CN107076149A - Compressor - Google Patents

Abstract

The amount of bow of drive shaft can be reduced it is an object of the invention to provide a kind of, and is reduced as the compressor of the noise produced by the vibration due to bending features value.The compressor possesses：Compression mechanism；Motor, the stator (12) with the rotor (13) for being laminated with multiple steel plates and the outer peripheral portion for being arranged at the rotor (13)；And drive shaft (14), link the motor and the compression mechanism, the first counterweight (35) is provided with the face of the opposite side in the axial compression mechanism side with drive shaft (14) of rotor (13), in the steel plate of stacking, the axis of the steel plate (13A) relative to the drive shaft (14) of the first counterweight (35) side, to the stator (12) side positioned at the diametrically opposite position with first counterweight (35) in the rotor (13) to prominent.

Description

Compressor

Technical field

The present invention relates to a kind of compressor with swinging compression unit and motor suitable for air regulator etc..

Background technology

Compressor for air regulator drives compression unit by electromagnetic motor.Electromagnetic motor is by rotor and determines Son etc. is constituted, and rotor is connected with each other with compression unit via drive shaft (axle).Compression unit is rotated by the rotation of the rotor of motor.

One side of drive shaft is fixed in compression unit side, and the another side of drive shaft is in rotor-side formation free end.This Outside, in the case of Rotary Compressor, drive shaft is provided with crank-pin (cam pin) in compression unit side, and cam pin is embedded in compression The roller in portion.As a result, the center of gravity of the roller of compression unit produces bias relative to the axis of drive shaft, without positioned at drive shaft Axis on.Therefore, in order to the rotation by roller and the centrifugal force that produces obtains balance, in the upper surface of rotor or lower surface Provided with the counterweight as counterweight.

Patent Document 1 discloses following technology following：For the whirling of the rotor that suppresses motor in operation, And vibration and the noise of rotor are reduced, make the center of drive shaft relative to the center displacement of rotor to being arranged at upper rotor surface The first counterweight side.In addition, Patent Document 2 discloses following technology：In order to reduce vibration and the noise during operating, There is drive shaft attaching to have the Part I of rotor and the Part II of cylinder chamber side, make the central shaft of Part I relative to second Partial central shaft is displaced to the opposite side for the side for being provided with counterweight.

Prior art literature

Patent document

Patent document 1：Japanese Unexamined Patent Publication 2006-200527 publications

Patent document 2：Japanese Unexamined Patent Publication 2009-74464 publications

The content of the invention

Problems to be solved by the invention

In compressor operation, noise is produced by the vibration due to the bending features value of drive shaft.Based on the resonance Noise it is bigger than noises due to other vibrations produced in drive shaft.Be difficult to avoid that on the construction of compressor drive shaft because Characteristic value and resonate.But, even if producing resonance, it can also be made an uproar by reducing the amount of bow of drive shaft to suppress to vibrate and reduce Sound.

The present invention is to complete in view of the above circumstances, and its object is to provide a kind of to reduce the bending of drive shaft Amount, reduces the compressor of the noise produced by the vibration due to bending features value.

Technical scheme

The compressor of the first scheme of the present invention possesses：Compression unit；Motor part, with the rotor for being laminated with multiple metallic plates And it is arranged at the stator of the outer peripheral portion of the rotor；And drive shaft, link the motor part and the compression unit, in institute The face in the axial side of driving for stating rotor is provided with counterweight portion, in the metallic plate of stacking, the weight Axis of the metallic plate relative to the drive shaft of code portion side, to the counterweight portion in the diametrically opposite of the rotor The stator side direction is protruded.

According to this composition, constitute rotor stacking metallic plate to counterweight portion in the diametrically opposite stator side of rotor To prominent, thus, during the rotor rotation of motor, in the part of metallic plate protrusion, compare metal in the magnetic attraction of stator side generation The part that plate is not protruded is big.As a result, during rotation, when centrifugal force is worked by counterweight portion, relaxing drive shaft Bending direction produce magnetic attraction, therefore with the rotor be not present metallic plate protrude part situation compared with, can delay With the bending of drive shaft.It should be noted that the face of the so-called axial side of driving provided with counterweight portion be, for example, with The face of the opposite side in face of compression unit side.

