JP2000274360A - Hermetic electrically driven compressor and air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain anti-refrigerant composition inexpensive, but high in MANU FACTURING reliability and product reliability. SOLUTION: A compressor compressing refrigerant made out of compound in a carbon hydride system containing neither chloride nor fluorine, an electric motor 3 driving the compressor, and refrigerating machine oil having compatibility with refrigerant, are housed in a hermetic case 1. At least one out of an insulating component member and a sliding member, is formed out of one kind selected out of straight chain type PPS resin, rithol type phenol resin, fluorine resin (PTFE, ETFE, FEP, PFA), PA resin, PI resin, PBT resin and PET resin, which are manufactured while less than 5 wt.% internal mold releasing agent is contained, or mold releasing agent is applied to each forming mold at the time of molding by means of injection molding or extrusion molding.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hermetic electric compressor using a refrigerant of a hydrocarbon compound not containing chlorine and fluorine, and more particularly to an improvement in the compatibility of the components of the compressor with the refrigerant. The present invention relates to a hermetic electric compressor and an air conditioner provided with the hermetic electric compressor.

2. Description of the Related Art Conventionally, as an example of a constituent material of a compressor using an HFC refrigerant, there is one disclosed in Japanese Patent Application Laid-Open No. 4-183788. Further, as a constituent material of a compressor using an HC refrigerant, there is a material described in Japanese Patent Application No. 6-325558. The latter compressor material is HCFC
It is used because it has the same or higher heat resistance as the refrigerant-resistant resin material used in the 22 refrigerant, and has a small amount of impurities, and is compatible with the refrigerant or oil system used.

[0002]

However, an air conditioner equipped with a conventional compressor using such an alternative refrigerant has the following problems.

[0003] 1. If the flow of adopting the alternative refrigerant is an air conditioner, the HCFC 22 to the HFC 410A (HFC 407)
As the transition to C) occurs, the HFC refrigerant increases the water content in the system, so that the deterioration of organic materials such as the resin composition of the compressor components is promoted. For this reason, since it is necessary to use a high-cost organic material having deterioration resistance as a component of the compressor, there is a problem that the cost is high.

[0004] 2. In a compressor using an HFC refrigerant, the leakage current of the motor increases due to a system having a polarity unique to the HFC. Therefore, it is necessary to increase the thickness of the insulating film of the electric wire such as the motor winding. . For this reason, reducing the thickness of the insulation coating of the wire to reduce the cost reduces the electrical insulation of the insulation coating,
There is a problem in that the manufacturing reliability and performance of the electric wire are reduced, which is difficult. In addition, the resin composition of the compressor has a problem that the additive or the like is extracted (precipitated) into the refrigerant or the oil. There is a problem that reliability is reduced.

The present invention has been made in view of such circumstances, and has as its object to provide a hermetic electric compressor having a refrigerant-resistant composition which is inexpensive and has high production reliability and product reliability, and its air conditioning. To provide machines.

[0006]

According to the first aspect of the present invention, there is provided a compressor for compressing a refrigerant of a hydrocarbon-based compound containing no chlorine and fluorine, a motor for driving the compressor, and an electric motor for driving the compressor. And a refrigerating machine oil that is compatible with the above, and contains an internal mold release agent of 5 wt% or less, or is manufactured by applying a mold release agent to a mold at the time of injection molding or extrusion molding. Linear PPS resin, resol type phenol resin, fluororesin (PTF
E, ETFE, FEP, PFA), PA resin, PI resin, PBT resin, PET resin, and at least one of an insulating constituent member and a sliding member selected from the group consisting of: It is a hermetic electric compressor characterized by the following characteristics.

Here, PPS resin is polyphenylene sulfide, PTFE is polytetrafluoroethylene, ET
FE is ethylene fluoroethylene copolymer, FEP is fluoroethylene propylene copolymer, PFA is perfluoroalkoxy fluororesin, PA resin is polyamide, PI resin is polyimide, PBT resin is polybutylene terephthalate, and PET resin is polyethylene terephthalate. .

According to the invention of claim 2, the refrigerant of the hydrocarbon compound is R170 (ethane), R290 (propane),
600 (n-butane), R600a (I-butane), R
2. The hermetic electric compressor according to claim 1, wherein the hermetic electric compressor is made of at least one refrigerant selected from the group consisting of 1150 (ethylene) and R1270 (propylene).

The invention according to claim 3 is characterized in that the refrigerating machine oil has a kinematic viscosity at 40 ° C. of 1 to 120 mm ² / S, an alkylbenzene, a polyol ester oil, a polyether oil, a PA oil.
3. The hermetic electric compressor according to claim 1, wherein the hermetic electric compressor is made of at least one oil selected from the group consisting of G, PAO, and fluorine-based oil.

According to a fourth aspect of the present invention, the insulating member covers the outer surface of the core wire of the motor winding with polyester, or coats the outer surface of the polyester layer with polyamide imide or nylon, thereby forming a resin insulating layer. Saga JIS1
The hermetic electric compressor according to any one of claims 1 to 3, wherein the hermetic electric compressor is set to one of two types.

[0011] The invention of claim 5 relates to a melt polycondensation type PE in which the PET resin is used as an insulating paper material for an electric motor.
The hermetic electric compressor according to any one of claims 1 to 4, wherein the hermetic electric compressor is a T material.

According to a sixth aspect of the present invention, the metal or organic resin component constituting the compressor is finally cleaned with a chlorine-free solvent in a manufacturing process thereof. A hermetic electric compressor according to any one of the preceding claims.

According to a seventh aspect of the present invention, the metal or organic resin component constituting the compressor is finally washed with an aliphatic hydrocarbon solvent in a manufacturing process thereof. A hermetic electric compressor according to any one of the preceding claims.

According to an eighth aspect of the present invention, an indoor heat exchanger, a decompression device, and an outdoor heat exchanger are connected to the hermetic electric compressor according to any one of the first to seventh aspects through a refrigerant pipe so as to supply a refrigerant. An air conditioner comprising a refrigeration cycle for circulation.

[0015]

FIG. 1 is a block diagram showing an embodiment of the present invention.
This will be described with reference to FIG. In these figures, the same or corresponding parts are denoted by the same reference characters.

