CN206452195U - Motor stator component and motor, compressor with it - Google Patents

Abstract

The utility model discloses a kind of motor stator component and the motor with it, compressor, the motor stator component includes：Motor stator, main winding and auxiliary winding, motor stator is formed by multiple silicon steel sheets are stacked, line embedding groove is respectively equipped with each silicon steel sheet, main winding is around being located in line embedding groove, main winding includes the first main winding, second main winding and the 3rd main winding, first main winding includes the first connector lug and the second connector lug, second main winding includes the 3rd connector lug and the 4th connector lug, 3rd main winding includes the 5th connector lug and the 6th connector lug, auxiliary winding is around being located in line embedding groove, auxiliary winding has the 7th connector lug and the 8th connector lug, main winding and auxiliary winding are wound on motor stator with one heart respectively.According to motor stator component of the present utility model, mode of connection easy switching, operating efficiency are high, startability is good, it is strong to adapt to load variations ability.

Description

Motor stator component and motor, compressor with it

Technical field

The utility model is related to compressor apparatus technical field, more particularly, to a kind of motor stator component and has Its motor, compressor.

Background technology

Recently as the continuous improvement of efficiency requirement, compressor and motor have increasing need for Effec-tive Function, wherein, refrigerator When compressor carries refrigerator operation in practice, under different operating modes, the load of compressor is change, and such as refrigerator compresses Machine needs motor to have larger torque in heavy load operating mode or big refrigerating capacity, is needed in worst cold case or small refrigerating capacity The torque energy of motor has declined, and load point of the motor in real work can also be reduced.

And constant speed compressor generally use monopole asynchronous motor, monopole asynchronous motor under same Power Supplies Condition, its Torque is a kind of state operation.Single-phase asynchronous constant-seed motor in correlation technique, is usually disposed as a set of main winding and a set of The pattern of auxiliary winding, so in order to ensure electric motor starting performance, generally when motor is designed, can only take into account a fixation Effec-tive Function under load point, so when worst cold case under electric efficiency can not Effec-tive Function.

Utility model content

The utility model is intended at least solve one of above-mentioned technical problem to a certain extent.

Therefore, the utility model proposes a kind of motor stator component, the winding connection mode of the motor stator component switches Convenient, operating efficiency is high, startability is good, it is strong to adapt to load variations ability.

The utility model also proposes a kind of motor with above-mentioned motor stator component.

The utility model also proposes a kind of compressor with above-mentioned motor.

According to the motor stator component of the utility model first aspect, including：Motor stator, main winding and auxiliary winding, institute State motor stator to be formed by multiple silicon steel sheets are stacked, line embedding groove, the main winding winding are respectively equipped with each silicon steel sheet In the line embedding groove, the main winding includes the first main winding, the second main winding and the 3rd main winding, first main winding Including the first connector lug and the second connector lug, second main winding includes the 3rd connector lug and the 4th connector lug, the described 3rd Main winding includes the 5th connector lug and the 6th connector lug, and the auxiliary winding is around being located in the line embedding groove, and the auxiliary winding has 7th connector lug and the 8th connector lug, the main winding and the auxiliary winding distinguish concentric coiling on the motor stator.

According to motor stator component of the present utility model, pass through the first main winding respectively in main winding, the second main winding Arrange two connector lugs with the 3rd main winding, the convenient connector lug by the first main winding, the second main winding and the 3rd main winding it Between be attached the mode of connection between first main winding, the second main winding and the 3rd main winding is switched over so that convenient, And then the different torque running statuses of the motor under same Power Supplies Condition are realized, meet different to motor during compressor load change The torque of the demand of torque running status, i.e. motor can make corresponding change according to the load variations of compressor, it can be ensured that Motor can be with Effec-tive Function under worst cold case, it is ensured that the startability of motor, improves operating efficiency.Therefore, the motor The mode of connection easy switching of stator module, operating efficiency are high, startability is good, it is strong to adapt to load variations ability.

In addition, according to motor stator component of the present utility model, can also have technical characteristic additional as follows：

According to one embodiment of the present utility model, the equal turn numbers of second main winding and the 3rd main winding.

According to one embodiment of the present utility model, the line of second main winding and the electromagnetic wire of the 3rd main winding Footpath is equal or different.

According to one embodiment of the present utility model, the line of the electromagnetic wire of second main winding and the 3rd main winding Footpath is more than or equal to 0.6 times of the line footpath of the electromagnetic wire of first main winding.