In the first scheme of the present invention, in the metallic plate of stacking, the metallic plate phase of counterweight portion side For the axis of the drive shaft, stagger ground in the diametrically opposite stator side direction of the rotor to the counterweight portion Stacking.

According to this composition, the metallic plate of stacking of rotor is constituted with prominent to the stator side direction opposite with counterweight portion, by This, during the rotation of the rotor of motor, the part being highlightedly laminated in metallic plate, the magnetic attraction produced in stator side is than metallic plate not The part being highlightedly laminated is big.

In the first scheme of the present invention, the metallic plate of the counterweight portion side in the metallic plate of stacking, With the axis relative to the drive shaft, dashed forward to the counterweight portion in the diametrically opposite stator side direction of the rotor The mode gone out is applied with metal coating.

According to this composition, the metallic plate of stacking of rotor is constituted with the side prominent to the stator side direction opposite with counterweight portion Formula is applied with metal coating, thus, during the rotor rotation of motor, the part of metal coating is being applied with, in stator side production Raw magnetic attraction is bigger than the part that metallic plate is not protruded.

In the first scheme of the present invention, it is also contemplated that the metallic plate is in the radially projecting part of the rotor Weight, relative to the axis of the drive shaft, reduces the weight of counterweight portion side.

According to this composition, axis of the metallic plate relative to drive shaft even in stacking is prominent to the opposite side in counterweight portion In the case of, it can also obtain the balance for acting on the centrifugal force of compression unit and acting on the centrifugal force of rotor.

, can also be in the rotor and the axial side of driving in the first scheme of the present invention The face of opposite another side be provided with the second counterweight portion, in the metallic plate of stacking, the second counterweight portion side it is described Metallic plate relative to the drive shaft axis, to the second counterweight portion the rotor the diametrically opposite stator Side is to prominent.

According to this composition, the metallic plate of the second counterweight portion side to the second counterweight portion rotor diametrically opposite stator side Direction is protruded, the portion also not protruded than metallic plate except the metallic plate of above-mentioned counterweight portion side, the magnetic attraction produced in stator side Divide big.As a result, compared with the situation for the part that metallic plate is protruded is not present in the rotor, can further relax drive shaft Bending.

The compressor of the alternative plan of the present invention possesses：Compression unit；Motor part, with the rotor for being laminated with multiple metallic plates And it is arranged at the stator of the outer peripheral portion of the rotor；And drive shaft, link the motor part and the compression unit, in institute The face for the side opposite with the axial compression unit side of the driving for stating rotor is provided with counterweight portion, in the inside of the rotor Multiple permanent magnets are provided with, the permanent magnet for being arranged at side opposite with the axial compression unit side of driving is configured to： Compared with other parts, relative to the axis of the drive shaft, with the counterweight portion the rotor it is diametrically opposite described in The magnetic force increase in stator side direction.

According to this composition, the magnetic force of permanent magnet increases to counterweight portion in the diametrically opposite stator side direction of rotor, by This, during the rotor rotation of motor, in the increased part of the magnetic force of permanent magnet, the magnetic attraction produced in stator side compares other parts Greatly.As a result, during rotation, centrifugal force is worked by counterweight portion when, due to the bending for relaxing drive shaft The increased mode in direction produces magnetic attraction, thus with the situation phase for the increased part of magnetic force that permanent magnet is not present in the rotor Than the bending of drive shaft can be relaxed.

In the alternative plan of the present invention, the described of the opposite side in the axial compression unit side of driving is arranged at Permanent magnet had both been configurable to compared with other parts, was inclined to the stator side of the radial direction of the rotor, or can also be compared The magnetic force of the permanent magnet of other parts is strong.

According to this composition, permanent magnet is configured to compared with other parts, and deviation is with counterweight portion in the diametrically opposite of rotor Stator side, thus, during the rotor rotation of motor, the part configured with being inclined in permanent magnet, the magnetic attraction produced in stator side The part configured with not being inclined to than permanent magnet is big.Or, permanent magnet with counterweight portion in the diametrically opposite stator side of rotor To magnetic force it is stronger than other parts, thus, during the rotation of the rotor of motor, in the magnetic force of the permanent magnet part stronger than other parts, The magnetic attraction produced in stator side is bigger than other parts.

Beneficial effects of the present invention

According to the present invention, the amount of bow of drive shaft can be reduced, reduction is produced by the vibration due to bending features value Noise.

