JP6131463B2 - Stator fixing method of motor part in hermetic compressor - Google Patents

Description

  The present invention relates to a hermetic compressor for a refrigeration cycle, and more particularly to fixing a stator.

  Conventionally, as this type of fluid machine used in a refrigeration cycle, a hermetic type electric compressor in which a compression mechanism using a scroll system or the like is driven by an electric motor is widely known. Recently, this type of hermetic electric compressor is also used in a compressor for a refrigeration cycle, for example, mounted in a hybrid vehicle that supplies power from a storage battery instead of a driving force from an engine.

  Hereinafter, a vehicle-mounted hermetic electric scroll compressor that is one of the conventional fluid machines of this type will be described with reference to the drawings (for example, see Patent Document 1).

  FIG. 3 is a cross-sectional view of an in-vehicle sealed electric scroll compressor. A substantially cylindrical housing 101, a mechanical housing 102, and a side housing 103 are connected by a plurality of bolts 104 to form a sealed container. In addition, an electric motor unit 105 and a compression mechanism unit 106 are installed. The mechanical housing 102 and the side housing 103 are each provided with a leg 107, which is attached to a vehicle body (not shown).

  The electric motor unit 105 includes a stator 110 having a structure in which a coil (copper wire) 109 is wound around a core 108 in which iron thin plates are stacked, and a rotor 111. The rotor 111 is a crank of the compression mechanism unit 106. The shaft 112 is fixed by shrink fitting. Further, a plurality of flange portions 116 are provided by extending the outer peripheral portion of the stator 110 in the radial direction, and are fixed to the housing 101 through bolts 117 respectively.

  The side housing 103 is provided with an electrode portion 113, and power is supplied from the electrode portion 113 to the stator 110.

  The mechanical housing 102 and the side housing 103 are provided with a suction hole 114 and a discharge hole 115, respectively.

JP 2001-317474 A

  By the way, in a compressor or the like used for a home air conditioner, the housing to which the stator is fixed is mostly made of iron than before. In this case, as a method of fixing the stator to the housing, the inner diameter of the housing is slightly smaller than the outer diameter of the stator, and the housing is thermally expanded by bringing it into a high temperature state. A so-called shrink fit fixing is widely used, in which a normal temperature stator is fitted into the thermally expanded housing so that the housing contracts and the stator is fastened and fixed.

On the other hand, in the in-vehicle compressor described in the above conventional example, the housing 101 to which the stator 110 is fixed is mainly made of aluminum in terms of weight reduction and mountability. In this case, the housing made of aluminum has a larger coefficient of thermal expansion and a smaller elastic modulus than those made of iron. Therefore, when the temperature and pressure inside the housing rise during operation, the change in the inner diameter of the housing increases, and the stator It was difficult to fix and hold the housing on the housing.

  In particular, in the so-called high-pressure compressor in which the high-temperature and high-pressure fluid discharged from the compression mechanism unit 106 as described in the conventional example is discharged into the housing 101, the housing is filled with the low-pressure fluid. Compared with a so-called low-pressure compressor, the change in the inner diameter dimension of the housing 101 during operation is further increased.

  Even if the temperature or pressure inside the housing rises, if it is attempted to maintain the holding force of the stator by shrink fitting, a large shrink fit is required in advance. Due to the stress, a large stress acts on the core of the stator, which causes problems such as a reduction in the efficiency of the motor, an increase in operation noise, and a crack in the housing.

  For this reason, as described in the above-described conventional example, the outer periphery of the stator 110 is extended in the radial direction to provide a plurality of flange portions 116, and bolts 117 are passed through the stator 110, whereby the stator 110 is mounted on the housing 101. It was fixed to.

  However, in such a conventional electric compressor, since the flange portion 116 is provided on the outer peripheral portion of the stator 110, the housing 101 has to be enlarged in the radial direction accordingly.

  In particular, in-vehicle compressors must be installed in a limited space of the vehicle, and there is a problem that the size is easily limited. In addition, the increase in the size of the stator and the housing causes a problem that the weight is increased and the cost is increased accordingly.