According to one embodiment of the present utility model, extraction the end of a thread of the main winding is 5 or 6.

According to one embodiment of the present utility model, extraction the end of a thread of the main winding is 5, second connector lug with 3rd connector lug or the 5th connector lug are connected.

According to one embodiment of the present utility model, the line embedding groove is 24, the auxiliary winding and the described first master around The total number of turns ratio of group is 0.30~0.95.

According to one embodiment of the present utility model, after second main winding is in parallel with the 3rd main winding with it is described First main winding is connected, and the ratio of the total number of turns of the auxiliary winding and the total number of turns of first main winding is 0.35~0.85.

According to one embodiment of the present utility model, second main winding and the 3rd main winding series connection after with it is described First main winding is connected, the ratio of the effective turn of the total number of turns of the auxiliary winding and first main winding for 0.25~ 0.85。

According to one embodiment of the present utility model, when the big torque of motor is run, first connector lug is inlet wire Head, second connector lug is terminal, with second wiring after the 3rd connector lug and the 5th connector lug connection Head connection, the 4th connector lug and the 6th connector lug and one in the 7th connector lug and the 8th connector lug It is connected.

According to one embodiment of the present utility model, when the small torque of motor is run, first connector lug is inlet wire Head, second connector lug is terminal, and second connector lug is connected with the 3rd connector lug, the 4th connector lug and 5th connector lug is connected, the 6th connector lug and a phase in the 7th connector lug and the 8th connector lug Even.

According to the motor of the utility model second aspect, including the motor stator component described in above-described embodiment.

According to the compressor of the utility model third aspect, including the motor described in above-described embodiment.

Additional aspect and advantage of the present utility model will be set forth in part in the description, partly by from following description In become obvious, or by it is of the present utility model practice recognize.

Brief description of the drawings

Of the present utility model above-mentioned and/or additional aspect and advantage will from description of the accompanying drawings below to embodiment is combined Become substantially and be readily appreciated that, wherein：

Fig. 1 is the wiring schematic diagram of the main winding of the motor stator component according to the utility model embodiment, auxiliary winding；

Fig. 2 is the wiring schematic diagram of the motor stator component according to the utility model embodiment；

Fig. 3 is the wiring schematic diagram of the motor according to the utility model embodiment；

Fig. 4 is the wiring schematic diagram in state 1 when being rotated forward according to the motor of the utility model embodiment；

Fig. 5 is the wiring schematic diagram in state 2 when being rotated forward according to the motor of the utility model embodiment；

Fig. 6 is the wiring schematic diagram in starting state when being rotated forward according to the motor of the utility model embodiment；

In the wiring schematic diagram of state 2 when Fig. 7 is the motor reversal according to the utility model embodiment.

Reference：

10：Motor stator；

20：Main winding；

21：First main winding；211：First connector lug；212：Second connector lug；

22：Second main winding；221：3rd connector lug；222：4th connector lug；

23：3rd main winding；231：5th connector lug；232：6th connector lug；

30：Auxiliary winding；31：7th connector lug；32：8th connector lug.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element or element with same or like function are represented to same or similar label eventually.Below by ginseng The embodiment for examining accompanying drawing description is exemplary, it is intended to for explaining the utility model, and it is not intended that to the utility model Limitation.

With the development of the compressor of transfiguration two, such as freezer compressor can be arranged to refrigerating capacity and become with the change of steering Change, it is necessary to which a motor has the state of two kinds of torque operations, refrigerating capacity is big when such as rotating forward, and motor load point is big, reversion refrigeration Amount is small, and motor load is small.

Furthermore, because some spread of voltages of area such as India are, it is necessary to which motor can be opened at the lower voltage It is dynamic, and it is required to Effec-tive Function after starting.And the motor in correlation technique is usual in the case where the conditions such as line footpath are certain, Purely motor torque can be declined number of turn increase, so we are accomplished by designing a kind of motor, you can with by change around The number of turn of group can just realize big torque during startup, main winding can be made to have the more number of turn during operation again, and then realize high Efficiency.

1 to Fig. 7 specifically describe the motor stator component according to the utility model first aspect embodiment below in conjunction with the accompanying drawings.