Brief description of the drawings

Fig. 1 is the profilograph for the compressor for representing the first embodiment of the present invention.

Fig. 2 is the drawing in side sectional elevation of the compression mechanism for the compressor for representing the first embodiment of the present invention.

Fig. 3 is the rotor and the signal profilograph of motor for the compressor for representing the first embodiment of the present invention.

Fig. 4 is the top view of the rotor for the compressor for representing the first embodiment of the present invention.

Fig. 5 be represent the present invention first embodiment compressor rotor and motor the first variation signal Profilograph.

Fig. 6 is the top view of the first variation of the rotor for the compressor for representing the first embodiment of the present invention.

Fig. 7 be represent the present invention first embodiment compressor rotor and motor the second variation signal Profilograph.

Fig. 8 is the top view of the second variation of the rotor for the compressor for representing the first embodiment of the present invention.

Fig. 9 be represent the present invention first embodiment compressor rotor and motor the 3rd variation signal Profilograph.

Figure 10 is the top view of the 3rd variation of the rotor for the compressor for representing the first embodiment of the present invention.

Figure 11 is the rotor for the compressor for representing second embodiment of the present invention and the drawing in side sectional elevation of motor.

Embodiment

[first embodiment]

Hereinafter, with reference to the accompanying drawings of the compressor 1 of the first embodiment of the present invention.As shown in figure 1, present embodiment Multi-cylinder Rotary Compressor 1 possesses：Top and bottom pass through the closed cylindric closed appearance of upper lid 3 and lower cover 4 Device 2, the top position inside it is provided with motor 5, and the compression mechanism (rotary compressor structure) 6 driven by the motor 5 is set Put position thereunder.

Installation foot 7 is provided with the lower, outer perimeter of closed container 2.In addition, being provided with insertion upper lid on the top of closed container 2 3 discharge pipe arrangement 8, discharge pipe arrangement 8 is by the higher pressure refrigerant gas compressed by multi-cylinder rotary compressor 1 to kind of refrigeration cycle Discharge side.Moreover, the peripheral part in closed container 2 is assembled with accumulator 9, the low pressure that 9 pairs of accumulator is returned from kind of refrigeration cycle side Refrigerant gas in the liquid component such as the oil, the liquid refrigerant that contain separated, only by gas componant via suction pipe arrangement 10th, 11 it is sucked into compression mechanism 6.

Motor 5 possesses stator 12 and rotor 13.Stator 12 is fixedly installed on the inner peripheral surface of closed container 2 by press-in etc.. Rotor 13 is combined with drive shaft 14 and forms one, and thus the rotary driving force of rotor 13 can pass to pressure via drive shaft 14 Contracting mechanism 6.In addition, in the lower portion of drive shaft 14, the first roller 24 and second with Rotary Compressor structure 6 described later Roller 25 is accordingly provided with the first cam pin 15 and the second cam pin 16.

In the present embodiment, Rotary Compressor structure 6 is set to two-cylinder type, its first and second compression mechanism 6A, 6B It is formed with the first cylinder chamber 17 and second cylinder chamber 18.Compression mechanism 6 is further equipped with：First cylinder body 19 and the second cylinder body 20, Space bar (dividing plate) 21, upper bearing 22, lower bearing 23 etc..

First cylinder body 19 and the second cylinder body 20 are corresponding with the first cam pin 15 and the second cam pin 16 of drive shaft 14 Ground is fixedly installed in closed container 2.Dividing plate 21 is clipped between the first cylinder body 19 and the second cylinder body 20, divides the first cylinder chamber 17 And second cylinder chamber 18.Upper bearing 22 is arranged at the upper surface of the first cylinder body 19, divides the first cylinder chamber 17 and supports driving Axle 14.Lower bearing 23 is arranged at the lower surface of the second cylinder body 20, divides second cylinder chamber 18 and supports drive shaft 14.

First and second compression mechanism 6A, 6B possesses respectively：First roller 24 and the second roller 25, slide plate 28 and 29。

It is eccentric that first roller 24 and the second roller 25 are rotatably embedded in the first cam pin 15 and second respectively Pin 16, is rotated in the first cylinder chamber 17 and second cylinder chamber 18.First cam pin 15 and the second cam pin 16 and drive shaft 14 Coupling, integratedly rotates together with drive shaft 14.The center of gravity of the second roller 25 of the second cam pin 16 is embedded in relative to driving The axis of axle 14, positioned at the opposite side of the center of gravity for the first roller 24 for being embedded in the first cam pin 15.

