylindrical portion that houses the motor rotor, a motor stator and a cylinder. And a joining portion for joining the shape portion. For the portion where the outer peripheral surface of the motor stator and the inner peripheral surface of the cylindrical portion are opposed to each other, the total peripheral length of the joint portion on the cross section perpendicular to the central axis of the cylindrical portion including the joint portion, and the cylinder The ratio with the peripheral length of the inner peripheral surface of the shape portion is less than 10%, and a gap is secured in other portions other than the joint portion. The joint is formed by spot welding.

  Here, with respect to the portion where the outer peripheral surface of the motor stator and the inner peripheral surface of the cylindrical portion are opposed to each other, the total perimeter of the joint portion on the cross section orthogonal to the central axis of the cylindrical portion including the joint portion And the ratio with the peripheral length of the inner peripheral surface of a cylindrical part is less than 10%, and the clearance gap is ensured in other parts other than a junction part. Therefore, since the vibration of the motor stator is difficult to be transmitted to the casing, the vibration of the cylindrical portion of the casing can be suppressed.

  Further, since the joint portion is formed by spot welding, the motor stator can be easily and reliably fixed inside the cylindrical portion of the casing, and vibration of the cylindrical portion of the casing can be more effectively suppressed. Is possible.

  A hermetic compressor according to a fifth aspect is the hermetic compressor according to any one of the first to fourth aspects, wherein the motor stator is sandwiched between components located above and below the motor stator. .

  Here, since the motor stator is sandwiched between components positioned above and below the motor stator, the vibration of the motor stator is less likely to be transmitted to the casing, and the vibration of the cylindrical portion of the casing can be suppressed. It is.

  A hermetic compressor according to a sixth aspect of the present invention is the hermetic compressor according to the first aspect of the present invention, wherein the tubular portion is provided with a welding hole for the motor stator. The motor stator is welded to the cylindrical portion through a weld hole.

  Here, since the welding hole is provided in the cylindrical part, the motor stator can be fixed by welding to the cylindrical part via the welding hole.

  According to the first invention, vibration and noise of the cylindrical portion of the casing can be suppressed.

  Further, vibration of the cylindrical portion of the casing can be more effectively suppressed while fixing the motor stator in a stable state.

  Furthermore, the motor stator can be easily and reliably fixed inside the cylindrical portion of the casing, and vibration of the cylindrical portion of the casing can be more effectively suppressed.

  According to the second invention, vibration of the cylindrical portion can be more effectively suppressed.

  According to the third aspect of the invention, vibration of the cylindrical portion of the casing can be more effectively suppressed while fixing the motor stator in a stable state.

  According to the fourth aspect of the invention, vibration of the cylindrical portion of the casing can be suppressed.

  Furthermore, the motor stator can be easily and reliably fixed inside the cylindrical portion of the casing, and vibration of the cylindrical portion of the casing can be more effectively suppressed.

  According to the fifth aspect, vibration of the cylindrical portion of the casing can be suppressed.

  According to the sixth aspect of the invention, the motor stator can be fixed by welding to the cylindrical portion through the weld hole.

A hermetic compressor 1 using a CO ₂ refrigerant shown in FIG. 1 includes a casing 2, a motor 3, a compression mechanism 4, an accumulator 5, a shaft 6, and a plurality of point joints 7. . The motor 3, the compression mechanism 4 and the shaft 6 are accommodated in the casing 2.

  The motor 3 includes an annular motor stator 8 and a motor rotor 9 that is rotatably disposed in an internal space 8 a of the motor stator 8. The motor rotor 9 is connected to the shaft 6 and can rotate with the shaft 6.

The casing 2 includes a cylindrical portion 10 and a pair of end plates 11 and 12 that close upper and lower opening ends of the cylindrical portion 10. The cylindrical portion 10 of the casing 2 houses the motor stator 8 and the motor rotor 9 of the motor 3. The internal pressure of the casing 2 filled with the CO ₂ refrigerant is high (about 14 MPa).

  The plurality of point joints 7 are fixed by spot welding by spot welding between the motor stator 8 and the cylindrical part 10 in a state in which a gap 13 is secured between the motor stator 8 and the cylindrical part 10. . Thereby, since the vibration of the motor stator 8 is difficult to be transmitted to the casing 2, the vibration of the cylindrical portion 10 of the casing 2 can be suppressed. This is because the cross-sectional area (the cross-sectional area of the plurality of point joints 7) of the portion where vibration is transmitted from the motor stator 8 to the cylindrical portion 10 is narrow.