Included according to the motor stator component of the utility model embodiment：Motor stator 10, main winding 20 and auxiliary winding 30, Motor stator 10 is formed by multiple silicon steel sheets are stacked, is respectively equipped with line embedding groove on each silicon steel sheet, and main winding 20 is around being located at rule In groove, main winding 20 includes the first main winding 21, the second main winding 22 and the 3rd main winding 23, and the first main winding 21 includes first The connector lug 212 of connector lug 211 and second, the second main winding 22 includes the 3rd connector lug 221 and the 4th connector lug 222, the 3rd master Winding 23 includes the 5th connector lug 231 and the 6th connector lug 232, and auxiliary winding 30 is around being located in line embedding groove, and auxiliary winding 30 has the Seven connector lugs 31 and the 8th connector lug 32, main winding 20 and auxiliary winding 30 distinguish concentric coiling on motor stator 10.

In other words, the motor stator component is mainly made up of motor stator 10, main winding 20 and auxiliary winding 30, motor stator 10 include multiple silicon steel sheets, and motor stator 10 is formed by multiple silicon steel sheet arranged superposeds, is set in the middle part of each silicon steel sheet There is through hole, and the inner ring of each silicon steel sheet is provided with multiple along its circumferentially-spaced line embedding groove for opening arrangement, is arranged with line embedding groove Main winding 20 and auxiliary winding 30, and concentric type winding mode is respectively adopted around being located at motor stator 10 in main winding 20 and auxiliary winding 30 On.

Wherein, main winding 20 is mainly made up of the first main winding 21, the second main winding 22 and the 3rd main winding 23, the first master Winding 21 has the first connector lug 211 and the second connector lug 212, and there is the second main winding 22 the 3rd connector lug 221 and the 4th to connect The end of a thread 222, the 3rd main winding 23 has the 5th connector lug 231 and the 6th connector lug 232, and auxiliary winding 30 has the 7th connector lug 31 With the 8th connector lug 32, it is easy to be connect between the second main winding 22 and the connector lug of the 3rd main winding 23 and the first main winding 21 The switching of line mode, and then realize the conversion of the different torque running statuses of motor.

Thus, according to the motor stator component of the utility model embodiment, by respectively main winding 20 first master around The 21, second main winding 22 of group and the 3rd main winding 23 arrange two connector lugs, convenient by the first main winding 21, the second main winding 22 And the 3rd main winding 23 connector lug between be attached so that convenient to the first main winding 21, the second main winding 22 and the 3rd The mode of connection between main winding 23 is switched over, and then realizes the different torques operation shape of the motor under same Power Supplies Condition State, meeting the demand to the different torque running statuses of motor, the i.e. torque of motor when compressor load changes can be according to compressor Load variations make corresponding change, it can be ensured that under worst cold case motor can be with Effec-tive Function, it is ensured that motor is opened Dynamic performance, improves operating efficiency.Therefore, the mode of connection easy switching of the motor stator component, operating efficiency height, startability Can good, strong adaptability.

It should be noted that as depicted in figs. 1 and 2, the first main winding 21 is represented with X, the second main winding 22 is with Y come table Show, the 3rd main winding 23 is represented with Z, the first connector lug 211 and the second connector lug 212 of the first main winding 21 respectively with X1 and X2 represents that the 3rd connector lug 221 and the 4th connector lug 222 of the second main winding 22 represent with Y1 and Y2 respectively, the 3rd master 5th connector lug 231 of winding 23 and the 6th connector lug 232 represent with Z1 and Z2 respectively, the 7th connector lug 31 of auxiliary winding 30 Represented respectively with M and N with the 8th connector lug 32.

Preferably, the equal turn numbers of the second main winding 22 and the 3rd main winding 23, the second main winding 22 and the 3rd main winding 23 number of turn in each line embedding groove is identical, i.e. the coil turn of Y and Z in each line embedding groove is equal, in addition, the second main winding 22 direction of winding with the 3rd main winding 23 in each line embedding groove is consistent, span is identical, can so cause the second main winding 22 and the 3rd main winding 23 winding and inserting it is very convenient, operate it is simpler.

Alternatively, the line footpath of the second main winding 22 and the electromagnetic wire of the 3rd main winding 23 is equal or different, i.e., second master around Group 22 be able to can not also be waited with the line footpath of the electromagnetic wire of the 3rd main winding 23 with equal, specifically, when the second main winding 22 and the When the line footpath of the electromagnetic wire of three main windings 23 is identical, both can simultaneously coiling and equivalent switching, not vice versa.