As shown in Fig. 2 slide plate 28 and 29, which is sliding freely embedded in, is arranged at the first cylinder body 19 and the second cylinder body 20 Vane slot 26,27, will be separated into the first cylinder chamber 17 and second cylinder chamber 18 suction chamber side and discharge room side.

The refrigerant gas of low pressure is sucked into the first and second pressure from suction pipe arrangement 10,11 via suction inlet 30,31 In the first cylinder chamber 17 and second cylinder chamber 18 of contracting mechanism 6A, 6B.

The refrigerant gas being sucked into the first cylinder chamber 17 and second cylinder chamber 18 passes through the first roller 24 and the second rolling The rotation of wheel 25 is discharged by after compression via outlet and dump valve (omit and illustrate) into discharge chamber 32,33.Discharge After refrigerant gas in discharge chamber 32,33 is discharged in closed container 2, by discharging pipe arrangement 8 to kind of refrigeration cycle Send out.

Constitute the first cylinder body 19 and the second cylinder body 20, dividing plate 21, upper bearing 22 and lower bearing of compression mechanism 6 23 are fastened as a whole via bolt.In addition, the underfill in closed container 2 has the refrigerating machine oils 34, energy such as PAG oil, POE oil Enough via oil supplying hole being arranged in drive shaft 14 etc., the lubricant housings fuel feeding into compression mechanism 6.It is appropriate in refrigerating machine oil 34 Ground, which is added with, is adapted to various oily extreme pressure agents.It should be noted that to the mechanism of the fuel feeding of compression mechanism 6 be usually used structure Into omission herein is described in detail.

First counterweight 35 is arranged at the upper surface of rotor 13, that is, is arranged at the side of the axis direction of drive shaft 14 , the face of side opposite with the side where compression mechanism 6.In addition, the center of gravity of the first counterweight 35 is relative to drive shaft 14 Axis, positioned at the opposite side with the center of gravity of the first roller 24.Second counterweight 36 is arranged at the lower surface of rotor 13, that is, sets The face of the side where the opposite side of axis direction, compression mechanism 6 in drive shaft 14.In addition, the second counterweight 36 Center of gravity relative to drive shaft 14 axis, positioned at the opposite side with the center of gravity of the second roller 25.

First counterweight 35 and the second counterweight 36 are provided with by the upper and lower surface in rotor 13, applied Can be with passing through the first roller 24 and the second roller 25 in the centrifugal force of the first counterweight 35 and the second counterweight 36 Rotation and produce, put on the first roller 24 and the centrifugal force of the second roller 25 obtain balance.

Rotor 13 be multiple steel plate mutually insulateds be laminated in the axial direction of drive shaft 14.Steel plate is magnetic metal One or other magnetic holding plates of plate.Suppress the generation of vortex flow by stacked steel plate.In the past, each steel plate was matched somebody with somebody The outer surface of rotor 13 is set on the same face.Therefore, the gap being formed in the past between stator 12 and rotor 13 (is also referred to as Air gap) to be spaced in circumferential be fixed.Air gap is determined by size of motor 5 etc., such as from 100 μm to hundreds of μm.

On the other hand, for the air gap of present embodiment, when rotor 13 stops the rotation, in the upside of rotor 13, that is, driving Opposite side side, with the side where compression mechanism 6 of the axis direction of moving axis 14, the setting side of the first counterweight 35 It is different with the interval of the air gap of side opposite from the setting side of the first counterweight 35 relative to drive shaft 14.Relative to drive shaft 14 The air gap of side opposite with the setting side of the first counterweight 35 is narrower than the air gap of the setting side of the first counterweight 35.

For example, as shown in Figure 3 and 4, being laminated in the steel plate 13A and steel plate 13B in addition of the upside of rotor 13 Compare, to stagger ground to the prominent mode in the direction of the stator 12 positioned at the opposite position in the setting side with the first counterweight 35 Configuration.Here, steel plate 13A flat shape is identical with steel plate 13B flat shape.Steel plate 13A offset is, for example, air gap Interval 1/10 or so.Produced it should be noted that Fig. 3 schematically illustrates rotor 13 using the side of compression mechanism 6 as fixing end The situation of whirling (Fig. 5, Fig. 7, Fig. 9 described below is also same).

