CN203747602U - Motor, compressor and refrigeration cycle device - Google Patents

Abstract

The utility model provides a motor, a compressor and a refrigeration cycle device. The circuit impedance, which inhibits the efficiency of the motor, of a rotor which is formed by a metal bar-shaped part, end rings and the like is reduced. The motor comprises a stator which is wound by a winding and the rotor which is arranged on the inner side of the stator and rotates. The rotor comprises a core which is laminated by a number of electromagnetic steel plates, the metal bar-shaped part which is arranged on the core, a first end ring which is arranged on the end face side of the core, and a second end ring which is opposite to the first end ring. Current passes through the metal bar-shaped part to carry out magnetic interaction with current flowing in the winding of the stator. The contact faces of the first end ring and the second end ring are bonded and fixed.

Description

Motor, compressor and refrigerating circulatory device

Technical field

The utility model relates to motor, compressor and refrigerating circulatory device, especially relates to the rotor structure of motor.

Background technology

On compressor, be equipped with motor, described electric tools is useful on stator and the rotor of compression to the cold-producing medium of having supplied in the closed container of compressor.Here, the rotor of this motor multiple electromagnetic steel plate that for example there is lamination, be inserted into the bar-shaped portion of metal of this electromagnetic steel plate and be installed in lamination the upper face side of multiple electromagnetic steel plates and the end ring of side below.

In addition, end ring is connected with the end side of the bar-shaped portion of metal, for current flowing, and can prevent that the bar-shaped portion of metal that inserts electromagnetic steel plate is because the rotation of rotor is jumped out.

In addition, the bar-shaped portion of metal is called as secondary conductor, and its resistance is called as secondary resistance.By making electric current flow to the coil of the stator that is positioned at rotor outside from external power source, can in secondary conductor, produce induced current.Thus, form magnetic pole on rotor, by interacting with stator, itself is rotated.At this, the copper loss producing is called to secondary copper loss in secondary conductor.

Proposition has the scheme of the motor of following compressor,, have by electromagnetic steel plate and the bar-shaped portion of metal by aluminium die casting integrated combination and by forging at least one end ring of processing and manufacturing, end ring is inserted from the outstanding combination projection of combination, connect end ring and combination (for example referring to Patent Document 1).

Electromagnetic steel plate, the bar-shaped portion of metal and end ring are integrated after being for example formed by aluminium die casting etc.If integrally formed by aluminium die casting, exist in the inner situation that produces bubble of end ring.The bubble having produced in end ring inside plays the effect of resistance in the time that electric current flows in end ring, becomes the main cause of the Efficiency Decreasing of motor.

The technology that patent documentation 1 is recorded, the combination projection that electromagnetic steel plate, the bar-shaped portion of metal is outstanding by the integrally formed combination obtaining of aluminium die casting, insert by after forging in addition the end ring of processing and manufacturing, utilize hammer etc. to beat in conjunction with projection, extend to horizontal direction in conjunction with projection thus, firmly fixed in conjunction with projection and end ring.Like this, the technology that patent documentation 1 is recorded prevents from producing bubble in end ring, improves the efficiency of motor.

Patent documentation 1: TOHKEMY 2007-315377 communique (for example Fig. 1 and Fig. 2)

Utility model content

The technology that patent documentation 1 is recorded is owing to being to fix the bar-shaped portion of metal and end ring by beaing, and therefore the contact-making surface of the bar-shaped portion of metal and end ring becomes coarse, and correspondingly contact impedance increases, and has the problem of the Efficiency Decreasing of motor.

In addition, end ring is generally formed by metal material.Therefore, form oxide-film etc. on the surface of end ring, impedance increases, and has added again above-mentioned contact-making surface and become the part that the coarse impedance causing increases on this, therefore has the further problem of reduction of efficiency of motor.

The utility model forms in order to address the above problem, and object is to provide a kind of motor, compressor and refrigerating circulatory device, reduces the circuit impedance of the rotor being formed by the bar-shaped portion of metal and end ring etc., suppresses the Efficiency Decreasing of motor.

Motor of the present utility model have be wound around winding stator and be arranged on the inner side of stator the rotor being rotated, this rotor has: lamination the core of multiple electromagnetic steel plates; The bar-shaped portion of metal, it is arranged at core, flows through, to carry out magnetic interaction with electric current mobile in the winding of stator for electric current; Be arranged on the first end ring of the end face side of core; And the second end ring relatively arranging with the first end ring, the contact-making surface each other of the first end ring and the second end ring is engaged and fixes.