It is understood that the second main winding 22 and the 3rd main winding 23 are in rule, it is preferential to carry out the first main winding 21 Rule, then the second main winding 22 and the 3rd main winding 23 winding and inserting simultaneously, finally carry out the winding and inserting of auxiliary winding 30, embedding Can be by the second connector lug 212 (X2 as shown in Fig. 1 and Fig. 2) and the 3rd connector lug 221 (as shown in Fig. 1 and Fig. 2 after the completion of line Y1) connect, both draw a connector lug together, to reduce the quantity for drawing the end of a thread.The part of groove design can be used altogether Slot wedge is spaced apart, and in addition with the improvement of existing manufacturing process, rule can also be carried out simultaneously.

Preferably, the line footpath of the electromagnetic wire of the second main winding 22 and the 3rd main winding 23 is more than or equal to the first main winding 21 0.6 times of line footpath of electromagnetic wire.

That is, the line footpath of the electromagnetic wire of the second main winding 22 and the 3rd main winding 23 is not less than the first main winding 21 0.6 times of the line footpath of electromagnetic wire, can be effectively prevented from the second main winding 22 and the 3rd main winding 23 electric current when being connected in series Density is too high, prevents from that the second main winding 22 and the 3rd main winding 23 are caused to damage, it is ensured that motor is effectively normally run.

Alternatively, extraction the end of a thread of main winding 20 is the first connector lug 211 of 5 or 6, i.e. the first main winding 21 and the Two connector lugs 212, the 3rd connector lug 221 of the second main winding 22 and the 4th connector lug 222, the 5th wiring of the 3rd main winding 23 First 231 and the total of six of the 6th connector lug 232 draw the end of a thread, the second connector lug 212 and the 3rd connector lug 221 can also be connected Get up calculate one extraction the end of a thread, i.e., both together draw a connector lug, now altogether 5 draw the end of a thread, can so reduce Draw the quantity of the end of a thread.

Preferably, extraction the end of a thread of main winding 20 is 5, the second connector lug 212 and the 3rd connector lug 221 or the 5th wiring First 231 are connected.

In other words, the second connector lug 212 and the 3rd connector lug 221 can connect and draw a connector lug jointly, or Person's the second connector lug 212 and the 5th connector lug 231 can draw a connector lug, i.e. 20 a total of 5 extractions of main winding jointly The end of a thread, so reduces the quantity of extraction the end of a thread of main winding 20.

Advantageously, line embedding groove is 24, and the total number of turns ratio of the main winding 21 of auxiliary winding 30 and first is 0.30~0.95.

Referring to Figures 1 and 2, there are each silicon steel sheet 24 line embedding grooves (to mark 1- on silicon steel sheet inner ring as shown in Figure 1 No. 24 line embedding grooves), the ratio range of the total number of turns of the main winding 21 of auxiliary winding 30 and first is between 0.30 to 0.95, effective turn ratio 0.30,0.40,0.50,0.60,0.70,0.80,0.90,0.95 generally can not can be taken more than 0.95 specifically, i.e., by inciting somebody to action The ratio of the total number of turns of the main winding 21 of auxiliary winding 30 and first is limited within above range, it is ensured that motor can be opened normally Dynamic and operation, it is ensured that the service behaviour of motor.

In some embodiments of the present utility model, with after the second main winding 22 is in parallel with the 3rd main winding 23 One main winding 21 is connected, and the total number of turns of auxiliary winding 30 is 0.35~0.85 with effective turn ratio of main winding 20.

In other words, the second main winding 22 and the 3rd main winding 23 are connected in parallel, so by main winding 20 first in connection Connected again with the first main winding 21 afterwards, and by the ratio range of the total number of turns of auxiliary winding 30 and the effective turn of main winding 20 It is limited between 0.35 to 0.85, i.e., the total number of turns of auxiliary winding 30/(number of turn of 21 the+the second main winding of the number of turn of the first main winding 22) is 0.35~0.85, specifically, 0.35,0.45,0.55,0.65,0.75,0.85 can be taken, by by the total number of turns of auxiliary winding 30 It is limited to the ratio range of the total number of turns of main winding 20 within above range, it is ensured that the normal startup and operation of motor.

In other embodiments of the present utility model, the second main winding 22 and the 3rd main winding 23 series connection after with First main winding 21 is connected, and the ratio of the total number of turns of auxiliary winding 30 and the effective turn of main winding 20 is 0.25~0.85.