The steel plate 13A configured with staggering number is for example in the upside of rotor 13 dependent on the increased magnetic attraction of institute A few percent to percent tenths of scope steel plate.It should be noted that assuming that minimum number is one, it is assumed that maximum 1/2 to 2/3 scope of numerical example all steel plates in this way.It should be noted that figure 3 illustrates in all steel configured with staggering In plate 13A, the value identical situation of steel plate 13A offset.Steel plate 13A offset is not limited to the example, can be with direction Upside and stepwise or smoothly increase offset etc., and it is not limited to example illustrated.

Configured with staggering by the steel plate 13A of the upside by rotor 13 is laminated in, when rotor 13 stops the rotation, relative to Drive shaft 14, air gap of the air gap than the setting side of the first counterweight 35 of side opposite with the setting side of the first counterweight 35 It is narrow.As a result, the steel plate 13A of rotor 13 is prominent to the opposite side of the first counterweight 35, thus, the rotor 13 of motor 5 revolves When turning, the magnetic attraction bigger than part beyond ledge is produced in the side of stator 12.That is, matched somebody with somebody in centrifugal force by the first balance When weighing 35 and work, by configuring steel plate 13A with staggering as above, in the direction for the bending for relaxing drive shaft 14, i.e. The direction opposite with the first counterweight 35 relative to the axis of drive shaft 14 produces magnetic attraction, can relax the curved of drive shaft 14 It is bent.

As a result, in the case that drive shaft 14 produces resonance because of characteristic value, with configuring steel plate with not staggering Situation is compared, and can also reduce the amount of bow of drive shaft 14, can reduce the noise produced by the vibration due to bending features value.

For the steel plate 13 of rotor 13, it is also contemplated that steel plate 13A ledge, the axis relative to drive shaft 14 subtracts The weight of few side of first counterweight 35.Show to subtract by forming through hole 40 respectively in steel plate 13A in Fig. 5 and Fig. 6 The example of few weight.

In the case where configuring steel plate 13A with staggering, it is possible to increase magnetic attraction, but situation about not staggering with steel plate 13A Compare, may deteriorate with putting on the balance of centrifugal force of the first roller 24 and the second roller 25.It should be noted that by It is smaller than the weight of the first counterweight 35 in the weight of ledge, therefore can speculate that the ratio that balance deteriorates is no so big.

As shown in figs.5 and 6, by forming through hole 40, the centrifugal force for putting on the top of rotor 13 can be with passing through The rotation of first roller 24 and the second roller 25 and the centrifugal force for producing, putting on the first roller 24 and the second roller 25 Obtain balance.

It should be noted that being shown in Fig. 5 and Fig. 6 in the stator 12 to the opposite side positioned at the first counterweight 35 All steel plate 13A that direction is protruded set the situation of through hole 40, but the present invention is not limited to the example.That is, can also be in steel plate A 13A part sets through hole 40.In addition it is also possible to not set through hole 40 in steel plate 13A, but consider steel plate 13A's Ledge, the first counterweight 35 of reduction weight of itself.

The compressor of the first embodiment of the present invention is explained above, but the present invention is not limited to above-mentioned embodiment Composition.

For example, in the above-described embodiment, illustrating following example：In order to reduce by the centrifugation of the first counterweight 35 The bending that power is produced, in the narrower intervals of the air gap of the upside of rotor 13, but the present invention is not limited to the example.

For example, as shown in Figure 7 and Figure 8, be laminated in rotor 13 downside steel plate 13C with pars intermedia in addition Point steel plate 13B compare, the prominent mode in stator 12 side opposite to the setting side with the second counterweight 36 is configured with staggering Also may be used.Thus, when rotor 13 stops the rotation, in the downside of rotor 13, i.e., drive shaft 14 axis direction opposite side, pressure Side where contracting mechanism 6, the air gap of side opposite with the setting side of the second counterweight 36 relative to drive shaft 14 is more flat than second The air gap of the setting side for the counterweight 36 that weighs is narrow.