According to motor of the present utility model, owing to thering is above structure, therefore can reduce the circuit impedance of the rotor being formed by the bar-shaped portion of metal and end ring etc., suppress the Efficiency Decreasing of motor.

The utility model also provides a kind of compressor, and it possesses: above-mentioned motor of the present utility model; The one distolateral driving shaft being connected with the rotor of described motor; Compressing member, it is distolateral that it connects another of described driving shaft, and for compressed refrigerant; And closed container, it accommodates described motor, described driving shaft and described compressing member.

The utility model also provides a kind of refrigerating circulatory device, and it possesses above-mentioned compressor of the present utility model.

Brief description of the drawings

Fig. 1 is the integrally-built longitudinal section that represents the compressor of the first execution mode of the present utility model.

Fig. 2 is the exploded perspective view of the rotor shown in presentation graphs 1.

Fig. 3 is the longitudinal section that represents the rotor of the compressor of the second execution mode of the present utility model.

Fig. 4 is the figure that sees the rotor shown in Fig. 3 from arrow A side.

Fig. 5 is the key diagram of the variation of the second end ring shown in Fig. 4.

Fig. 6 is that the summary of the refrigerating circulatory device of the 3rd execution mode of the present utility model forms exemplary plot.

Description of reference numerals

1 main part, dish-shaped container on 2, 3 times dish-shaped containers, 4 closed containers, 5 cylinders, 6 upper bearing (metal)s, 7 lower bearings, 8 driving shafts, 8a eccentric part, 9 rolling pistons, 10 compressors, 11 rotors, 12 stators, 13 oil separation plate, 14 air gaps, 15 suction pipes, 16 discharge pipe arrangement, 17 glass terminals, 18 windings, 19 wires, 20 suction silencers, 21 cores, 22 aluminium bars (the bar-shaped portion of metal), 23a the first end ring, 23b the second end ring, 24 through holes, 25 recesses, 26 power supplys, 30 mufflers, 100 refrigerating circulatory devices, 101 cross valves, 102 outdoor heat converters, 103 throttling arrangements, 104 indoor heat converters, 105 refrigerant pipings, 200 motor elements, 300 compressing members, P combination

Embodiment

Below describe with regard to execution mode of the present utility model with reference to the accompanying drawings.

The first execution mode

Fig. 1 is the integrally-built longitudinal section that represents the compressor 10 of the first execution mode.Fig. 2 is the exploded perspective view of the rotor 11 shown in presentation graphs 1.Describe with regard to the structure of compressor 10 with reference to figure 1 and Fig. 2.

The motor element 200 of the compressor 10 of the first execution mode is the circuit impedance of having carried out reducing rotor 11, the element that suppresses the improvement of the Efficiency Decreasing of motor element 200.In addition, motor element 200 is equivalent to motor of the present utility model.

［ structure explanation ］

Compressor 10 is closed compressors of rolling-piston-type, have form shell closed container 4, the suction pipe 15 being connected with closed container 4, the suction silencer 20 being connected with suction pipe 15, be connected with suction pipe 15 also compressing member 300, the motor element 200 being formed by rotor 11 and stator 12, connection compressing member 300 and the motor element 200 of compressed refrigerant driving shaft 8, discharge discharge pipe arrangement 16 and the glass terminal 17 being connected with external power source etc. through the cold-producing medium of overcompression from closed container 4.

(closed container 4)

Closed container 4 forms the shell of compressor 10.In closed container 4, be at least provided with compressing member 300 and motor element 200 etc.

Closed container 4 is installed on upper dish-shaped container 2 by the upper dish-shaped container 2, lower dish-shaped container 3 and the upside that forms the shell of compressor 10 bottoms of the shell that forms compressor 10 tops, and the main part 1 that downside is installed on lower dish-shaped container 3 forms.

Upper dish-shaped container 2 forms the top of closed container 4, as shown in Figure 1, for example forms bowl-shape.On upper dish-shaped container 2, connect for being communicated with the inside and outside of closed container 4 and the discharge pipe arrangement 16 arranging.

Main part 1 forms the mid portion of closed container 4, as shown in Figure 1, for example, forms drum.On main part 1, connect the suction pipe 15 for cold-producing medium is provided in closed container 4.