The hermetic electric compressor according to the present invention is suitable, for example, when it is incorporated in a refrigeration cycle of an air conditioner for cooling and heating a room, and includes a reciprocating type, a rotary type, a scroll type, and a helical type. The rotary type hermetic electric compressor includes a low-temperature rotary compressor used for refrigerators and the like and a high-temperature rotary compressor used for air conditioners and the like.

FIG. 1 is a longitudinal sectional view of a rotary type hermetic electric compressor 1A according to a first embodiment of the present invention.
The hermetic electric compressor 1A is a vertical twin-type high-temperature rotary compressor incorporated in a refrigeration cycle of an air conditioner. A high-temperature rotary compressor is a compressor having a refrigerant evaporation temperature of 5 ° C. or more. Say.

This hermetic electric compressor 1A is a rotary type compressor in which R290 (propane), which is a refrigerant of a hydrocarbon compound containing no chlorine and fluorine (hereinafter referred to as hydrocarbon refrigerant), is compressed in a closed case 1. A compressor 2 and an electric motor 3 for driving the compressor 2 and a refrigerating machine oil 4 compatible with the hydrocarbon refrigerant are accommodated.
It is arranged below. The refrigerating machine oil 4 is stored on the inner bottom of the closed case 1 and immerses the lower part of the compressor 2.

The electric motor 3 has a stator 5 which is press-fitted into the upper part of the closed case 1 and a rotor 6 rotatably provided on the stator 5, and the rotor 6 is integrally provided with a crankshaft 7. The lower portion of the crankshaft 7 is rotatably supported by a main bearing 8 and a sub-bearing 9 arranged at the top and bottom in the figure. Further, a rotor 6 is provided at the lower or lower end of the crankshaft 7.
Projecting further downward and extending into the pool of the refrigerating machine oil 4, the rotation of the crankshaft 7 sucks the refrigerating machine oil 4 above the axis of the crankshaft 7, and supplies the sliding portion between the main bearing 8 and the sub-bearing 9. An oil pump (not shown) is formed.

The compressor 2 has a pair of upper and lower two cylinders (cylinder blocks) 10, 11, and each of the cylinders 10,
The piston rollers 14,
15 are accommodated. The piston rollers 14 and 15 are respectively fitted to the crank portions 7 a and 7 b of the crankshaft 7. The rotation of the crankshaft 17 causes the two piston rollers 14 and 15 to be eccentrically rotated while rolling in the cylinder chambers 12 and 13. It has become so. Each cylinder 10,
11 is partitioned by a partition plate 16.

Each of the cylinder chambers 12 and 13 has a blade 17.
Each blade 17 is slidably housed in each blade groove 18 formed in each cylinder 10, 11, and is always elastically moved toward the piston rollers 14, 15 by each spring 19. The spring is biased so as to press.

Each of the cylinders 10, 11
The suction through holes 20 and 21 are formed opposite to one end of the cylinder 10, and the suction pipes 23 and 24 from the accumulator 22 are inserted into the suction through holes 20 and 21, respectively, so that the cylinders 10 and
The accumulator 22 is connected to the suction side of each of the cylinder chambers 12 and 13 by being connected to each of the suction holes 11.

Therefore, when the compressor 2 is driven by the electric motor 3, the piston rollers 14 and 15 rotate eccentrically while rolling in the cylinder chambers 12 and 13 of the compressor 2, so that the cylinder chambers 12 and 13 rotate. , 13, hydrocarbon refrigerant is sucked from the accumulator 22 through the suction pipes 23 and 24, where the compression action is performed. Further, the refrigerant compressed in the cylinder chambers 12 and 13 is supplied to each of the discharge chambers 25.
Is discharged to the closed case 1 through the second discharge chamber 26, and then discharged to the refrigeration cycle outside the closed case 1 through the discharge pipe 27.

When the crankshaft 7 is rotated by the drive of the electric motor 3, the refrigerating machine oil 4 is sucked upward by the oil pump of the crankshaft 7, and the main bearing 8 and the sub-bearing 9, etc. Oil is supplied to the sliding part to lubricate the sliding part. The sliding portion includes a crankshaft 7, a main bearing 8 and a sub-bearing 9, these bearings 8, 9 and respective piston rollers 14, 15 and a partition plate 16, and a blade 19 and rollers 14, 15;
Furthermore, there are sliding parts such as the blade 19 and the blade grooves 18 of the cylinders 10 and 11.

FIG. 2 is a longitudinal sectional view of a reciprocating hermetic electric compressor 1B according to a second embodiment of the present invention. The hermetic electric compressor 1B is
A reciprocating compressor 2B for compressing a refrigerant mixture of R290 and R600a, which is a refrigerant of a hydrocarbon compound containing no chlorine and fluorine (hydrocarbon refrigerant);
And an electric motor 3 for driving the motor. The electric motor 3 and the compressor 2B are integrally assembled by a fixed frame 28 in the closed case 1 and supported by a plurality of support springs 29 in a buffered manner.

The electric motor 3 has a stator 5 and a rotor 6, and a crank shaft 7 as a rotary shaft is integrally mounted on the rotor 6. The crankshaft 7 is rotatably supported by a bearing 30 fixed to a fixed frame 28.

The crankshaft 7 has a crank portion 7a formed at a protruding end portion protruding above the bearing 30, and a large end portion 31a of a connecting rod 31 forming a piston rod is mounted on the crank portion 7a. I have. On the other hand, the connecting rod 31 has its small end ball portion 31b connected to the piston 3
The piston 32 is slidably supported in a cylinder chamber 34 of a cylinder 33. The ball joint is composed of the small end ball portion 31b of the connecting rod 31 and the piston 3
And two ball seats 35.

One end of the cylinder 33 is covered by a cylinder cover 37 via a head plate 36 provided with a discharge valve and a suction valve (not shown). A suction chamber and a discharge chamber 38 are formed in the cylinder cover 37. Has formed. The discharge chamber 38 is configured to be discharged from a discharge muffler (not shown) to a discharge pipe (not shown) outside the closed case 1 via a discharge pipe 39.

On the other hand, a suction case (not shown) is
The hydrocarbon refrigerant sucked into the inside enters the suction chamber from a suction chamber (not shown), further enters the cylinder chamber 34 from the suction chamber, and is adiabatically compressed by the reciprocating motion of the piston 32 in the cylinder chamber 34. . The hermetic electric compressor 1B is a vertical type compressor having a low pressure inside the closed case 1, but may be a type having a high pressure inside the closed case 1 or a horizontal type.