As a result, the steel plate 13C of rotor 13 is prominent to the opposite side of the second counterweight 36, and thus, the rotor of motor 5 During 13 rotation, the magnetic attraction bigger than part beyond ledge is produced in the side of stator 12.That is, it is flat by second in centrifugal force When weighing apparatus counterweight 36 works, drive shaft 14 produces bending, by configuring steel plate 13C with staggering as above, relaxing The direction of the bending of drive shaft 14, radial direction i.e. opposite with the second counterweight 36 relative to the axis of drive shaft 14 produce magnetic Gravitation, can relax the bending of drive shaft 14.

In accordance with the above, the steel plate 13C of rotor 13 by staggering is configured, in drive shaft 14 because characteristic value produces resonance In the case of, the amount of bow of drive shaft 14 can be reduced, if together staggering with the steel plate 13A of rotor 13, can further reduce by The noise produced due to the vibration of bending features value.If it should be noted that the amount of bow of drive shaft 14 is in rotor 13 Downside is larger, then can configure the steel plate 13C of rotor 13 with only staggering.

In addition, in the above-described embodiment, be laminated in rotor 13 upside steel plate 13A with steel plate phase in addition Than the mode prominent to the opposite side of the setting side with the first counterweight 35 is configured with staggering, but the present invention is not limited to this Example.That is, when rotor 13 stops the rotation, the air gap ratio of side opposite with the setting side of the first counterweight 35 relative to drive shaft 14 is made The air gap of the setting side of first counterweight 35 is narrow, for example, as shown in Fig. 9 and Figure 10, can also be by steel plate 13A Outer peripheral portion implement coating layer in addition to set ledge 41.In this case, ledge 41 passes through silver paste (silver ) etc. paste formed.Or, ledge 41 can also be by making the steel plate of steel plate 13A flat shape with other parts in itself 13B shape difference is formed.

Ledge 41 is formed in the steel plate 13A of stacking, relative to setting for drive shaft 14 and the first counterweight 35 Put the opposite side of side.Thus, it is opposite with the setting side of the first counterweight 35 relative to drive shaft 14 when rotor 13 stops the rotation The air gap of side is narrower than the air gap of the setting side of the first counterweight 35.As a result, the steel plate 13A of rotor 13 ledge 41 To prominent with the opposite side of the first counterweight 35, thus, when the rotor 13 of motor 5 rotates, produced in the side of stator 12 than protruding The big magnetic attraction in part beyond part 41.That is, centrifugal force is worked by the first counterweight 35, drive shaft 14 is produced When bending, by being formed with ledge 41 as above, relax drive shaft 14 bending direction, i.e. relative to The direction that the axis of drive shaft 14 is located at stator 12 side opposite with the first counterweight 35 produces magnetic attraction, can relax driving The bending of axle 14.

As a result, in the case that drive shaft 14 produces resonance because of characteristic value, can also reduce the curved of drive shaft 14 Qu Liang, can reduce the noise produced by the vibration due to bending features value.

[second embodiment]

Then the compressor of second embodiment of the present invention is illustrated.Due to the compressor and above-mentioned first of present embodiment Comparatively speaking rotor is different for the compressor of embodiment, therefore the rotor 13 of following explanation present embodiment.Due to rotor 13 with Outer inscape is repeated with first embodiment, therefore omits detailed description.

Rotor 13 be multiple steel plate mutually insulateds be laminated in the axial direction of drive shaft 14.Pressed down by stacked steel plate The generation of vortex flow processed.Each steel plate of present embodiment is configured in the way of the outer surface of rotor 13 is on the same face.Therefore, shape It is fixed into being spaced in circumferential for the gap (air gap) between stator 12 and rotor 13.

There is permanent magnet 42,50 in the inside embedment of rotor 13.It should be noted that Figure 11 represents matching somebody with somebody for permanent magnet 42,50 Put example, but be configured at size, position, direction of the permanent magnet of the inside of rotor 13 etc. and be not limited to configuration shown in Figure 11 Example.

Permanent magnet 42,50 is configured in the opening portion for being formed at steel plate.It is being laminated in the steel plate 13D of the upside of rotor 13 In, permanent magnet 42 with addition be arranged at steel plate 13E permanent magnet 50 compared with, set to positioned at first counterweight 35 The direction for putting the opposite stator 12 in side is configured with staggering.Here, steel plate 13D flat shape and steel plate 13E flat shape phase Together.