That is, the second main winding 22 and the 3rd main winding 23 are connected in series, so by main winding 20 first in connection Carry out with the first main winding 21 in parallel, and the ratio range of the total number of turns of auxiliary winding 30 and the effective turn of main winding 20 is limited again afterwards Between 0.25 to 0.85, i.e., the total number of turns of auxiliary winding 30/(number of turn+the three of 21 the+the second main winding of the number of turn of the first main winding 22 master around Organize 23 numbers of turn) it is 0.25~0.85, specifically, 0.25,0.35,0.45,0.55,0.65,0.75,0.85 can be taken, by inciting somebody to action The ratio range of the total number of turns of auxiliary winding 30 and the total number of turns of main winding 20 is limited within above range, it is ensured that motor it is normal Start and run.

Wherein, when the big torque of motor is run, the first connector lug 211 is that, into the end of a thread, the second connector lug 212 is terminal, the It is connected after three connector lugs 221 and the connection of the 5th connector lug 231 with the second connector lug 212, the 4th connector lug 222 and the 6th connector lug 232 are connected with one in the 7th connector lug 31 and the 8th connector lug 32.

Specifically, as shown in figure 4, when motor needs larger torque operation (state 1), the Y1 of the second main winding 22 (the Three connector lugs 221) and Z1 (the 5th connector lug 231) connections of the 3rd main winding 23 after X2 (second again with the first main winding 21 Connector lug 212) connection, the Y2 (the 4th connector lug 222) and Z2 (the 6th connector lugs of the 3rd main winding 23 of the second main winding 22 232) the end of a thread M (the 7th connector lug 31) or N (the 8th connector lug 32) after short circuit again with auxiliary winding 30 are connected, due to Two main windings 22 and the 3rd main winding 23 after parallel connection with the first main winding 21 equivalent to connecting, the resistance and electricity of such main winding 20 Sense can decline, i.e., the reactance of whole main winding 20 reduces so that the electric current of main winding 20 is increased, and now motor has larger Output torque, for example, the torque capacity of motor now is 0.750Nm, when rated point takes 0.21Nm, the efficiency of motor is 83.2%；When rated point takes 0.16Nm, electric efficiency is 79.0%.

Further, when the small torque of motor is run, the first connector lug 211 is that, into the end of a thread, the second connector lug 212 is outlet Head, the second connector lug 212 is connected with the 3rd connector lug 221, and the 4th connector lug 222 is connected with the 5th connector lug 231, the 6th wiring First 232 are connected with one in the 7th connector lug 31 and the 8th connector lug 32.

Specifically, as shown in figure 5, when motor needs less torque operation (state 2), the X2 of the first main winding 21 The Y1 (the 3rd connector lug 221) or the Z1 (the 5th connector lug 231) of the 3rd main winding 23 of (the second connector lug 212) and the second winding It is connected, the Y2 (the 4th connector lug 222) of the second main winding 22 is connected with the Z1 (the 5th connector lug 231) of the 3rd main winding 23, The Z2 (the 6th connector lug 232) of 3rd main winding 23 and the one of the end of a thread M (the 7th connector lug 31) or N of auxiliary winding 30 (the 8th connector lug 32) is connected, and is so connected equivalent to the second main winding 22 with the coil of the 3rd main winding 23, i.e., this When the second main winding 22, the number of coils in the groove where the 3rd main winding 23 double, the electromagnetism number of wire turns of whole main winding 20 Increase, the magnetic loading of whole motor stator component declines, so that the whole part throttle characteristics reach of motor stator component, so may be used To ensure efficiency of the motor when being run compared with Smaller load (or torque), for example, now torque capacity is 0.520Nm to motor, Efficiency is 84.2% when rated point takes 0.21Nm；Efficiency is 82.10% when rated point takes 0.16Nm, and state 2 compares state 1, electric efficiency improves about 3%.

Motor in correlation technique can only be designed to one kind of 2 kinds of state 1 or state, i.e. motor once shaping, its Torque capacity and the efficiency of rated point do not have big change substantially, can only change electric efficiency by the change of peripheral electric capacity And torque.And the mode of connection easy switching of motor stator component of the present utility model, it is possible to achieve different working condition is cut Change, strong adaptability.