At the bottom of the sealed case 1, a refrigerating machine oil 4B for lubricating and cooling the sliding portion of the compressor is stored. This refrigerating machine oil 4B is supplied to the crankshaft 7
The oil is sucked up by the rotation of an oil pump 7b formed therein and is guided to the compressor sliding portion to lubricate the compressor sliding portion.

The compressor sliding portion is formed in a supporting structure for slidably supporting a sliding member, and includes one sliding member and the other sliding member which is a counterpart of the sliding member. You. Specifically, the compressor sliding portion includes the crankshaft 7 and the bearing 30, the crankshaft 7a and the connecting rod large end 31a of the crankshaft 7, the connecting rod small end ball 31b, the ball seat 35 of the piston 32, and the piston 32. And a cylinder 33.

Therefore, when the compressor 2B is driven by the electric motor 3, the mixed refrigerant of R290 and R600a is sucked from the accumulator through the suction pipe into the suction side of the cylinder chamber 34 of the compressor 2B, where it is compressed. Is done.
Further, the refrigerant compressed in the cylinder chamber 34 is discharged from the discharge chamber 38 through the discharge pipe 39 into the closed case 1 and then discharged from the discharge pipe to the refrigeration cycle outside the closed case 1.

When the electric motor 3 drives the crankshaft 7 to rotate, the refrigerating machine oil 4B is supplied to the crankshaft 7 by the oil pump 7b of the crankshaft 7.
And lubricates the compressor sliding parts such as the main bearing 8 and the sub-bearing 9 to lubricate the sliding parts. For this, the crankshaft 7
And the bearing 30, the crank portion 7a of the crankshaft 7, the connecting rod large end portion 31a, and the connecting rod small end ball portion 31b
The sliding parts such as a and the ball seat 35 of the piston 32 and the piston 32 and the cylinder 33 are lubricated.

FIG. 3 is a cross-sectional view of a main part of the electric motor 3 of the rotary type and reciprocating type hermetic electric compressors 1A and 1B. As a component for electrical insulation of the electric motor 3, for example, there is a component for electrical insulation between the motor winding and the stator 5. As the winding of the electric motor 3, a polyester imide wire obtained by coating the outer surface of a core wire (conductive wire) with polyester, or further coating the outer surface of the polyester layer with polyamide imide or nylon, is used. Is set to one or two types of JIS.

The stator 5 of the electric motor 3 is
A linear PPS resin (polyphenylene sulfide) is fitted as an insulating bobbin in the teeth (not shown), or the teeth are molded with a PPS resin and the polyesterimide wire is applied to form a stator.

This PPS material contains 40 weight (w) of glass fibers.
t)% was manufactured by injection molding. The glass fiber content of 30 wt% to 50 wt% is desirable from the viewpoint of refrigerant resistance. If it is less than this, the strength will be insufficient, which is not desirable. Also,
Even if calcium carbonate, aluminum hydroxide, and talc are included as the inorganic filler of the PPS material, there is no problem in terms of refrigerant resistance.

Further, as the electric insulating bobbin, P
A resin (polyamide), PBT (polybutylene terephthalate), PET resin (polyethylene terephthalate)
May be formed.

At this time, since these resin materials contain, for example, 5% by weight of natural paraffin wax as an internal release agent, the releasability is improved. For this reason, the life of the mold during injection molding can be improved, and
Electrical insulation can be ensured. Desirably, 1 w from the viewpoint of uniformity in the resin material and extraction (precipitation) in the refrigeration cycle.
t% is good. Further, as a lead wire portion connected to the power supply charging portion of the motor 3, an extrusion tube made of FEP (fluoroethylene propylene copolymer) in which the lead wire of the motor winding is classified into red, black, and white (by color), for example. Then, the terminals were crimped to enable connection using an ammonia-free phenol resin as a cluster housing. A PBT resin containing glass fiber may be used as the cluster housing. This may also be produced by containing an internal release agent or by directly applying it to a mold.

According to the hermetic electric compressors 1A and 1B constituting the stator 5 of the electric motor 3 as described above, they are incorporated in an air conditioner and operated for 1,000 hours. There was almost no change in the performance. After the operation was completed, the sealed electric compressors 1A and 1B were disassembled and the resin composition was examined. As a result, the deterioration resistance was good, and the substances extracted (precipitated) into the cycle parts were The presence was good without any confirmation.

Further, since a refrigerant of a hydrocarbon compound containing neither chlorine nor fluorine is used, both destruction of the ozone layer and global warming can be reduced.

The hermetic electric compressor according to the third embodiment of the present invention is the same as the hermetic electric compressors 1A and 1B of the rotary type and the reciprocating type as R170, R600, R1150 and R1270 as hydrocarbon-based refrigerants. The feature is that at least one kind selected from the group of is used. These electric compressors 1A and 1B were also incorporated into an air conditioner in the same manner as above, and an operation test was performed.
The deterioration resistance of the resin composition was also good, and the presence of substances extracted (precipitated) in the cycle parts was not confirmed, which was good.

The hermetic electric compressor according to the fourth embodiment of the present invention is characterized in that, in the hermetic electric compressors 1A and 1B of the rotary type and the reciprocating type, refrigerating machine oil compatible with the hydrocarbon refrigerant is used. Mineral oil, alkylbenzene, polyol ester oil, polyether oil, PAG,
It is characterized in that at least one kind of refrigerating machine oil selected from the group of PAO and fluoro oil is used. The kinematic viscosity at 40 ° C. of these refrigerating machine oils was 1,7,1
0,22,32,45,56,68,120mm2 / S
As a result, it was confirmed that there was no problem in compatibility with the hydrocarbon refrigerant. In addition, these refrigerating machine oils contained no problems even if they contained an antioxidant, a hydrolysis stabilizer, an oil agent, an extreme pressure agent, a corrosion inhibitor, an antifoaming agent, and a foaming agent as additives. Furthermore, these refrigerator oils are used alone or
Alternatively, it was confirmed that even if one or more oils were mixed and used, there was no problem in compatibility with a hydrocarbon refrigerant. As a result, it can be used as a retrofit because it can be shared with HFC refrigerating machine oil and HC-HCFC refrigerating machine oil. Even if these refrigerating machine oils are mixed, there is no problem in compatibility with refrigerants. confirmed.