In addition, the stator 12 of motor element 200 is installed at the inner peripheral surface of main part 1, at the inner peripheral surface of main part 1 and downside that the face of stator 12 is installed, compressing member 300 is installed.

Lower dish-shaped container 3 forms the bottom of closed container 4, as shown in Figure 1, for example, forms bowl-shape.In lower dish-shaped container 3, store the lubricating oil that can alleviate the sliding friction on compressing member 300.

(suction pipe 15 and suction silencer 20)

One end of suction pipe 15 is connected with the main part 1 of closed container 4, to be communicated with the cylinder 5 of compressing member 300 described later.The other end of suction pipe 15 is connected with suction silencer 20.

Suction silencer 20 has as the function of muffler that reduces the cold-producing medium sound etc. that flows into compressor 10.In addition, suction silencer 20 also has the function as the holder of storage liquid cryogen.One end of this suction silencer 20 is connected with suction pipe 15.

(compressing member 300)

Compressing member 300 compresses the cold-producing medium of supplying with by suction silencer 20 and suction pipe 15, is then discharged into the inside of closed container 4.Compressing member 300 is installed in the medial surface of main part 1.

Compressing member 300 has cylinder 5 that the cold-producing medium to supplying with from suction pipe 15 compresses, be arranged on the upper bearing (metal) 6 of cylinder 5 upsides and be arranged on cylinder 5 downsides lower bearing 7, make the rolling piston 9 that cylinder 5 slides and omitted illustrated blade.

Blade moves back and forth in the groove being formed on cylinder 5, and front end contacts with rolling piston 9.And, be discharge chambe by the space of the formation compressed refrigerants such as cylinder 5, rolling piston 9 and blade.This discharge chambe diminishes gradually along with the rotation of rolling piston 9 and blade, and compression is fed into the cold-producing medium of discharge chambe.

Cylinder 5 is provided with rolling piston 9 in the space forming by itself inner face, upper bearing (metal) 6 and lower bearing 7.And in cylinder 5, rolling piston 9 can be free to slide to be arranged.

Cylinder 5, forming respectively up and down peristome, seals by upper bearing (metal) 6 and lower bearing 7.That is, be provided with upper bearing (metal) 6 at the upside of cylinder 5, and the end face of closed cylinder 5 upsides (end faces of motor element 200 sides), above-mentioned upper bearing (metal) 6 supports to driving shaft 8 to rotate freely.In addition, be provided with lower bearing 7 at the downside of cylinder 5, and the end face of closed cylinder 5 downsides (end faces of lower dish-shaped container 3 sides), above-mentioned lower bearing 7 supports to driving shaft 8 to rotate freely.

Upper bearing (metal) 6 and lower bearing 7 are separately positioned on the upper and lower of cylinder 5, can support the compression load that the eccentric part 8a of driving shaft 8 described later is subject to.

On upper bearing (metal) 6 and lower bearing 7, be provided for respectively discharging the valve (omitting diagram) of the cold-producing medium having been compressed by cylinder 5 and rolling piston 9.Omit illustrated valve by this, can make " space being formed by cylinder 5, rolling piston, upper bearing (metal) 6 and lower bearing 7 " to be communicated with " muffler 30 described later ".

On upper bearing (metal) 6 and lower bearing 7, be provided with muffler 30, the cold-producing medium having been compressed by cylinder 5 and rolling piston 9 is supplied to this muffler 30.On muffler 30, be provided with and omitted illustrated cold-producing medium discharge portion.Thus, after the cold-producing medium having been compressed by cylinder 5 and rolling piston 9 is supplied to this muffler 30, be discharged into the inside of closed container 4 from this cold-producing medium discharge portion.

(motor element 200)

Motor element 200 have be fixed with driving shaft 8 and by the rotary transfer of itself to the rotor 11 of driving shaft 8 with heterogeneous winding is installed in laminated core and the stator 12 that forms.And the rotor 11 of motor element 200 is connected with driving shaft 8, can drive compression element 300.

Rotor 11 is that horizontal cross sectional geometry is the parts of bread cast, is connected with driving shaft 8 at the interior periderm of rotor 11.In addition, rotor 11 is arranged on the inner side of stator 12, supports with the state driven shaft 8 that to have formed with the relative spacing of the medial surface of stator 12 be air gap 14.

