CN204243922U - Motor and stator thereof - Google Patents

Abstract

The utility model discloses a kind of motor and stator thereof, described stator comprises: stator core and stator winding, stator core comprises multiple stator blocks that circumference is connected successively, each stator block comprises body and is connected to the stator tooth of body side, stator slot is limited between two adjacent stator tooths, connected pivotly by pivot structure between two adjacent at least partly stator blocks wherein in multiple stator block, the pivot protrusion that pivot structure comprises pivoting hole and coordinates with pivoting hole, pivoting hole is formed in one of them in two adjacent stator blocks, pivot protrusion is located on another in two adjacent stator blocks, stator winding is wound around on the stator teeth through stator slot.According to the stator for motor of the utility model embodiment, the structure of stator is simple.When stator is applied to motor, improve the utilance of the groove area of the stator slot of motor, thus improve the efficiency of motor.

Description

Motor and stator thereof

Technical field

The utility model relates to art of refrigeration units, especially relates to a kind of motor and stator thereof.

Background technology

Point out in correlation technique, in the motor adopting the stator core be made up of full circle shape stator punching, because motor winding adopts the mode concentrating coiling, the space being greater than wire winding needle width in stator slot, must be left, this reduces the copper factor of whole groove, be unfavorable for the lifting of electric efficiency.Meanwhile, stator needs to use wire winding needle coiling, or adopts shaping winding inserting, and stator all needs to be designed to open slot, and the width of usual open slot notch need design at more than 2mm, but width of rebate makes more greatly the vibrating noise of motor poor.

Utility model content

The utility model is intended at least to solve one of technical problem existed in prior art.For this reason, an object of the present utility model is to propose a kind of stator for motor, and the structure of described stator is simple.

Another object of the present utility model is to propose a kind of motor with said stator.

According to the stator for motor of the utility model first aspect embodiment, comprise: stator core, described stator core comprises multiple stator blocks that circumference is connected successively, each described stator block comprises body and is connected to the stator tooth of described body side, stator slot is limited between two adjacent described stator tooths, connected pivotly by pivot structure between two adjacent at least partly described stator blocks in wherein said multiple stator block, the pivot protrusion that described pivot structure comprises pivoting hole and coordinates with described pivoting hole, described pivoting hole is formed in one of them in described two adjacent described stator blocks, described pivot protrusion is located on another in described two adjacent described stator blocks, and stator winding, described stator winding is wrapped on described stator tooth through described stator slot.

According to the stator for motor of the utility model embodiment, the structure of stator is simple.When stator is applied to motor, improve the utilance of the groove area of the stator slot of motor, thus improve the efficiency of motor.

Alternatively, described pivoting hole is the arc-shaped hole of the one end of the described body of one of them be formed in described two adjacent described stator blocks, described pivot protrusion is the arc-shaped convex of the one end of another the described body be located in described two adjacent described stator blocks, the central angle of wherein said pivoting hole is greater than 180 °, and the central angle of described pivot protrusion is greater than the central angle of described pivoting hole.

Further, described multiple stator block described at least partly in one end of described body of each described stator block be formed with described pivoting hole and the other end is provided with described pivot protrusion, angle α is become between the line at the center of the line at the center of circle of wherein said pivoting hole and the center of described stator core and the center of circle of described pivot protrusion and described stator core, described angle α meets: α=360 °/Q, wherein, described Q is the sum of described stator block.

Preferably, angle α described in the centerline bisects of described stator tooth.

Further, the difference of the central angle of described pivot protrusion and the central angle of described pivoting hole is β, and described β meets: β=360 °/Q, wherein, described Q is the sum of described stator block.

Preferably, the radius of described pivot protrusion is R, and the distance between the center of circle of described pivot protrusion and the periphery wall of described stator core is L, and described R/L meets: 0.5≤R/L≤0.8.

Alternatively, have gap x between described pivot protrusion and described pivoting hole, described gap x meets: x≤0.1mm.

Alternatively, described stator block is N number of, described N number of stator block comprises N-2 the first stator block connected successively by described pivot structure, second stator block of one end of described N-2 the first stator block is connected to by described pivot structure, with the 3rd stator block of the other end being connected to described N-2 the first stator block by described pivot structure, one of them in the free end of the free end of the described body of wherein said second stator block and the described body of described 3rd stator block is formed with mating holes, another in the free end of the free end of the described body of described second stator block and the described body of described 3rd stator block is provided with the fitting projection coordinated with described mating holes, wherein, described N be more than or equal to 3 positive integer.