In the hermetic electric compressor according to the fifth embodiment of the present invention, the windings of the electric motors 3 of the rotary type and reciprocating type hermetic electric compressors 1A and 1B are used as windings on the outer surface of a core wire (conductor). Coated with polyester, or
A polyester imide wire obtained by further coating polyamide imide or nylon on the outer surface of this polyester layer is used.
The feature is that it is set to a seed and assembled to an air conditioner. According to the durability test of the winding of the electric motor 3, the electric breakdown voltage and the adhesion were good, and there was no problem.

As for the problem that the leakage current increases when the resin insulation thickness is reduced, an operation test was performed on an air conditioner in which an inverter-controlled DC motor was assembled as the electric motor 3. Little increase was seen.

FIG. 3 is a cross-sectional view of a main part of a hermetic electric compressor according to a sixth embodiment of the present invention. This hermetic electric compressor is used as a refrigerant-resistant composition for the HC refrigerant in the rotary or reciprocal hermetic electric compressors 1A and 1B, and is applied to the electric insulating paper 40 of the electric motor 3 by a melt polymerization type P.
The feature is that it is assembled to the air conditioner using ET film. In FIG. 3, reference numeral 41 denotes a stator core,
42 is an electric wire.

According to this, since the ΗCFC22 or HFC-based refrigerant contains a large amount of water, the melt polymerization type PET is used.
Although there was a problem of hydrolysis in the film, there is no problem of hydrolysis under HC refrigerant due to low hygroscopicity, and the cost can be reduced.

The hermetic electric compressor according to the seventh embodiment of the present invention is the same as the rotary or reciprocating hermetic electric compressor 1A, 1B except for the components thereof.
It is characterized in that metal parts and organic resin parts are finally cleaned with a hydrocarbon-based solvent during the manufacturing process (including the processing step). The metal parts include, in particular, cylinders 10 and 1
In the case where a casting or a surrounding metal is used for the bearings 1, 33 and the bearings 8, 9, and 30, a hydrocarbon-based solvent is used as long as the hydrocarbon-based solvent is a hydrocarbon-based solvent even if the hydrocarbon-based cleaning liquid remains in its graphite or pores. It can be used without any problem with compatibility. Also, the blade 17
Even when organic resin parts are used for the rollers and the rollers 14 and 15, there is no problem in compatibility even if these resin parts are impregnated with a hydrocarbon-based cleaning agent.

FIG. 4 is a refrigeration cycle diagram of an air conditioner 51 according to an eighth embodiment of the present invention. This air conditioner 5
1 is characterized in that one of the rotary or reciprocating hermetic electric compressors 1A and 1B according to the above embodiments is assembled.

That is, the air conditioner 51 is provided with a four-way valve 5 in the rotary or reciprocating hermetic electric compressor 1A or 1B, for example, 1A according to each of the above embodiments.
2. An outdoor heat exchanger 54 having an outdoor fan 53, an expansion valve 55 serving as a decompressor, and an indoor heat exchanger 57 having an indoor fan 56 are connected in this order and annularly by a refrigerant pipe 58, and carbonized. A closed refrigeration cycle for reversibly circulating the hydrogen-based refrigerant is configured.

This refrigeration cycle is configured such that when the refrigerant is circulated in the direction of the solid line arrow in the drawing by switching operation of the four-way valve 52, cooling operation is performed, and when it is circulated in the direction of the broken line arrow in the drawing, heating operation is performed. I have.

According to the air conditioner 51, since either the rotary or reciprocating hermetic electric compressor 1A or 1B according to each of the above embodiments is assembled, substantially the same as each of these embodiments is used. The effect can be achieved.

[0052]

As described above, according to the present invention, at least one of the insulating component member and the sliding member made of resin contains an internal release agent within 5% by weight, or is formed by injection molding or sliding. Since the release agent is applied to the mold during extrusion molding and then molded, the releasability of these resin components is improved. For this reason, the life of the mold can be improved, and the productivity and cost of these resin components can be improved.

Further, since PPS resin, resol type phenol resin, fluororesin, PA resin, PI resin, PBT resin, and PET resin are used as the electric insulating constituent member or sliding member, good low extraction characteristics can be obtained. And a reduction in strength can be suppressed.

[0054]

[Brief description of the drawings]

[0055]

FIG. 1 is a longitudinal sectional view of a hermetic electric compressor according to a first embodiment of the present invention.

[0056]

FIG. 2 is a longitudinal sectional view of a hermetic electric compressor according to a second embodiment of the present invention.

[0057]

FIG. 3 is a cross-sectional view of a main part of the electric motor of the embodiment shown in FIGS.

[0058]

FIG. 4 is a refrigeration cycle diagram of an air conditioner according to an eighth embodiment of the present invention.

[0059]

[Explanation of symbols]

 Reference Signs List 1A rotary type hermetic electric compressor 1B reciprocating type hermetic electric compressor 1 hermetic case 2, 2B compressor 3 electric motor 4, 4B refrigerating machine oil 5 stator 6 rotor 7 crankshaft 7a, 7b crank section 8 main bearing 9 sub Bearings 10, 11 Cylinders 14, 15 Rollers 17 Blades 18 Blade grooves 30 Bearings

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[Procedure amendment]

[Submission date] May 24, 1999 (1999.5.2
4)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Hermetic electric compressor and air conditioner

[Claims]

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hermetic electric compressor using a refrigerant of a hydrocarbon compound not containing chlorine and fluorine, and more particularly to an improvement in the compatibility of the components of the compressor with the refrigerant. The present invention relates to a hermetic electric compressor and an air conditioner provided with the hermetic electric compressor.

2. Description of the Related Art Conventionally, as an example of a constituent material of a compressor using an HFC refrigerant, there is one disclosed in Japanese Patent Application Laid-Open No. 4-183788. Further, as a constituent material of a compressor using an HC refrigerant, there is a material described in Japanese Patent Application No. 6-325558. The latter compressor material is HCFC
It is used because it has the same or higher heat resistance as the refrigerant-resistant resin material used in the 22 refrigerant, and has a small amount of impurities, and is compatible with the refrigerant or oil system used.