Rotor 11 has core 21, the bar-shaped portion of aluminium bar 22(metal) and the first end ring 23a integrated combination P, above-mentioned core 21 is connected with driving shaft 8 and has had lamination multiple electromagnetic steel plates; The bar-shaped portion of above-mentioned aluminium bar 22(metal) be arranged in this core 21, for current flowing, to carry out magnetic interaction with stator 12; Above-mentioned the first end ring 23a is arranged on the end face side of the connection driving shaft 8 in core 21.In addition, rotor 11 has and is set as the second end ring 23b relative with the first end ring 23a.

And, being provided with oil separation plate 13 on the top of rotor 11, described oil separation plate 13 separates with lubricating oil the refrigerant gas through air gap 14.

Like this, rotor 11 has core 21, secondary conductor is aluminium bar 22, the first end ring 23a and the second end ring 23b, is provided with oil separation plate 13 on the top of rotor 11.

Core 21 is that the electromagnetic steel plate that is for example 0.1～1.5mm by thickness of slab strikes out after the shape of prior setting, makes at direction of principal axis lamination.In addition, on core 21, be provided with the aluminium bar 22 and the first end ring 23a that are integrally formed by aluminium die casting described later.As described below more specifically.

After core 21 is put into the mold of having been set in advance shape, cast, through the aluminium of fusing, is carried out aluminium die-cast.Being flowed into core 21 to the aluminium of this mold cast forms aluminium bar 22, and forms the first end ring 23a at upper side and the downside of core 21.

,, by the cooling aluminium that is poured into mold, obtain as the aluminium bar 22 and the first end ring 23a that are integrally formed thing.In addition, by this aluminium die-cast, can obtain the combination P that core 21, the first end ring 23a and aluminium bar 22 have been integrally formed.

The first end ring 23a is connected with the both ends side of aluminium bar 22, the function of the secondary conductor of performance rotor 11.The first end ring 23a is separately positioned on upside and the downside of core 21.The first end ring 23a is the parts that are shaped as bread cast in the time overlooking observation.On in the first end ring 23a and faces core 21 opposition sides, the second end ring 23b is installed.

Here describe with regard to blowhole.Blowhole is a kind of casting flaw, refers in cast body inside and has bubble etc.If generation blowhole is suppressed at flowing of electric current mobile in aluminium bar 22 and the first end ring 23a and the second end ring 23b, become the reason of motor element 200 moments of torsion reductions and abnormal heating etc.

Therefore, with regard to the first end ring 23a, preferably set as small as possible the size of its short transverse, and manufacture with low speed casting.That is, the end ring being formed by the first end ring 23a and the second end ring 23b need to have " height of being set in advance ", but reduces height for the first end ring 23a, can correspondingly increase the height of the second end ring 23b.

In addition, if think only to utilize the first end ring 23a to form " height of being set in advance ", correspondingly in the first end ring 23a, will produce more blowhole.Therefore, in the first embodiment, the short transverse size of setting the first little end ring 23a suppresses blowhole, and remaining height is solved by the second end ring 23b that has removed in advance blowhole.

The function of the secondary conductor of the second end ring 23b performance rotor 11.The second end ring 23b is separately positioned on upside and the downside of core 21 in the mode relative with the first end ring 23a.The second end ring 23b is at the parts that are shaped as bread cast of overlooking in observation.

The second end ring 23b and the first end ring 23a similarly cast and make.But the second end ring 23b manufactures separately in addition by the mold cast aluminum to different from mold for obtaining the combination P being formed by core 21, aluminium bar 22 and the first end ring 23a.

Also can use copper to form the second end ring 23b.In this case, be not with casting but with forging manufacture.The resistivity of copper is lower than aluminium, can make secondary resistance less than aluminium, therefore, compared with using aluminium, can improve the efficiency of motor element 200.

Aluminium bar 22 forms to the aluminium of the prior mold pouring molten of having set shape of having put into core 21.And the both end sides of aluminium bar 22 is connected with the first end ring 23a, and aluminium bar 22 is brought into play the function of the secondary conductor of rotor 11.Aluminium bar 22 is to be formed for example bar-shaped parts.

In addition, in the first embodiment, aluminium bar 22 is not parallel with the direction of principal axis of driving shaft 8, but the state tilting with the direction of principal axis of relative drive shaft 8 is arranged on core 21.By making like this aluminium bar 22 tilt with respect to the direction of principal axis of driving shaft 8, can make the moment of torsion stabilisation producing on the rotor 11 of motor element 200.