  That is, in the present embodiment, on the cross section orthogonal to the central axis of the cylindrical portion 10 including the joint portion 7 with respect to the portion where the outer peripheral surface of the motor stator 8 and the inner peripheral surface of the cylindrical portion 10 face each other. The ratio of the total peripheral length of the joint portion 7 and the peripheral length of the inner peripheral surface of the tubular portion 10 is less than 10%, and a gap 13 is secured in other portions other than the point joint portion 7. . Therefore, the vibration of the motor stator 8 is difficult to be transmitted to the casing 2, so that the vibration of the cylindrical portion 10 of the casing 2 can be suppressed.

Here, the total perimeter of the joint 7 on the cross section orthogonal to the central axis of the tubular portion 10 including the joint 7 (that is, on the transverse cross section of the tubular portion 10 (circular cross section)), and the tubular shape When the ratio of the circumferential length of the inner peripheral surface of the portion 10 is less than 10%, the conventional stator fixing method by press fit press fits the motor stator 8 inside the cylindrical portion 10 because the joining area is too small. Is difficult. In addition, since the internal pressure of the casing 2 filled with the CO ₂ refrigerant is high, fixing by the conventional shrink-fitting press-fit is more difficult in consideration of the expansion of the casing 2 due to the internal pressure.

  As shown in FIG. 2, inside the cylindrical portion 10, the motor stator 8 is fixed by spot welding at three or more point joints 7 per one cross section and at two or more cross sections. Yes.

  What is necessary is just to set suitably the number of the point junction parts 7 corresponding to the radius and length of the cylindrical part 10 and the motor stator 8. FIG.

  Since the size g of the gap 13 is set to about 10 to 300 μm, the vibration of the tubular portion 10 can be more effectively suppressed.

  Here, as shown in FIG. 3, when the relationship between the size g (micron) of the gap 13 and the compressor operating sound A (decibel) is roughly examined, the size g of the gap 13 is -20 microns. The compressor operation sound A2 when the size g of the gap 13 is 10 microns is reduced to almost 90% of A1 with respect to the compressor operation sound A1 in the following cases (that is, in the interference fit state), Further, it was found that the compressor operating sound A3 when the size g of the gap 13 is 20 microns or more is reduced to almost 80% of A1.

  Since the point joint portion 7 is arranged at three or more points in the circumferential direction on the outer peripheral surface of the motor stator 8, the vibration of the cylindrical portion 10 of the casing 2 is more effectively performed while fixing the motor stator 8 in a stable state. It is possible to suppress.

  Since the point joint portion 7 is arranged at a plurality of positions in the axial direction of the motor rotor 9 on the outer peripheral surface of the motor stator 8, the vibration of the cylindrical portion 10 of the casing 2 is more effective while fixing the motor stator 8 in a stable state. Can be suppressed.

  Since the spot joint portion 7 is formed by spot welding, the motor stator 8 can be easily and reliably fixed inside the cylindrical portion 10 of the casing 2 and vibration of the cylindrical portion 10 of the casing 2 can be further reduced. It can be effectively suppressed.

  Specifically, the point joint portion 7 is formed by forming a through hole 10a as a welding hole in the cylindrical portion 10 and spot welding the motor stator 8 through the through hole 10a.

  As shown in FIGS. 1 and 4, the compression mechanism 4 includes a swinging piston 21 having a blade 22, a bush 23 that supports the blade 22 so as to be swingable, and a cylinder 27. The cylinder 27 has a cylinder chamber 24 that houses the oscillating piston 21, a bush hole 25 into which the bush 23 is rotatably inserted, and an oil supply communication hole 26 that communicates with the bush hole 25.

The oscillating piston 21 is oscillated inside the cylinder chamber 24 by receiving the rotational driving force of the motor 3 and rotating the eccentric portion 6a of the shaft 6 eccentrically, whereby the CO 2 sucked from the intake pipe 28 is oscillated. ₂ Compress the refrigerant inside the cylinder chamber 24. The compressed CO ₂ refrigerant rises through the inside of the casing 2 and is discharged from the discharge pipe 29.

  The cylinder 27 has a lower block 27a and an upper block 27b. The cylinder 27 is screwed to the mounting plate 30. The mounting plate 30 is fixed to the cylindrical portion 10 of the casing 2 by a mounting plate joining portion 31. The mounting plate joint 31 is formed by spot welding.

<Features>
(1)
In the hermetic compressor 1 according to the embodiment, the plurality of point joints 7 have a gap 13 between the motor stator 8 and the cylindrical part 10 and the gap between the motor stator 8 and the cylindrical part 10. Since it is fixed by spot welding by spot welding, it is possible to suppress vibration of the cylindrical portion 10 of the casing 2 and noise caused by the vibration.