In addition, it is necessary to which explanation, Fig. 4 to Fig. 7 shows the winding connection of 4 kinds of running statuses of two kinds of steerings of motor Figure, remaining several state are repeated no more, when motor steering needs adjustment, it is only necessary to adjust the inlet-outlet line of auxiliary winding 30.Tool Body, when the steering of motor needs adjustment, it is only necessary to adjust the connector lug mode of connection of auxiliary winding 30, i.e., only need Adjust the M or N of auxiliary winding 30 and the Z2 (the 6th connector lug 232) of the 3rd main winding 23 connected mode, specifically, Z2 the (the 3rd 6th connector lug 232 of main winding 23) when being connected with N (the 8th connector lug 32 of auxiliary winding 30), motor is rotated forward, When Z2 (the 6th connector lug 232 of the 3rd main winding 23) is connected with M (the 7th connector lug 31 of auxiliary winding 30), motor occurs anti- To rotation.

In addition, when motor needs larger detent torque, the X2 (the second connector lug 212) of the first main winding 21 can directly with The connector lug M (the 7th connector lug 31) or N (the 8th connector lug 32) of auxiliary winding 30 are connected., can after the completion of electric motor starting By controlling the second main winding 22 and the 3rd main winding 23 accessing the first main winding 21, and make the main winding of motor stator component 20 overall number of turn increase, improved efficiency.

According to the motor of the utility model second aspect embodiment, including the motor stator component in above-described embodiment, by In having above-mentioned technique effect, therefore, implemented according to the utility model according to the motor stator component of the utility model embodiment Also the mode of connection easy switching with above-mentioned technique effect, the i.e. motor, operating efficiency are high, startability is good for the motor of example, Adapt to load variations ability strong.

Specifically, the first main winding 21, the second main winding 22 and the 3rd main winding 23 of the main winding 20 in motor are passed through Two connector lugs are respectively arranged, it is convenient by between the connector lug of the first main winding 21, the second main winding 22 and the 3rd main winding 23 It is attached, so that the convenient mode of connection between the first main winding 21, the second main winding 22 and the 3rd main winding 23 is carried out Switching, and then the different torque running statuses of the motor under same Power Supplies Condition are realized, meet when compressor load changes to electricity The demand of machine difference torque running status, the i.e. torque of motor can make corresponding change according to the load variations of compressor, can To ensure that motor can be with Effec-tive Function under worst cold case, it is ensured that the startability of motor, operating efficiency is improved.

Therefore, the winding connection mode easy switching of the motor, different working condition easy switchings, operating efficiency height, Startability is good, it is strong to adapt to load variations ability.

According to the compressor of the utility model third aspect embodiment, including the motor in above-described embodiment.Wherein, motor (or compressor) has drawn 7 connector lugs altogether, can by set in periphery relay or controller dock the end of a thread it Between switching be controlled, Fig. 4 to Fig. 6 show two kinds steering three state wiring diagram, state 1 or shape are needed in practice State 2, can carry out the adjustment of peripheral control circuits, recently as electronic component and control panel relay according to real needs Deng development, the cost of control panel relay declining year by year, and technology is also more and more ripe so that the constant speed of torque can drop in this kind The application of motor turns into a kind of possible, and the application aims to provide a kind of motor stator component, to adapt to many torque motors in future Application of the stator module on motor, compressor or on other products.

Compared with the constant speed compressor with 24 line embedding groove motors in correlation technique, in compressor of the present utility model Motor stator winding wiring be the new arrangement method designed on the basis of product in meeting correlation technique, easy switching, Work well.

It is therefore, real according to the utility model due to there is above-mentioned technique effect according to the motor of the utility model embodiment Apply the compressor of example also a variety of running status easy switchings with corresponding technique effect, the i.e. compressor, operating efficiency height, Startability is good, it is strong to adapt to load variations ability.

According to the motor stator component of the utility model embodiment and the motor with it, compressor other constitute and Operation is all for those of ordinary skills known, is not detailed herein.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom " " interior ", " outer ", " suitable The orientation or position relationship of the instruction such as hour hands ", " counterclockwise " are based on orientation shown in the drawings or position relationship, merely to just Described in description the utility model with simplified, rather than indicate or imply that the device or element of meaning must be with specific sides Position, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.

In addition, term " first ", " second " are only used for describing purpose, and it is not intended that indicating or implying relative importance Or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or Implicitly include one or more this feature.In description of the present utility model, " multiple " are meant that two or two More than, unless otherwise specifically defined.