Stator 12, for rotor 11 is rotated, forms by heterogeneous winding is installed in laminated core.The outer peripheral face of stator 12 is arranged on the inner peripheral surface of main part 1 regularly.In addition, between stator 12 and rotor 11, forming the interval of setting is in advance air gap 14.Therefore the high temperature, discharging from muffler 30, the cold-producing medium of high pressure are supplied to the upside in closed container 4 by air gap 14 etc.

(driving shaft 8)

The upper end side of driving shaft 8 is connected with the rotor 11 of motor element 200, and lower end side is connected with upper bearing (metal) 6 and the lower bearing 7 of compressing member 300.And driving shaft 8 rotates centered by the axle parallel with vertical direction, can make rolling piston 9 rotate.

In addition, driving shaft 8 has the eccentric part 8a that makes rolling piston 9 do eccentric motion, and this eccentric part 8a and rolling piston 9 are chimeric.The height and position that is provided with eccentric part 8a on driving shaft 8 is corresponding with the position of rolling piston 9.

(discharging pipe arrangement 16)

Discharge pipe arrangement 16 and be the pipe arrangement of the cold-producing medium of the high temperature of discharging in closed container 4, high pressure.One end of this discharge pipe arrangement 16 with omission for switching stream illustrated cross valve etc. be connected, the other end is connected with upper dish-shaped container 2, so as to be communicated with closed container 4 inside and outside.

(glass terminal 17 etc.)

Glass terminal 17 is to be fixed on the parts on closed container 4 by welding, for powering to motor element 200 from having omitted illustrated external power source.In glass terminal 17, connect wire 19, this wire 19 connects the winding 18 being wrapped on stator 12.Although winding 18 is connected with stator 12, has omitted diagram in Fig. 1.

［ action of motor element 200 ］

From power supply (having omitted diagram) to being arranged on winding the laminated core of stator 12 for induced current (voltage), make stator 12 form rotating magnetic field.Thus, stator 12 interacts with rotor 11, and rotor 11 is rotated.The rotation of rotor 11 is transferred to rolling piston by driving shaft 8, makes rolling piston 9 carry out eccentric motion.

［ flowing of cold-producing medium ］

Rolling piston 9 carries out eccentric motion, and cold-producing medium is inhaled in compressor 10.The cold-producing medium of, supplying to compressor 10 flows into compressing member 300 by suction silencer 20 and suction pipe 15.Flow into the cold-producing medium of compressing member 300 by cylinder 5, rolling piston 9 and blade compresses, formed the cold-producing medium of high temperature, high pressure.

The cold-producing medium of this high temperature, high pressure flows into muffler 30 by the valve of upper bearing (metal) 6 and lower bearing 7.The cold-producing medium that has flowed into muffler 30 is released to the space in closed container 4 from having omitted illustrated cold-producing medium discharge portion.Then, the gap of the cold-producing medium that the space in this closed container 4 has discharged air gap 14 grades by motor element 200 and so on etc. moves to the top, space in closed container 4, then discharges from discharging pipe arrangement 16.

［ the first end ring 23a engages with the second end ring 23b's ］

Joint method with regard to the first end ring 23a and the second end ring 23b describes.

The first end ring 23a engages by the friction pressure weldering that utilizes frictional heat with the second end ring 23b.

First, integrated to core 21 and the first end ring 23a combination P and the second end ring 23b of manufacturing are in addition arranged in cut-and-dried coupling device coaxial.

Then make the second end ring 23b rotation, the second end ring 23b of rotation is contacted with the first fixing end ring 23a.

On the interface of the first end ring 23a and the second end ring 23b, produce the frictional heat causing by the rotation of the second end ring 23b.And, reaching while being suitable for temperature that the first end ring 23a engages with the second end ring 23b, the rotation of the second end ring 23b is stopped rapidly.After stopping the rotation, the second end ring 23b is applied to power towards the direction of the first end ring 23a with the time having preset.Thus, the first end ring 23a and the second end ring 23b are by frictional engagement.

［ effect that the compressor 10 of the first execution mode has ］

As the fixing means being pressed into, for example utilizing hammer etc. to beat in the method that fixes the first end ring 23a and the second end ring 23b, the contact-making surface of the first end ring 23a and the second end ring 23b becomes coarse, correspondingly contact impedance increases, and has the possibility of the Efficiency Decreasing of motor element 200.