(2)
Further, the hermetic compressor 1 of the embodiment is a hermetic compressor using a CO ₂ refrigerant, and since the internal pressure inside the casing 2 is high, it is difficult to fix the motor stator 8 by shrink fitting or press fitting. However, it is possible to fix between the motor stator 8 and the cylindrical part 10 by the point joining by the plurality of point joining parts 7. This can prevent the motor stator 8 from falling off.

(3)
In the hermetic compressor 1 of the embodiment, the motor stator 8 can be fixed inside the cylindrical portion 10 of the casing 2 by the plurality of point joints 7 so that no great stress is applied from the cylindrical portion 10. It is possible to reduce iron loss.

(4)
In the hermetic compressor 1 according to the embodiment, the plurality of point joints 7 have a gap 13 between the motor stator 8 and the cylindrical part 10 and the gap between the motor stator 8 and the cylindrical part 10. Since it is fixed by spot welding by spot welding, a double casing structure for preventing casing vibration and a special motor fixing member are not required, and the manufacturing cost of the hermetic compressor 1 can be greatly reduced. It is.

(5)
In the hermetic compressor 1 of the embodiment, since the size g of the gap 13 is set to about 10 to 300 μm, vibration of the cylindrical portion 10 can be more effectively suppressed.

(6)
In the hermetic compressor 1 of the embodiment, since the point joint 7 is arranged at three or more points in the circumferential direction on the outer peripheral surface of the motor stator 8, the cylinder of the casing 2 while fixing the motor stator 8 in a stable state. It is possible to more effectively suppress the vibration of the shaped portion 10.

(7)
In the hermetic compressor 1 of the embodiment, since the point joints 7 are arranged at a plurality of positions in the axial direction of the motor rotor 9 on the outer peripheral surface of the motor stator 8, the casing 2 is fixed while fixing the motor stator 8 in a stable state. It is possible to more effectively suppress the vibration of the cylindrical portion 10.

(8)
In the hermetic compressor 1 according to the embodiment, since the point joint 7 is formed by spot welding, the motor stator 8 can be easily and reliably fixed inside the cylindrical portion 10 of the casing 2 and the casing. It is possible to more effectively suppress the vibration of the second cylindrical portion 10.

(9)
In the hermetic compressor 1 according to the embodiment, the portion where the outer peripheral surface of the motor stator 8 and the inner peripheral surface of the cylindrical portion 10 face each other is orthogonal to the central axis of the cylindrical portion 10 including the joint portion 7. The ratio of the total perimeter of the joint portion 7 on the cross section and the perimeter of the inner peripheral surface of the tubular portion 10 is less than 10%, and the gap 13 is secured in other portions than the point joint portion 7. Has been. Therefore, the vibration of the motor stator 8 is difficult to be transmitted to the casing 2, so that the vibration of the cylindrical portion 10 of the casing 2 can be suppressed.

(10)
In the hermetic compressor 1 of the embodiment, since the cylindrical portion 10 is provided with the through hole 10a as a welding hole, the motor stator 8 is fixed by welding to the cylindrical portion 10 through the through hole 10a. It is possible.

<Modification>
(A)
In the above embodiment, the point-like point joint 7 by spot welding or the like has been described as an example of the joint, but it may be a line-like joint. Also in this case, the joint area S2 which is the sum of the cross-sectional areas of the point joints 7 is 10% with respect to the facing area S1 where the outer peripheral surface of the motor stator 8 and the inner peripheral surface of the cylindrical portion 10 are opposed to each other. If the gap 13 is ensured in other portions than the point joint 7, the vibration of the motor stator 8 becomes difficult to be transmitted to the casing 2, and the vibration of the cylindrical portion 10 of the casing 2 is reduced. It is possible to suppress.

(B)
In the above embodiment, the spot joint 7 by spot welding has been described as an example of the joint, but the spot joint 7 is a convex part formed on either the motor stator 8 or the cylindrical part 10. May be. Also in this case, the vibration of the motor stator 8 becomes difficult to be transmitted to the casing 2, and the vibration of the cylindrical portion 10 of the casing 2 can be suppressed.

(C)
In the said embodiment, although the spot junction part 7 by spot welding was mentioned as an example and demonstrated as a junction part, the member fitted between the motor stator 8 and the cylindrical part 10 was used as the spot junction part 7. FIG. Also good.