In the utility model, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection ", " Gu It is fixed " etc. term should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；Can To be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, Ke Yishi The connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood as the case may be Concrete meaning in the utility model.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it " under " can directly be contacted including the first and second features, it is not direct contact but logical that can also include the first and second features The other characterisation contact crossed between them.Moreover, fisrt feature second feature " on ", " top " and " above " include the One feature is directly over second feature and oblique upper, or is merely representative of fisrt feature level height higher than second feature.First is special Levy second feature " under ", " lower section " and " below " include fisrt feature directly over second feature and oblique upper, or only Represent that fisrt feature level height is less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means to combine specific features, structure, material or the spy that the embodiment or example are described Point is contained at least one embodiment of the present utility model or example.In this manual, to the schematic table of above-mentioned term State and be not necessarily referring to identical embodiment or example.Moreover, specific features, structure, material or the feature of description can be Combined in an appropriate manner in any one or more embodiments or example.

Although embodiment of the present utility model has been shown and described above, it is to be understood that above-described embodiment is Exemplary, it is impossible to it is interpreted as to limitation of the present utility model, one of ordinary skill in the art is not departing from the utility model Principle and objective in the case of above-described embodiment can be changed in the range of the utility model, change, replace and Modification.

Claims (13)

1. a kind of motor stator component, it is characterised in that including：

Motor stator, the motor stator is formed by multiple silicon steel sheets are stacked, and line embedding groove is respectively equipped with each silicon steel sheet；

Main winding, the main winding around being located in the line embedding groove, the main winding include the first main winding, the second main winding and 3rd main winding, first main winding includes the first connector lug and the second connector lug, and second main winding connects including the 3rd The end of a thread and the 4th connector lug, the 3rd main winding include the 5th connector lug and the 6th connector lug；

Auxiliary winding, the auxiliary winding is around being located in the line embedding groove, and the auxiliary winding has the 7th connector lug and the 8th connector lug, The main winding and the auxiliary winding distinguish concentric coiling on the motor stator.

2. motor stator component according to claim 1, it is characterised in that second main winding and the 3rd master around The equal turn numbers of group.

3. motor stator component according to claim 1, it is characterised in that second main winding and the described 3rd master around The line footpath of the electromagnetic wire of group is equal or different.

4. motor stator component according to claim 1, it is characterised in that second main winding and the 3rd master around The line footpath of the electromagnetic wire of group is more than or equal to 0.6 times of the line footpath of the electromagnetic wire of first main winding.

5. motor stator component according to claim 1, it is characterised in that extraction the end of a thread of the main winding is 5 or 6 It is individual.

6. motor stator component according to claim 5, it is characterised in that extraction the end of a thread of the main winding is 5, institute The second connector lug is stated with the 3rd connector lug or the 5th connector lug to be connected.

7. motor stator component according to claim 1, it is characterised in that the line embedding groove is 24, the auxiliary winding Total number of turns ratio with first main winding is 0.30~0.95.

8. motor stator component according to claim 7, it is characterised in that second main winding and the described 3rd master around Connected after group is in parallel with first main winding, the ratio of the total number of turns of the auxiliary winding and the total number of turns of first main winding For 0.35~0.85.

9. motor stator component according to claim 7, it is characterised in that second main winding and the 3rd master around Connected after group series connection with first main winding, the ratio of the total number of turns of the auxiliary winding and the effective turn of first main winding It is worth for 0.25~0.85.

10. motor stator component according to claim 1, it is characterised in that during the big torque operation of the motor, described the One connector lug is that, into the end of a thread, second connector lug is terminal, after the 3rd connector lug and the 5th connector lug connection It is connected with second connector lug, the 4th connector lug and the 6th connector lug and the 7th connector lug and the described 8th One in connector lug is connected.

11. motor stator component according to claim 1, it is characterised in that during the small torque operation of the motor, described the One connector lug is that, into the end of a thread, second connector lug is terminal, and second connector lug is connected with the 3rd connector lug, institute State the 4th connector lug with the 5th connector lug to be connected, the 6th connector lug and the 7th connector lug and the 8th wiring One in head is connected.

12. a kind of motor, it is characterised in that including the motor stator component any one of claim 1-11.

13. a kind of compressor, it is characterised in that including the motor described in claim 12.