[0002]

However, an air conditioner equipped with a conventional compressor using such an alternative refrigerant has the following problems.

[0003] 1. If the flow of adopting the alternative refrigerant is an air conditioner, the HCFC 22 to the HFC 410A (HFC 407)
As the transition to C) occurs, the HFC refrigerant increases the water content in the system, so that the deterioration of organic materials such as the resin composition of the compressor components is promoted. For this reason, since it is necessary to use a high-cost organic material having deterioration resistance as a component of the compressor, there is a problem that the cost is high.

[0004] 2. In a compressor using an HFC refrigerant, the leakage current of the motor increases due to a system having a polarity unique to the HFC. Therefore, it is necessary to increase the thickness of the insulating film of the electric wire such as the motor winding. . For this reason, reducing the thickness of the insulation coating of the wire to reduce the cost reduces the electrical insulation of the insulation coating,
There is a problem in that the manufacturing reliability and performance of the electric wire are reduced, which is difficult. In addition, the resin composition of the compressor has a problem that the additive or the like is extracted (precipitated) into the refrigerant or the oil. There is a problem that reliability is reduced.

The present invention has been made in view of such circumstances, and has as its object to provide a hermetic electric compressor having a refrigerant-resistant composition which is inexpensive and has high production reliability and product reliability, and its air conditioning. To provide machines.

[0006]

According to the first aspect of the present invention, there is provided a compressor for compressing a refrigerant of a hydrocarbon-based compound containing no chlorine and fluorine, a motor for driving the compressor, and an electric motor for driving the compressor. And a refrigerating machine oil that is compatible with the above, and contains an internal mold release agent of 5 wt% or less, or is manufactured by applying a mold release agent to a mold at the time of injection molding or extrusion molding. Linear PPS resin, resol type phenol resin, fluororesin (PTF
E, ETFE, FEP, PFA), PA resin, PI resin, PBT resin, PET resin, and at least one of an insulating constituent member and a sliding member selected from the group consisting of: It is a hermetic electric compressor characterized by the following characteristics.

Here, PPS resin is polyphenylene sulfide, PTFE is polytetrafluoroethylene, ET
FE is ethylene fluoroethylene copolymer, FEP is fluoroethylene propylene copolymer, PFA is perfluoroalkoxy fluororesin, PA resin is polyamide, PI resin is polyimide, PBT resin is polybutylene terephthalate, and PET resin is polyethylene terephthalate. .

According to the invention of claim 2, the refrigerant of the hydrocarbon compound is R170 (ethane), R290 (propane),
600 (n-butane), R600a (I-butane), R
2. The hermetic electric compressor according to claim 1, wherein the hermetic electric compressor is made of at least one refrigerant selected from the group consisting of 1150 (ethylene) and R1270 (propylene).

According to a third aspect of the present invention, the refrigerating machine oil has a kinematic viscosity at 40 ° C. of 1 to 120 mm ² / S, an alkylbenzene, a polyol ester oil, a polyether oil,
3. The hermetic electric compressor according to claim 1, wherein said hermetic electric compressor is made of at least one oil selected from the group consisting of AG, PAO, and fluorine-based oil.

According to a fourth aspect of the present invention, the insulating member covers the outer surface of the core wire of the motor winding with polyester, or coats the outer surface of the polyester layer with polyamide imide or nylon, thereby forming a resin insulating layer. Saga JIS1
The hermetic electric compressor according to any one of claims 1 to 3, wherein the hermetic electric compressor is set to one of two types.

[0011] The invention of claim 5 relates to a melt polycondensation type PE in which the PET resin is used as an insulating paper material for an electric motor.
The hermetic electric compressor according to any one of claims 1 to 4, wherein the hermetic electric compressor is a T material.

According to a sixth aspect of the present invention, the metal or organic resin component constituting the compressor is finally cleaned with a chlorine-free solvent in a manufacturing process thereof. A hermetic electric compressor according to any one of the preceding claims.

According to a seventh aspect of the present invention, the metal or organic resin component constituting the compressor is finally washed with an aliphatic hydrocarbon solvent in a manufacturing process thereof. A hermetic electric compressor according to any one of the preceding claims.

According to an eighth aspect of the present invention, an indoor heat exchanger, a decompression device, and an outdoor heat exchanger are connected to the hermetic electric compressor according to any one of the first to seventh aspects through a refrigerant pipe so as to supply a refrigerant. An air conditioner comprising a refrigeration cycle for circulation.

[0015]

FIG. 1 is a block diagram showing an embodiment of the present invention.
This will be described with reference to FIG. In these figures, the same or corresponding parts are denoted by the same reference characters.

The hermetic electric compressor according to the present invention is suitable, for example, when it is incorporated in a refrigeration cycle of an air conditioner for cooling and heating a room, and includes a reciprocating type, a rotary type, a scroll type, and a helical type. The rotary type hermetic electric compressor includes a low-temperature rotary compressor used for refrigerators and the like and a high-temperature rotary compressor used for air conditioners and the like.

FIG. 1 is a longitudinal sectional view of a rotary type hermetic electric compressor 1A according to a first embodiment of the present invention.
The hermetic electric compressor 1A is a vertical twin-type high-temperature rotary compressor incorporated in a refrigeration cycle of an air conditioner. A high-temperature rotary compressor is a compressor having a refrigerant evaporation temperature of 5 ° C. or more. Say.

This hermetic electric compressor 1A is a rotary type compressor in which R290 (propane), which is a refrigerant of a hydrocarbon compound containing no chlorine and fluorine (hereinafter referred to as hydrocarbon refrigerant), is compressed in a closed case 1. A compressor 2 and an electric motor 3 for driving the compressor 2 and a refrigerating machine oil 4 compatible with the hydrocarbon refrigerant are accommodated.
It is arranged below. The refrigerating machine oil 4 is stored on the inner bottom of the closed case 1 and immerses the lower part of the compressor 2.

The electric motor 3 has a stator 5 which is press-fitted into the upper part of the closed case 1 and a rotor 6 rotatably provided on the stator 5, and the rotor 6 is integrally provided with a crankshaft 7. The lower portion of the crankshaft 7 is rotatably supported by a main bearing 8 and a sub-bearing 9 arranged at the top and bottom in the figure. Further, a rotor 6 is provided at the lower or lower end of the crankshaft 7.
Projecting further downward and extending into the pool of the refrigerating machine oil 4, the rotation of the crankshaft 7 sucks the refrigerating machine oil 4 above the axis of the crankshaft 7, and supplies the sliding portion between the main bearing 8 and the sub-bearing 9. An oil pump (not shown) is formed.