But the first end ring 23a of the compressor 10 of the first execution mode utilizes face to engage with the second end ring 23b.Thus, the contact impedance in the secondary resistance that rotor 11 has is reduced, and has correspondingly suppressed the Efficiency Decreasing of motor element 200.

The compressor 10 of the first execution mode is because the first end ring 23a and the second end ring 23b carry out frictional engagement, therefore the first end ring 23a is more firm with engaging of the second end ring 23b, and the first end ring 23a further becomes face contact with contacting of the second end ring 23b, correspondingly can reduce contact impedance.

In addition, the compressor 10 of the first execution mode is illustrated as an example of rotary compressor example, but is not limited to this, for example, can be also scroll compressor etc.

The second execution mode

Fig. 3 is the longitudinal section that represents the rotor 11 of the compressor 10 of the second execution mode of the present utility model.Fig. 4 is the figure that sees the rotor 11 shown in Fig. 3 from arrow A side.In the second execution mode, by with the difference of the first execution mode centered by describe.

The rotor 11 of the compressor 10 of the second execution mode has the through hole 24 that connects core 21 ground formation at above-below direction.Through hole 24 side below core 21 connects core 21 to upper face side, and the cold-producing medium discharging to closed container 4 from compressing member 300 and lubricating oil are by this through hole 24.

In addition, the internal side diameter that the rotor 11 of the compressor 10 of the second execution mode is configured to the first end ring 23a is positioned at the outside of through hole 24.And the internal side diameter of the second end ring 23b of discharge pipe arrangement 16 sides in upper and lower two the second end ring 23b is configured to stretch out from the internal side diameter radius vector direction inner side of the first end ring 23a.Thus, the second end ring 23b is relative across recess 25 with the upside opening portion of through hole 24.This recess 25 is formed by the upper face side of the first end ring 23a, the second end ring 23b and core 21.

Fig. 5 is the key diagram of the variation of the second end ring 23b shown in Fig. 4.As shown in Figure 5, it is the shape of bread cast that the second end ring 23b of discharge pipe arrangement 16 sides is not limited to overlooking in observation, and a part for the internal side diameter of the second end ring 23b can be also outstanding to the inside shape.

That is, rotor 11 also can be formed as follows: the upside peristome of the ledge of the second end ring 23b and through hole 24 relatively forms, and between the upside peristome of this through hole 24 and the second end ring 23b, forms recess 25.By such structure, can be in recess 25 parts divided gas flow cold-producing medium and lubricating oil.

［ effect that the compressor 10 of the second execution mode has ］

The compressor 10 of the second execution mode, except the effect that has the compressor 10 of the first execution mode and have, also has following effect.

For the compressor 10 of the second execution mode, the internal diameter of discharging the second end ring 23b of pipe arrangement 16 sides is configured to radius vector direction inner side compared with the internal side diameter of the second end ring 23b and the internal side diameter of the first end ring 23a and stretches out.

, compared with the situation in footpath direction outside that is the internal side diameter of the first end ring 23a with the internal side diameter of the second end ring 23b, the internal diameter of discharging the second end ring 23b of pipe arrangement 16 sides can expand the contact-making surface of the first end ring 23a and the second end ring 23b.

By such expansion contact-making surface, reduce the contact impedance of the first end ring 23a and the second end ring 23b, suppress the Efficiency Decreasing of motor element 200.

In the compressor 10 of the second execution mode, form recess 25., owing to becoming the such structure of the second end ring 23b on through hole 24 upper caps, the high temperature therefore having been compressed by compressing member 300, the gas refrigerant of high pressure and lubricating oil are by the through hole 24 of rotor 11, with the recess 25 tops collisions of end ring.Thus, refrigerant gas is positively separated with lubricating oil, can make lubricating oil return to lower dish-shaped container 3.

In addition, owing to being provided with oil separation plate 13(with reference to figure 1 on the top of this second end ring 23b), therefore, the refrigerant gas not separated at recess 25 separated by this oil separation plate 13 with lubricating oil., the compressor 10 of the second execution mode has the structure that oily separating effect is high.

For the compressor 10 of the second execution mode, compared with the internal side diameter of the second end ring 23b of discharge pipe arrangement 16 sides and the internal side diameter of the first end ring 23a, stretch out radius vector direction inner side, correspondingly can increase the volume of the second end ring 23b, correspondingly can reduce the impedance of the second end ring 23b that discharges pipe arrangement 16 sides, suppress the Efficiency Decreasing of motor element 200.