  The present invention solves such a conventional problem, and in particular, when the housing and the stator are made of different materials, a method for easily and reliably fixing the stator to the housing, and a fluid using the same The purpose is to provide a machine.

Wherein this onset bright in order to solve the conventional problems, and the housing, the interior of the housing, the stator and a motor portion comprising a rotor, hermetic compressor comprising a compression mechanism that is driven by an electric motor unit A stator fixing method for an electric motor unit, wherein a stator notch is provided on the outer periphery of the stator, and a housing notch is provided on the inner periphery of the housing. The stator notch is made of a material having a thermal expansion coefficient of aluminum or higher. The key member is press-fitted and fixed, and the key member is inserted into the housing notch, and the stator and the housing are fixed by shrink fitting .

  As a result, the stator is fixed in the axial direction of the housing by providing projections on the axial step portion of the inner periphery of the housing and the end surface of the key member, and is fixed by the key member. It can be fixed securely.

  In addition, it is not necessary to fix the stator with bolts as in the prior art, and by inserting at least one key member into the notch portion of the stator and the notch portion of the housing, the shaft center of the stator is relative to the housing. Can be easily fixed together.

  According to the present invention, even when the materials of the housing and the stator are different, the stator can be easily and reliably fixed to the housing, and a compact fluid machine without increasing the size and weight of the stator and the housing. Can be obtained.

1 is a longitudinal sectional view of a hermetic compressor according to Embodiment 1 of the present invention. Detailed view of cross section in FIG. Vertical sectional view of a conventional sealed electric scroll compressor for vehicles

Hermetic compressor according to the first invention, there a housing, the interior of the housing, with the stator and the rotor comprising a motor portion and, and a compression mechanism driven by the electric motive unit hermetic compressor Te, c axially inner periphery of Ujingu is stepped portion is provided in the axial end of the scan stator is abutted against the stepped difference portion, the stator notch on the outer peripheral portion of the scan stator, the inner periphery of the housings the housing notch is provided between the scan stator notches and housings notch has a key member having a thermal expansion coefficient is of aluminum or of a material. As a result, the stator can be securely fixed to the housing, and since there is no need to fix the stator with bolts as in the prior art, the size of the stator and the housing can be reduced accordingly. It is possible to obtain a fluid machine that suppresses increase and cost increase.

The second invention is a combination of the first invention in which the stators are made of iron, the housing is made of aluminum, and the like . As a result, when the temperature or pressure inside the housing rises during operation, the key member is made of the same aluminum as the housing, even if the change in the inner diameter of the housing is large, so that at least one notch is tightened. Since it is shrink-fitted in the state, the stator can be fixedly held in the housing.

A third invention is a stator fixing method of an electric motor part in a hermetic compressor including a housing, an electric motor part including a stator and a rotor inside the housing, and a compression mechanism part driven by the electric motor part. The stator notch is provided on the outer periphery of the stator, and the housing notch is provided on the inner periphery of the housing. One end of the stator core is brought into contact with the stepped portion so that the coefficient of thermal expansion is applied to the stator notch. There the key member made of aluminum or material press-fitted, by inserting the key member to the housing notch and attach the stator and the housing by shrink fitting.

The fourth invention is to fit the fixed shrink also the notch the stator outer periphery and the housing inner periphery of the other.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings, taking an in-vehicle sealed electric scroll compressor as an example. Note that the present invention is not limited to the following embodiments.

(Embodiment 1)
FIG. 1 is a longitudinal sectional view of an in-vehicle sealed electric scroll compressor according to Embodiment 1 of the present invention, and FIG. 2 is a transverse sectional view of FIG.

  In FIG. 1, this compressor forms a hermetic container by connecting a substantially cylindrical housing 1, a mechanical housing 2, and a side housing 3 with a plurality of bolts (not shown). And a compression mechanism 6 serving as a fluid mechanism. The housing 1 and the side housing 3 are each provided with an attachment hole 7 and attached to a vehicle body (not shown).