The compressor 2 has a pair of upper and lower two cylinders (cylinder blocks) 10, 11, and each of the cylinders 10,
The piston rollers 14,
15 are accommodated. The piston rollers 14 and 15 are respectively fitted to the crank portions 7 a and 7 b of the crankshaft 7. The rotation of the crankshaft 17 causes the two piston rollers 14 and 15 to be eccentrically rotated while rolling in the cylinder chambers 12 and 13. It has become so. Each cylinder 10,
11 is partitioned by a partition plate 16.

Each of the cylinder chambers 12 and 13 has a blade 17.
Each blade 17 is slidably housed in each blade groove 18 formed in each cylinder 10, 11, and is always elastically moved toward the piston rollers 14, 15 by each spring 19. The spring is biased so as to press.

Each of the cylinders 10, 11
The suction through holes 20 and 21 are formed opposite to one end of the cylinder 10, and the suction pipes 23 and 24 from the accumulator 22 are inserted into the suction through holes 20 and 21, respectively, so that the cylinders 10 and
The accumulator 22 is connected to the suction side of each of the cylinder chambers 12 and 13 by being connected to each of the suction holes 11.

Therefore, when the compressor 2 is driven by the electric motor 3, the piston rollers 14 and 15 rotate eccentrically while rolling in the cylinder chambers 12 and 13 of the compressor 2, so that the cylinder chambers 12 and 13 rotate. , 13, hydrocarbon refrigerant is sucked from the accumulator 22 through the suction pipes 23 and 24, where the compression action is performed. Further, the refrigerant compressed in the cylinder chambers 12 and 13 is supplied to each of the discharge chambers 25.
Is discharged to the closed case 1 through the second discharge chamber 26, and then discharged to the refrigeration cycle outside the closed case 1 through the discharge pipe 27.

When the crankshaft 7 is rotated by the drive of the electric motor 3, the refrigerating machine oil 4 is sucked upward by the oil pump of the crankshaft 7, and the main bearing 8 and the sub-bearing 9, etc. Oil is supplied to the sliding part to lubricate the sliding part. The sliding portion includes a crankshaft 7, a main bearing 8 and a sub-bearing 9, these bearings 8, 9 and respective piston rollers 14, 15 and a partition plate 16, and a blade 19 and rollers 14, 15;
Furthermore, there are sliding parts such as the blade 19 and the blade grooves 18 of the cylinders 10 and 11.

FIG. 2 is a longitudinal sectional view of a reciprocating hermetic electric compressor 1B according to a second embodiment of the present invention. The hermetic electric compressor 1B is
A reciprocating compressor 2B for compressing a refrigerant mixture of R290 and R600a, which is a refrigerant of a hydrocarbon compound containing no chlorine and fluorine (hydrocarbon refrigerant);
And an electric motor 3 for driving the motor. The electric motor 3 and the compressor 2B are integrally assembled by a fixed frame 28 in the closed case 1 and supported by a plurality of support springs 29 in a buffered manner.

The electric motor 3 has a stator 5 and a rotor 6, and a crank shaft 7 as a rotary shaft is integrally mounted on the rotor 6. The crankshaft 7 is rotatably supported by a bearing 30 fixed to a fixed frame 28.

The crankshaft 7 has a crank portion 7a formed at a protruding end portion protruding above the bearing 30, and a large end portion 31a of a connecting rod 31 forming a piston rod is mounted on the crank portion 7a. I have. On the other hand, the connecting rod 31 has its small end ball portion 31b connected to the piston 3
The piston 32 is slidably supported in a cylinder chamber 34 of a cylinder 33. The ball joint is composed of the small end ball portion 31b of the connecting rod 31 and the piston 3
And two ball seats 35.

One end of the cylinder 33 is covered by a cylinder cover 37 via a head plate 36 provided with a discharge valve and a suction valve (not shown). A suction chamber and a discharge chamber 38 are formed in the cylinder cover 37. Has formed. The discharge chamber 38 is configured to be discharged from a discharge muffler (not shown) to a discharge pipe (not shown) outside the closed case 1 via a discharge pipe 39.

On the other hand, a suction case (not shown) is
The hydrocarbon refrigerant sucked into the inside enters the suction chamber from a suction chamber (not shown), further enters the cylinder chamber 34 from the suction chamber, and is adiabatically compressed by the reciprocating motion of the piston 32 in the cylinder chamber 34. . The hermetic electric compressor 1B is a vertical type compressor having a low pressure inside the closed case 1, but may be a type having a high pressure inside the closed case 1 or a horizontal type.

At the bottom of the sealed case 1, a refrigerating machine oil 4B for lubricating and cooling the sliding portion of the compressor is stored. This refrigerating machine oil 4B is supplied to the crankshaft 7
The oil is sucked up by the rotation of an oil pump 7b formed therein and is guided to the compressor sliding portion to lubricate the compressor sliding portion.

The compressor sliding portion is formed in a supporting structure for slidably supporting a sliding member, and includes one sliding member and the other sliding member which is a counterpart of the sliding member. You. Specifically, the compressor sliding portion includes the crankshaft 7 and the bearing 30, the crankshaft 7a and the connecting rod large end 31a of the crankshaft 7, the connecting rod small end ball 31b, the ball seat 35 of the piston 32, and the piston 32. And a cylinder 33.

Therefore, when the compressor 2B is driven by the electric motor 3, the mixed refrigerant of R290 and R600a is sucked from the accumulator through the suction pipe into the suction side of the cylinder chamber 34 of the compressor 2B, where it is compressed. Is done.
Further, the refrigerant compressed in the cylinder chamber 34 is discharged from the discharge chamber 38 through the discharge pipe 39 into the closed case 1 and then discharged from the discharge pipe to the refrigeration cycle outside the closed case 1.