That is, it is identical with the configuration of the permanent magnet in conventional rotor, it is arranged at multiple permanent magnetism beyond the upside of rotor 13 Body 50 is arranged to point symmetry centered on the axis of drive shaft 14.On the other hand, as described above, being arranged at the upside of rotor 13 Multiple permanent magnets 42 are configured with staggering to the opposite side of the setting side of the first counterweight 35, the center of the point symmetry of permanent magnet 42 Stagger also relative to the axis of drive shaft 14 to the opposite side of the setting side with the first counterweight 35.

Thus, when the rotor 13 of motor 5 rotates, in the upside of rotor 13, the upside than rotor 13 is produced in the side of stator 12 Big magnetic attraction in addition.That is, when centrifugal force is worked by the first counterweight 35, drive shaft 14 produces bending, By configuring permanent magnet 42 with staggering as above, in the direction for the bending for relaxing drive shaft 14, i.e., relative to drive shaft 14 The axis radial direction opposite with the first counterweight 35 produce magnetic attraction, the bending of drive shaft 14 can be relaxed.

As a result, in the case that drive shaft 14 produces resonance because of characteristic value, can also reduce the curved of drive shaft 14 Qu Liang, can reduce the noise produced by the vibration due to bending features value.

It is explained above the following example of the compressor on second embodiment of the present invention：In order to reduce by first The bending that the centrifugal force of counterweight 35 is produced, the set location for making permanent magnet 42 in the upside of rotor 13 staggers, but the present invention It is not limited to the example.

That is, in the upside of rotor 13, magnetic attraction is in the direction for the bending for relaxing drive shaft 14, i.e. relative to drive shaft 14 Axis opposite with the first counterweight 35 radially increase.For example, being balanced relative to the axis of drive shaft 14 and first The axis that the magnetic force for the permanent magnet that counterweight 35 is configured on the contrary is better than relative to drive shaft 14 is configured at the side of the first counterweight 35 Permanent magnet.

In this case, also can be in the direction for the bending for relaxing drive shaft 14, i.e., relative to the axis of drive shaft 14 and the The opposite radial direction of one counterweight 35 produces magnetic attraction, can relax the bending of drive shaft 14.

In addition, illustrating following example in the above-described embodiment：The permanent magnet 42 of the upside of rotor 13 will be configured at It is configured to magnetic attraction to radially increase to the axis relative to drive shaft 14 is opposite with the first counterweight 35, for being configured at The permanent magnet of the downside of rotor 13 can also be configured similarly.In this case, the permanent magnet for being configured at the downside of rotor 13 is matched somebody with somebody Magnetic attraction is set to radially increase to the axis relative to drive shaft 14 is opposite with the second counterweight 36.

Moreover, illustrate above-mentioned first and second embodiment compressor be multi-cylinder rotary compressor situation, but The present invention is not limited to the compressor of the form.For example, both can apply to be provided only with the revolution of a Rotary Compressor structure Compressor, can also apply to scroll compressor provided with one or more scroll compressor mechanisms etc..

Symbol description

1 compressor

2 closed containers

5 motors (motor part)

6 compression mechanisms (compression unit)

The compression mechanisms of 6A first

The compression mechanisms of 6B second

8 discharge pipe arrangements

9 accumulators

10th, 11 suction pipe arrangement

12 stators

13 rotors

13A, 13B, 13C, 13D, 13E steel plate

14 drive shafts

15 first cam pins

16 second cam pins

17 first cylinder chambers

18 second cylinder chambers

19 first cylinder bodies

20 second cylinder bodies

24 first rollers

25 second rollers

35 first counterweights (counterweight portion)

36 second counterweights (the second counterweight portion)

40 through holes

41 ledges

42nd, 50 permanent magnet

Claims (according to the 19th article of modification of treaty)

(1. after modification)

A kind of compressor, possesses：

Compression unit；

Motor part, with being laminated with the rotor of multiple flat shape identical metallic plates and be arranged at the peripheral part of the rotor The stator divided；And

Drive shaft, links the motor part and the compression unit,

Counterweight portion is provided with the face of the axial side of the driving of the rotor,

In the metallic plate of stacking, axis of the metallic plate relative to the drive shaft of counterweight portion side, to The counterweight portion is protruded in the diametrically opposite stator side direction of the rotor.