  For example, the point joint 7 has a spacer sandwiched between the motor stator 8 and the tubular portion 10 and a laser welded portion obtained by laser welding the spacer to the motor stator 8 and the tubular portion 10. May be. Also in this case, the vibration of the motor stator 8 becomes difficult to be transmitted to the casing 2, and the vibration of the cylindrical portion 10 of the casing 2 can be suppressed.

(D)
In the above embodiment, the motor stator 8 and the cylindrical portion 10 are fixed by spot welding by spot welding, but the following fixing is also possible as another fixing method.

  For example, as shown in FIG. 5, the motor stator 8 includes components positioned above and below the motor stator 8, for example, extending the lower end portion 11 a of the end plate 11 and the upper end portion 30 a of the mounting plate 30. The motor stator 8 may be fixed with the cylindrical portion 10 and the gap 13 being opened.

  Also in this case, the joint portion on the cross section orthogonal to the central axis of the tubular portion 10 including the joint portion 7 with respect to the portion where the outer peripheral surface of the motor stator 8 and the inner peripheral surface of the tubular portion 10 face each other. The ratio of the total perimeter of 7 and the perimeter of the inner peripheral surface of the cylindrical portion 10 is less than 10%, and the gap 13 is secured in other portions other than the point joint 7. For example, the vibration of the motor stator 8 is not easily transmitted to the casing 2, and the vibration of the cylindrical portion 10 of the casing 2 can be suppressed.

  The motor stator 8 may be fixed only by sandwiching the end plate 11 and the mounting plate 30, or the cylindrical portion formed by sandwiching the end plate 11 and the mounting plate 30 and a plurality of point joints 7 (see FIG. 1). You may fix by the fixing method of both of the point joining to 10.

(E)
Further, as a modified example of the hermetic compressor of the present invention, the present invention can also be applied to a scroll type or reciprocating type compressor. In addition, the rotary type compressor can be applied to either a single cylinder type or a two cylinder type.

  The present invention can be widely applied to a hermetic compressor in which a motor stator is fixed inside a casing.

1 is a longitudinal sectional view of a hermetic compressor according to an embodiment of the present invention. The perspective view which showed roughly arrangement | positioning of the cylindrical part of the casing of FIG. 1, a motor stator, and a point junction part. The graph which showed the relationship between the magnitude | size of the clearance gap between the cylindrical part of FIG. 1, and a motor stator, and the magnitude | size of a compressor driving | operation sound. The horizontal sectional view of the compression mechanism of FIG. The longitudinal cross-sectional view of the hermetic type compressor concerning a modification.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Hermetic compressor 2 Casing 3 Motor 4 Compression mechanism 7 Point junction 8 Motor stator 9 Motor rotor 10 Cylindrical part 13 Clearance

Claims (6)

An annular motor stator (8);
A motor rotor (9) rotatably disposed in the internal space of the motor stator (8);
A casing (2) including a cylindrical portion (10) for housing the motor stator (8) and the motor rotor (9);
The gap between the motor stator (8) and the cylindrical portion (10) is fixed by point joining in a state where a gap (13) is secured between the motor stator (8) and the cylindrical portion (10). A plurality of point joints (7)
The point joint (7) is arranged at three or more points in the circumferential direction on the outer peripheral surface of the motor stator (8),
The point joint (7) is formed by spot welding,
Hermetic compressor (1). The size (g) of the gap (13) is 10 to 300 μm.
The hermetic compressor (1) according to claim 1. The point joint (7) is arranged at a plurality of locations in the axial direction of the motor rotor (9) on the outer peripheral surface of the motor stator (8).
The hermetic compressor (1) according to claim 1 or 2. An annular motor stator (8);
A motor rotor (9) rotatably disposed in the internal space of the motor stator (8);
A casing (2) including a cylindrical portion (10) for housing the motor stator (8) and the motor rotor (9);
A joining portion (7) for joining between the motor stator (8) and the tubular portion (10);
The central axis of the cylindrical portion (10) including the joint portion (7) with respect to the portion where the outer peripheral surface of the motor stator (8) and the inner peripheral surface of the cylindrical portion (10) face each other. The ratio of the total peripheral length of the joint portion (7) on the cross section orthogonal to the inner peripheral surface of the cylindrical portion (10) is less than 10%, and the joint portion (7) The gap (13) is secured in other parts other than
The joint (7) is formed by spot welding,
Hermetic compressor (1). The motor stator (8) is sandwiched between components located above and below the motor stator (8), respectively.
The hermetic compressor (1) according to any one of claims 1 to 4.   The tubular portion (10) is provided with a weld hole (10a) for the motor stator (8), and the motor stator (8) is connected to the tubular portion (10a) via the weld hole (10a). The hermetic compressor (1) according to claim 1, welded to 10).

Images