When the electric motor 3 drives the crankshaft 7 to rotate, the refrigerating machine oil 4B is supplied to the crankshaft 7 by the oil pump 7b of the crankshaft 7.
And lubricates the compressor sliding parts such as the main bearing 8 and the sub-bearing 9 to lubricate the sliding parts. For this, the crankshaft 7
And the bearing 30, the crank portion 7a of the crankshaft 7, the connecting rod large end portion 31a, and the connecting rod small end ball portion 31b
The sliding parts such as a and the ball seat 35 of the piston 32 and the piston 32 and the cylinder 33 are lubricated.

FIG. 3 is a cross-sectional view of a main part of the electric motor 3 of the rotary type and reciprocating type hermetic electric compressors 1A and 1B. As a component for electrical insulation of the electric motor 3, for example, there is a component for electrical insulation between the motor winding and the stator 5. As the winding of the electric motor 3, a polyester imide wire obtained by coating the outer surface of a core wire (conductive wire) with polyester, or further coating the outer surface of the polyester layer with polyamide imide or nylon, is used. Is set to one or two types of JIS.

The stator 5 of the electric motor 3 is
A linear PPS resin (polyphenylene sulfide) is fitted as an insulating bobbin in the teeth (not shown), or the teeth are molded with a PPS resin and the polyesterimide wire is applied to form a stator.

This PPS material contains 40 weight (w) of glass fibers.
t)% was manufactured by injection molding. The glass fiber content of 30 wt% to 50 wt% is desirable from the viewpoint of refrigerant resistance. If it is less than this, the strength will be insufficient, which is not desirable. Also,
Even if calcium carbonate, aluminum hydroxide, and talc are included as the inorganic filler of the PPS material, there is no problem in terms of refrigerant resistance.

Further, as the electric insulating bobbin, P
A resin (polyamide), PBT (polybutylene terephthalate), PET resin (polyethylene terephthalate)
May be formed.

At this time, since these resin materials contain, for example, 5% by weight of natural paraffin wax as an internal release agent, the releasability is improved. For this reason, the life of the mold during injection molding can be improved, and
Electrical insulation can be ensured. Desirably, 1 w from the viewpoint of uniformity in the resin material and extraction (precipitation) in the refrigeration cycle.
t% is good. Further, as a lead wire portion connected to the power supply charging portion of the motor 3, an extrusion tube made of FEP (fluoroethylene propylene copolymer) in which the lead wire of the motor winding is classified into red, black, and white (by color), for example. Then, the terminals were crimped to enable connection as a cluster housing using an ammonia-free phenol resin. A PBT resin containing glass fiber may be used as the cluster housing. This may also be produced by containing an internal release agent or by directly applying it to a mold.

According to the hermetic electric compressors 1A and 1B constituting the stator 5 of the electric motor 3 as described above, they are incorporated in an air conditioner and operated for 1,000 hours. There was almost no change in the performance. After the operation was completed, the sealed electric compressors 1A and 1B were disassembled and the resin composition was examined. As a result, the deterioration resistance was good, and the substances extracted (precipitated) into the cycle parts were The presence was good without any confirmation.

Further, since a refrigerant of a hydrocarbon compound containing neither chlorine nor fluorine is used, both destruction of the ozone layer and global warming can be reduced.

The hermetic electric compressor according to the third embodiment of the present invention is the same as the hermetic electric compressors 1A and 1B of the rotary type and the reciprocating type as R170, R600, R1150 and R1270 as hydrocarbon-based refrigerants. The feature is that at least one kind selected from the group of is used. These electric compressors 1A and 1B were also incorporated into an air conditioner in the same manner as above, and an operation test was performed.
The deterioration resistance of the resin composition was also good, and the presence of substances extracted (precipitated) in the cycle parts was not confirmed, which was good.

The hermetic electric compressor according to the fourth embodiment of the present invention is characterized in that, in the hermetic electric compressors 1A and 1B of the rotary type and the reciprocating type, refrigerating machine oil compatible with the hydrocarbon refrigerant is used. Mineral oil, alkylbenzene, polyol ester oil, polyether oil, PAG,
It is characterized in that at least one kind of refrigerating machine oil selected from the group of PAO and fluoro oil is used. The kinematic viscosity at 40 ° C. of these refrigerating machine oils was 1,7,1
0,22,32,45,56,68,120mm2 / S
As a result, it was confirmed that there was no problem in compatibility with the hydrocarbon refrigerant. In addition, these refrigerating machine oils contained no problems even if they contained an antioxidant, a hydrolysis stabilizer, an oil agent, an extreme pressure agent, a corrosion inhibitor, an antifoaming agent, and a foaming agent as additives. Furthermore, these refrigerator oils are used alone or
Alternatively, it was confirmed that even if one or more oils were mixed and used, there was no problem in compatibility with a hydrocarbon refrigerant. As a result, it can be used as a retrofit because it can be shared with the refrigeration oil for HFC and the refrigeration oil for HC-HCFC, and even if these refrigeration oils are mixed, there is no problem in compatibility with the refrigerant. confirmed.

In the hermetic electric compressor according to the fifth embodiment of the present invention, the windings of the electric motors 3 of the rotary type and reciprocating type hermetic electric compressors 1A and 1B are used as windings on the outer surface of a core wire (conductor). Coated with polyester, or
A polyester imide wire obtained by further coating polyamide imide or nylon on the outer surface of this polyester layer is used.
The feature is that it is set to a seed and assembled to an air conditioner. According to the durability test of the winding of the electric motor 3, the electric breakdown voltage and the adhesion were good, and there was no problem.

As for the problem that the leakage current increases when the resin insulation thickness is reduced, an operation test was performed on an air conditioner in which an inverter-controlled DC motor was assembled as the electric motor 3. Little increase was seen.

FIG. 3 is a cross-sectional view of a main part of a hermetic electric compressor according to a sixth embodiment of the present invention. This hermetic electric compressor is used as a refrigerant-resistant composition for the HC refrigerant in the rotary or reciprocal hermetic electric compressors 1A and 1B, and is applied to the electric insulating paper 40 of the electric motor 3 by a melt polymerization type P.
The feature is that it is assembled to the air conditioner using ET film. In FIG. 3, reference numeral 41 denotes a stator core,
42 is an electric wire.

According to this, since the ΗCFC22 or HFC-based refrigerant contains a large amount of water, the melt polymerization type PET is used.
Although there was a problem of hydrolysis in the film, there is no problem of hydrolysis under HC refrigerant due to low hygroscopicity, and the cost can be reduced.

