JP2007198335A - Motor driven compressor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a motor driven compressor having a reduced size and improved reliability. <P>SOLUTION: This compressor is provided with a compression mechanism part 4 and a motor 5 having a stator 5a and a rotor 5b arranged opposing each other in a container 3. The rotor 5b has balance weights 5c, 5d at the axial end. It is fixed into a screw hole formed in the balance weight 5c with a bolt 8 and fixed into a recessed portion 12 formed in the balance weight 5d with a bolt 8 and a nut 13. Thus, no need exists for a protruded portion from the balance weights 5c, 5d to reduce the size of the motor driven compressor. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an electric compressor applied to an air conditioning and refrigeration apparatus.

  Conventionally, in this type of electric compressor, a balance weight is attached to the rotor, and an imbalance caused by the compression mechanism is corrected (for example, see Patent Document 1).

In Patent Document 1, the balance weight is integrally formed by casting, processing, or the like, and is fixed to the rotor by caulking pins.
JP 2000-11680 A

  However, the conventional structure of the rotor has a problem that the electric compressor is increased in size because a protruding space is generated by the caulking portion of the caulking pin. SUMMARY OF THE INVENTION The present invention solves the above-described conventional problems, and an object thereof is to provide an electric compressor that can reduce the crimping space of the balance weight portion of the rotor and thus can be reduced in size and has reliability against vibration. To do.

  In order to solve the above-described conventional problems, an electric compressor according to the present invention includes a motor in which a stator and a rotor are arranged opposite to each other in a container, and the rotor has a balance weight attached to an end. Either one is provided with a screw hole. As a result, the balance weight can be eliminated from the caulking portion by bolt connection.

  The electric compressor of the present invention can improve reliability and further reduce the size.

  A first invention includes a compression mechanism section and a motor in which a stator and a rotor are opposed to each other in a container, the rotor having a balance weight at an axial end, and the balance weight is a screw hole. And fixing with a bolt penetrated from the other axial end of the rotor, there is no portion protruding in the axial direction from the balance weight, and the clearance between the rotor and the main casing can be reduced. It is possible to reduce the size of the electric compressor. Further, since the balance weight is bolted, the strength is improved and the reliability can be improved.

  According to a second aspect of the present invention, the container includes a compression mechanism portion and a motor in which a stator and a rotor are arranged to face each other, the rotor having a balance weight having a recess at an axial end, and the balance weight By fixing the bolt with a bolt and nut that penetrates from the recess to the other axial end of the rotor, there is no portion protruding in the axial direction from the balance weight, and the clearance between the rotor and the main casing can be reduced. It is possible to reduce the size of the electric compressor. Further, since the balance weight is bolted, the strength is improved and the reliability can be improved.

In the third aspect of the invention, in particular, the balance weight of the first or second aspect of the invention is made of a metal having a higher specific gravity than an aluminum material such as a brass material, an iron material, or a stainless material, so that the material is not limited to the material, and the cost can be reduced. it can.

  In the fourth invention, in particular, the balance weights of the first to third inventions are formed integrally with the end plate of the rotor by casting or machining, thereby reducing the number of parts and reducing the cost.

  The fifth invention is particularly the balance weight of the first to fourth inventions, and by providing a pilot hole in the threaded portion at the time of casting, the machining cost can be reduced by performing only thread cutting at the time of balance weight processing. it can.

  The sixth invention is particularly the balance weight of the first to fifth inventions, and the outer periphery is formed in a circular shape along the outer periphery of the rotor, so that the fluid is vigorously stirred by the balance weight. This can be suppressed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a cross-sectional view of the electric compressor according to the first embodiment of the present invention. FIG. 1 shows one example in the case of a horizontal scroll compressor installed sideways by a mounting leg 2 around the body of the scroll compressor 1, and the scroll compressor 1 is inside the main body casing 3. The compressor 5 and the motor 5 for driving the compressor 5 are built in, and a liquid storage 6 is provided for storing the liquid used for lubrication of the sliding parts including the compressor 4, and the motor 5 is not shown in the figure. To be driven by. The refrigerant to be handled is a gas refrigerant, and the liquid to be used for lubrication of each sliding part and the seal of the sliding part of the compression mechanism part 4 is lubricating oil 7, which has a property compatible with the refrigerant. It is.