  Here, since the housing 1, the mechanical housing 2, and the side housing 3 to which the stator 10 is fixed are mounted on a vehicle, they are made of aluminum for the purpose of weight reduction and mountability. The electric motor unit 5 includes a stator 10 having a structure in which a coil (copper wire) 9 is wound around a core 8 in which thin steel plates are stacked, and a rotor 11. The rotor 11 is a crank of the compression mechanism unit 6. The shaft 12 is fixed by shrinkage fitting.

  The mechanical housing 2 is provided with an electrode portion 13, and power from a drive circuit 14 integrated with the compressor is supplied to the stator 10 through the electrode portion 13. The mechanical housing 2 and the side housing 3 are provided with a suction hole 19 and a discharge hole 20, respectively.

  With the above configuration, when power is supplied to the drive circuit 14 from the outside of the compressor, a rotational force is generated by the electric motor unit 5 and the compression mechanism unit 6 is driven through the crankshaft 12. As a result, the low-pressure fluid sucked from the suction hole is compressed by the compression mechanism 6 into a high-temperature and high-pressure fluid, and is once discharged into the housing 1 and then discharged from the discharge hole.

  Next, stator fixing of the electric motor unit 5 will be described. A step portion 15 is provided in the axial direction of the inner periphery of the housing 1, and one end of the core 8 of the stator 10 is brought into contact with the step portion 15. A plurality of stator cutout portions 16 are provided on the outer periphery of the stator 10, and at least one key member 18 is press-fitted in the circumferential direction of the stator cutout portions 16 of the stator 10. A housing notch 17 is provided on the inner periphery of the housing 1, and the stator 10 and the housing 1 are fixed by shrink fitting so that the key member 18 is inserted. Further, by providing a protrusion shape on one side of the key member 18 or shifting the relative position of the rotor 11 and the stator 10 as shown in the figure, the stator 10 is pressed in the direction in which the stator 10 is pressed against the step portion 15 by the magnetic attraction force due to the deviation of the magnet center. Therefore, the stator 10 does not shift in the axial direction from the housing 1.

  With the above configuration, the stator 10 is fixed to the housing 1 in the axial direction with respect to the housing 1 by the step portion 15 and the protrusion of the key member 18, and the magnetic attractive force generated between the rotor 11 and the stator 10. Therefore, the stator 10 can be reliably fixed to the housing 1. Even if the temperature rises during operation, if the core 8 is made of an iron-based material and the key member is made of aluminum, the key member has a larger coefficient of thermal expansion, so that it does not come off or shift.

  In the present embodiment, the key member 18 is first press-fitted into the stator notch portion 16 of the stator 10, and then the stator 10 and the housing 1 are fixed by shrink fitting so that the key member 18 is inserted. However, it is not limited to this. For example, the key member 18 may be inserted after the stator 10 and the housing 1 are fixed by press fitting.

  In the first embodiment of the present invention, the description has been given using the on-vehicle hermetic electric scroll compressor. However, the present invention is not limited to this. For example, for home air-conditioning equipment, and for the rotary instead of the scroll compressor. The present invention can be applied to various compressors such as a compressor. Further, it goes without saying that the present invention can be applied even if the fluid mechanism unit is other than the compression mechanism unit or the scroll system.

  As described above, according to the present invention, the stator can be easily and surely fixed to the housing, and a compact fluid machine can be obtained without increasing the size and weight of the stator and the housing. Therefore, it can be applied not only to a vehicle-mounted compressor but also to a machine having a mechanism portion driven by an electric motor.

DESCRIPTION OF SYMBOLS 1 Housing 5 Electric motor part 6 Compression mechanism part 8 Core 10 Stator 11 Rotor 12 Crankshaft 15 Step part 16 Stator notch part 17 Housing notch part 18 Key member

Claims (1)

A stator fixing method for an electric motor unit in a hermetic compressor comprising a housing, an electric motor unit including a stator and a rotor inside the housing, and a compression mechanism unit driven by the electric motor unit ,
A stator notch is provided on the outer periphery of the stator, and a housing notch is provided on the inner periphery of the housing.
A key member made of a material having a thermal expansion coefficient of aluminum or more is press-fitted and fixed to the stator notch,
The key member is inserted into the housing notch , and the stator and the housing are fixed by shrink fitting.
A stator fixing method of an electric motor part in a hermetic compressor.

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