In addition, for the compressor 10 of the second execution mode, being illustrated, but being not limited to this as an example of rotary compressor example, for example, can be also scroll compressor etc.

The 3rd execution mode

Fig. 6 is that the summary of the refrigerating circulatory device 100 of the 3rd execution mode forms exemplary plot.This refrigerating circulatory device 100 is the refrigerating circulatory devices with the compressor 10 of the first and second execution modes.In addition, refrigerating circulatory device 100 is for example conditioner.In the following description, the situation that is conditioners with regard to refrigerating circulatory device 100 describes.

The stator 12 of compressor 10 is connected with power supply 26 with wiring etc. by glass terminal 17.If powered to compressor 10 from power supply 26, compressor 10 drives.

Refrigerating circulatory device 100 as refrigerant loop structure there is compressor 10, switch the cross valve 101 of flow of refrigerant direction, bring into play when the cooling operation function of condenser (radiator) outdoor heat converter 102, make the throttling arrangement 103(decompressor of cold-producing medium decompression) and bring into play the indoor heat converter 104 of the function of evaporator during at cooling operation, utilize refrigerant piping 105 to connect these parts, form kind of refrigeration cycle.

Refrigerating circulatory device 100 is for example in the time of cooling operation, and cold-producing medium flows as shown in the arrow of Fig. 6.Outdoor heat converter 102 becomes condenser.In addition, indoor heat converter 104 becomes evaporator.

In addition, although not shown, in the time of refrigerating circulatory device 100 heating running, the flow direction of cold-producing medium becomes the direction contrary with the arrow of Fig. 6.In addition, flowing of cold-producing medium can be switched by cross valve 101.Now, outdoor heat converter 102 becomes evaporator.And indoor heat converter 104 becomes condenser.

As the cold-producing medium of refrigerating circulatory device 100 for example use HFC class cold-producing medium taking R134a, R410a, R407c etc. as representative and taking R744(CO2), R717(ammonia), R600a(iso-butane), R290(propane) etc. be the natural refrigerant of representative.

In addition, for example use weak intermiscibility oil or the intermiscibility oil taking ester oil as representative taking alkylbenzene oil as representative as lubricating oil.

Claims (9)

1. a motor, has:

Be wound around the stator of winding; With

Be arranged on the inner side of described stator the rotor being rotated,

Described motor is characterised in that,

Described rotor has: lamination the core of multiple electromagnetic steel plates; The bar-shaped portion of metal, it is arranged at described core, flows through, to carry out magnetic interaction with electric current mobile in the winding of described stator for electric current; Be arranged on the first end ring of the end face side of described core; And the second end ring relatively arranging with described the first end ring,

The contact-making surface each other of described the first end ring and described the second end ring is engaged and fixes.

2. motor according to claim 1, is characterized in that, described the first end ring and described the second end ring are welded and engaged by friction pressure.

3. motor according to claim 1, is characterized in that, on described core, forms the first end ring and the bar-shaped portion of described metal by aluminium die-cast, and described core, described the first end ring and the bar-shaped portion of described metal are integrated.

4. motor according to claim 2, is characterized in that, on described core, forms the first end ring and the bar-shaped portion of described metal by aluminium die-cast, and described core, described the first end ring and the bar-shaped portion of described metal are integrated.

5. according to the motor described in any one in claims 1 to 3, it is characterized in that, described the second end ring is made of aluminum or copper.

6. motor according to claim 4, is characterized in that, described the second end ring is made of aluminum or copper.

7. according to the motor described in any one in claim 1 to 4,6, it is characterized in that, be formed on the through hole being communicated with on the laminating direction of described electromagnetic steel plate at described core with extending,

The first end ring of the end face side of the upside of described core is formed its internal side diameter and is positioned at the outside of the formation position of described through hole,

The second end ring of the end face side of the upside of described core is formed, and side is relative with the upside opening portion of described through hole below described the second end ring.

8. a compressor, is characterized in that, possesses:

Motor in claim 1 to 4,6 described in any one;

The one distolateral driving shaft being connected with the rotor of described motor;

Compressing member, it is distolateral that it connects another of described driving shaft, and for compressed refrigerant; And

Closed container, it accommodates described motor, described driving shaft and described compressing member.

9. a refrigerating circulatory device, is characterized in that, possesses compressor claimed in claim 8.