  The compression mechanism unit 4 of the electric compressor 1 is driven by a motor 5 connected via a drive shaft 11. The motor 5 includes a rotor 5b that is fixed by shrinking and fitting the stator 5a to the inner periphery of the main body casing 3, and is fixed around the middle of the drive shaft 11. The stator 5a and the rotor 5b have an air gap. Are arranged opposite to each other. Balance weights 5c and 5d are attached to the rotor 5b so as to correct unbalance caused by the rotation of the compression mechanism section 4.

  The rotor 5b has an end plate 9 fixed to both ends by a plurality of bolts 8 penetrating the inside in the axial direction, and simultaneously a balance weight 5c and a balance weight 5d are fixed on the end plate. Here, the balance weight 5c serves as a nut as a screw hole 10 in which a screw corresponding to the bolt 8 is cut. Further, the balance weight 5d forms a recess 12 large enough to hide the head 8a of the bolt 8, and is fixed by a nut 13 at the other axial end. The balance weights 5c and 5d are formed by casting or processing a high specific gravity metal such as a brass material, an iron material, or a stainless steel material.

  As described above, the first embodiment includes the motor 5 in which the stator 5a and the rotor 5b are disposed opposite to each other in the main body casing 3, and the rotor 5b is attached to the balance weight 5c attached to the end. By providing the screw hole 10 and providing the recess 12 in the balance weight 5d, the clearance between the rotor 5b and the main body casing 3 can be reduced, and the electric compressor 1 can be miniaturized.

Further, by making the balance weights 5c and 5d higher in specific gravity than aluminum materials such as brass, iron, and stainless steel, it is easy to secure the necessary weight, and it is not limited to materials, and cost can be reduced. . Further, by forming the balance weights 5c and 5d of the present embodiment integrally with the end plate 9 of the rotor 5b by casting or processing, the number of parts can be reduced and the cost can be reduced. Furthermore, by providing the balance weight 5c with a pilot hole at the time of casting, only the thread cutting needs to be performed when the balance weight 5c is processed, and the number of processing steps can be reduced and the cost can be reduced.

(Embodiment 2)
FIG. 2 is a perspective view of the rotor of the electric compressor according to the second embodiment of the present invention. In FIG. 2, the balance weight 5e is formed in a circular shape along the outer periphery of the rotor 5b. The circular balance weight 5e can suppress the vigorous stirring of the gas refrigerant and the lubricating oil 7 accumulated in the liquid storage unit 6.

  As described above, the electric compressor according to the present invention improves the reliability of the balance weight and the stator coupling portion, and further enables downsizing of the electric compressor, so that the stator and the rotor are placed in the container. It can also be applied to applications such as machines equipped with motors that face each other.

Sectional drawing of the electric compressor in Embodiment 1 of this invention The perspective view of the rotor of the electric compressor in Embodiment 2 of this invention

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Scroll compressor 2 Mounting leg 3 Main body casing 4 Compression mechanism part 5 Motor 5a Stator 5b Rotor 5c, 5d Balance weight 5e Circular balance weight 6 Liquid storage part 7 Lubricating oil 8 Bolt 9 End plate 10 Screw hole 11 Drive shaft 12 Recess 13 Nut

Claims (6)

The container includes a compression mechanism, and a motor in which a stator and a rotor are arranged to face each other, the rotor has a balance weight at an axial end, the balance weight has a screw hole, An electric compressor characterized by being fixed by a bolt penetrating from the other axial end of the rotor. The container includes a compression mechanism section and a motor in which a stator and a rotor are arranged to face each other, and the rotor has a balance weight provided with a recess at an axial end, and the balance weight is more than the recess. An electric compressor characterized in that the electric compressor is fixed by a bolt and a nut penetrating to the other axial end of the rotor. The electric compressor according to claim 1 or 2, wherein the balance weight is made of a metal having a higher specific gravity than an aluminum material, such as a brass material, an iron material, or a stainless steel material. The electric compressor according to claim 1, wherein the balance weight is formed by casting or processing integrally with an end plate of the rotor. The electric compressor according to any one of claims 1 to 4, wherein the balance weight is provided with a pilot hole for threading during processing at the time of casting. The electric compressor according to any one of claims 1 to 5, wherein the balance weight has an outer peripheral portion formed in a circular shape along the rotor.