2. compressor according to claim 1, wherein,

In the metallic plate of stacking, axis of the metallic plate relative to the drive shaft of counterweight portion side, to The counterweight portion is laminated with staggering in the diametrically opposite stator side direction of the rotor.

3. compressor according to claim 1, wherein,

The metallic plate of counterweight portion side in the metallic plate of stacking, with the axis relative to the drive shaft, Metal coating is applied with to the mode prominent in the diametrically opposite stator side direction of the rotor with the counterweight portion.

4. compressor according to any one of claim 1 to 3, wherein,

Consider weight of the metallic plate in the radially projecting part of the rotor, relative to the axis of the drive shaft, subtract The weight of few counterweight portion side.

5. compressor according to any one of claim 1 to 4, wherein,

The second counterweight is provided with the face of the another side opposite with the axial side of driving of the rotor Portion,

In the metallic plate of stacking, axis of the metallic plate relative to the drive shaft of the second counterweight portion side, To prominent in the diametrically opposite stator side direction of the rotor with the second counterweight portion.

6. a kind of compressor, possesses：

Compression unit；

Motor part, the stator with the rotor for being laminated with multiple metallic plates and the outer peripheral portion for being arranged at the rotor；And

Drive shaft, links the motor part and the compression unit,

Counterweight portion is provided with the face of the opposite side in the axial compression unit side of the rotor and the driving,

Multiple permanent magnets are internally provided with the rotor,

The permanent magnet for being arranged at side opposite with the axial compression unit side of driving is configured to：With other parts phase Than relative to the axis of the drive shaft, with the counterweight portion in the diametrically opposite stator side direction of the rotor Magnetic force increase.

7. compressor according to claim 6, wherein,

It is arranged at and is configured to and other portions with the permanent magnet of the opposite side of the axial compression unit side of driving Split-phase ratio, is inclined to the stator side of the radial direction of the rotor, or compared with the permanent magnet of other parts, magnetic force is strong.

Claims (7)

1. a kind of compressor, possesses：

Compression unit；

Motor part, the stator with the rotor for being laminated with multiple metallic plates and the outer peripheral portion for being arranged at the rotor；And

Drive shaft, links the motor part and the compression unit,

Counterweight portion is provided with the face of the axial side of the driving of the rotor,

In the metallic plate of stacking, axis of the metallic plate relative to the drive shaft of counterweight portion side, to The counterweight portion is protruded in the diametrically opposite stator side direction of the rotor.

2. compressor according to claim 1, wherein,

In the metallic plate of stacking, axis of the metallic plate relative to the drive shaft of counterweight portion side, to The counterweight portion is laminated with staggering in the diametrically opposite stator side direction of the rotor.

3. compressor according to claim 1, wherein,

The metallic plate of counterweight portion side in the metallic plate of stacking, with the axis relative to the drive shaft, Metal coating is applied with to the mode prominent in the diametrically opposite stator side direction of the rotor with the counterweight portion.

4. compressor according to any one of claim 1 to 3, wherein,

Consider weight of the metallic plate in the radially projecting part of the rotor, relative to the axis of the drive shaft, subtract The weight of few counterweight portion side.

5. compressor according to any one of claim 1 to 4, wherein,

The second counterweight is provided with the face of the another side opposite with the axial side of driving of the rotor Portion,

In the metallic plate of stacking, axis of the metallic plate relative to the drive shaft of the second counterweight portion side, To prominent in the diametrically opposite stator side direction of the rotor with the second counterweight portion.

6. a kind of compressor, possesses：

Compression unit；

Motor part, the stator with the rotor for being laminated with multiple metallic plates and the outer peripheral portion for being arranged at the rotor；And

Drive shaft, links the motor part and the compression unit,

Counterweight portion is provided with the face of the opposite side in the axial compression unit side of the rotor and the driving,

Multiple permanent magnets are internally provided with the rotor,

The permanent magnet for being arranged at side opposite with the axial compression unit side of driving is configured to：With other parts phase Than relative to the axis of the drive shaft, with the counterweight portion in the diametrically opposite stator side direction of the rotor Magnetic force increase.

7. compressor according to claim 6, wherein,

It is arranged at and is configured to and other portions with the permanent magnet of the opposite side of the axial compression unit side of driving Split-phase ratio, is inclined to the stator side of the radial direction of the rotor, or compared with the permanent magnet of other parts, magnetic force is strong.