The hermetic electric compressor according to the seventh embodiment of the present invention is the same as the rotary or reciprocating hermetic electric compressor 1A, 1B except for the components thereof.
It is characterized in that metal parts and organic resin parts are finally cleaned with a hydrocarbon-based solvent during the manufacturing process (including the processing step). The metal parts include, in particular, cylinders 10 and 1
In the case where a casting or a surrounding metal is used for the bearings 1, 33 and the bearings 8, 9, and 30, a hydrocarbon-based solvent is used as long as the hydrocarbon-based solvent is a hydrocarbon-based solvent even if the hydrocarbon-based cleaning liquid remains in its graphite or pores. It can be used without any problem with compatibility. Also, the blade 17
Even when organic resin parts are used for the rollers and the rollers 14 and 15, there is no problem in compatibility even if these resin parts are impregnated with a hydrocarbon-based cleaning agent.

FIG. 4 is a refrigeration cycle diagram of an air conditioner 51 according to an eighth embodiment of the present invention. This air conditioner 5
1 is characterized in that one of the rotary or reciprocating hermetic electric compressors 1A and 1B according to the above embodiments is assembled.

That is, the air conditioner 51 is provided with a four-way valve 5 in the rotary or reciprocating hermetic electric compressor 1A or 1B, for example, 1A according to each of the above embodiments.
2. An outdoor heat exchanger 54 having an outdoor fan 53, an expansion valve 55 serving as a decompressor, and an indoor heat exchanger 57 having an indoor fan 56 are connected in this order and annularly by a refrigerant pipe 58, and carbonized. A closed refrigeration cycle for reversibly circulating the hydrogen-based refrigerant is configured.

This refrigeration cycle is configured such that when the refrigerant is circulated in the direction of the solid line arrow in the drawing by switching operation of the four-way valve 52, cooling operation is performed, and when it is circulated in the direction of the broken line arrow in the drawing, heating operation is performed. I have.

According to the air conditioner 51, since either the rotary or reciprocating hermetic electric compressor 1A or 1B according to each of the above embodiments is assembled, substantially the same as each of these embodiments is used. The effect can be achieved.

[0052]

As described above, according to the present invention, at least one of the insulating component member and the sliding member made of resin contains an internal release agent within 5% by weight, or is formed by injection molding or sliding. Since the release agent is applied to the mold during extrusion molding and then molded, the releasability of these resin components is improved. For this reason, the life of the mold can be improved, and the productivity and cost of these resin components can be improved.

Further, since PPS resin, resol type phenol resin, fluororesin, PA resin, PI resin, PBT resin, and PET resin are used as the constituent members or sliding members for electrical insulation, good low extraction characteristics are obtained. And a reduction in strength can be suppressed.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a hermetic electric compressor according to a first embodiment of the present invention.

FIG. 2 is a longitudinal sectional view of a hermetic electric compressor according to a second embodiment of the present invention.

FIG. 3 is a cross-sectional view of a main part of the electric motor of the embodiment shown in FIGS.

FIG. 4 is a refrigeration cycle diagram of an air conditioner according to an eighth embodiment of the present invention.

[Description of Signs] 1A Rotary Type Hermetic Electric Compressor 1B Reciprocating Type Hermetic Electric Compressor 1 Hermetic Case 2, 2B Compressor 3 Electric Motor 4, 4B Refrigeration Oil 5 Stator 6 Rotor 7 Crankshaft 7a, 7b Crank 8 Main Bearing 9 Sub Bearing 10,11 Cylinder 14,15 Roller 17 Blade 18 Blade Groove 30 Bearing

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) C10M 107/38 C10M 107/38 F04C 29/00 F04C 29/00 U // C10N 30:00 40:30 F Terms (reference) 3H003 AA02 AA05 AB03 AB04 AC03 AD03 CE03 3H029 AA04 AA13 AA14 AB03 BB31 BB44 CC27 CC39 4H104 BA03A BA07A BB08A BB34A BB44A CA01A CB14A CD04A DA02A EA02A PA20

Claims (8)

[Claims] In a closed container, a compressor for compressing a refrigerant of a hydrocarbon compound containing no chlorine and fluorine, an electric motor for driving the compressor, and a refrigerating machine oil compatible with the refrigerant are housed. In a closed-type refrigerant compressor, a linear PPS resin or a resol-type resin containing 5 wt% or less of an internal release agent, or manufactured by applying a release agent to a mold at the time of injection molding or extrusion molding. Phenol resin, fluorine resin (PTFE, ETFE, FEP, PF
A), PA resin, PI resin, PBT resin, PET resin,
A sealed electric compressor comprising at least one of an insulating component member and a sliding member of at least one kind selected from the group consisting of: 2. The refrigerant of a hydrocarbon compound is R170.
(Ethane), R290 (propane), R600 (n-butane), R600a (I-butane), R1150 (ethylene), and R1270 (propylene). The hermetic electric compressor according to claim 1. 3. The refrigerating machine oil has a kinematic viscosity at 40.degree.
^{3. The method according} to claim 1, wherein the oil comprises one or more oils selected from the group consisting of mineral oil, alkyl benzene, polyol ester oil, polyether oil, PAG, PAO, and fluorine-based oil, each having a diameter of 20 mm ² / S. Hermetic electric compressor. 4. An insulating component, wherein an outer surface of a core wire of a motor winding is coated with polyester, or an outer surface of the polyester layer is coated with polyamideimide or nylon, and the resin insulation thickness of the JIS class 1 or The hermetic electric compressor according to any one of claims 1 to 3, wherein two types are set. 5. The hermetic electric compressor according to claim 1, wherein the PET resin is a melt polycondensation type PET material used as an insulating paper material for an electric motor. . 6. The method according to claim 1, wherein the metal or organic resin component constituting the compressor is finally cleaned with a chlorine-free solvent in a manufacturing process thereof. A hermetic electric compressor as described. 7. The method according to claim 1, wherein the metallic or organic resin component constituting the compressor is finally washed with an aliphatic hydrocarbon solvent in a manufacturing process thereof. A hermetic electric compressor as described. 8. A refrigeration cycle for circulating a refrigerant by connecting an indoor heat exchanger, a pressure reducing device, and an outdoor heat exchanger to the hermetic electric compressor according to any one of claims 1 to 7 by a refrigerant pipe. An air conditioner characterized by comprising.