Further alternatively, described N meets further: N=3n, wherein, n be more than or equal to 2 positive integer.

Or alternatively, described pivoting hole is the arc-shaped hole of the one end of the described body of one of them be formed in described two adjacent described stator blocks, and described pivot protrusion is that the ellipse arc of the one end of another the described body be located in described two adjacent described stator blocks is protruding.

Alternatively, described stator slot is closed slot.

Or alternatively, described stator slot is open slot, and the width of the opening of described stator slot is less than 2mm.

According to the motor of the utility model second aspect embodiment, comprise the stator for motor according to the above-mentioned first aspect embodiment of the utility model.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the stereogram of the stator for motor according to the utility model embodiment;

Fig. 2 is the deployed condition stereogram of the stator shown in Fig. 1;

Fig. 3 is the stereogram being wound with a stator block of stator winding shown in Fig. 2;

Fig. 4 is the stereogram of the stator core shown in Fig. 1;

Fig. 5 is the deployed condition stereogram of the stator core shown in Fig. 4;

Fig. 6 is the stereogram of the stator block of shown in Fig. 4;

Fig. 7 is the front view of the stator core shown in Fig. 4;

Fig. 8 is the deployed condition schematic diagram of the stator core shown in Fig. 7;

Fig. 9 is the schematic diagram of the stator block of three shown in Fig. 7;

Figure 10 is the front view of the stator block of shown in Fig. 9;

Figure 11 is the schematic diagram of the first stator block shown in Fig. 1;

Figure 12 is the schematic diagram of the second stator block shown in Fig. 1;

Figure 13 is the schematic diagram of the 3rd stator block shown in Fig. 1.

Reference numeral:

100: stator;

1: stator core; 11: stator block;

111: body; 112: stator tooth; 113: stator slot;

1111: pivoting hole; 1112: pivot protrusion;

12: the first stator blocks; 13: the second stator blocks; 131: mating holes;

14: the three stator blocks; 141: fitting projection;

2: stator winding.

Embodiment

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.

In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", " second ", the feature of " the 3rd " can express or impliedly comprise one or more these features.In description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

Below with reference to Fig. 1-Figure 13, the stator 100 for motor (scheming not shown) according to the utility model embodiment is described.Wherein, stator 100 may be used in inner rotor motor.In description below the application, for stator 100 for being described in inner rotor motor.Certainly, those skilled in the art are appreciated that stator 100 can also be used in external rotor electric machine.

As shown in Figure 1, according to the stator 100 for motor of the utility model first aspect embodiment, stator core 1 and stator winding 2 is comprised.

With reference to Fig. 4, Fig. 7 composition graphs 8, stator core 1 comprises multiple stator blocks 11 that circumference is connected successively, and each stator block 11 comprises body 111 and is connected to the stator tooth 112 of body 111 side (downside such as, in Fig. 8).Specifically, as shown in Figure 8, body 111 extends roughly in left-right direction, stator tooth 112 is from the downside of body 111 to downward-extension, and body 111 development length is in the lateral direction greater than stator tooth 112 width in the lateral direction, to be suitable for limiting stator slot 113 between adjacent two stator tooths 112.Wherein, body 111 and stator tooth 112 preferably one-body molded, such as punch forming.Be appreciated that stator block 11 number can according to the difference of motor type adaptive change, the utility model does not make particular determination to this.

Wherein, connected pivotly by pivot structure between two the adjacent at least partly stator blocks 11 in above-mentioned multiple stator block 11.That is, in above-mentioned multiple stator block 11, can all be connected pivotly by pivot structure between two often adjacent stator blocks 11; Or, in above-mentioned multiple stator block 11, connected pivotly by pivot structure between two stator blocks 11 that also can only have part adjacent.

As shown in Figure 8 and Figure 9, the pivot protrusion 1112 that pivot structure comprises pivoting hole 1111 and coordinates with pivoting hole 1111, pivoting hole 1111 is formed in one of them in above-mentioned two adjacent stator blocks 11, and pivot protrusion 1112 is located on another in above-mentioned two adjacent stator blocks 11.Thus, be connected by pivot structure between two adjacent stator blocks 11, one of them stator block 11 in these two stator blocks 11 can rotate relative to another stator block 11, thus the size of stator slot 113 between two stator tooths 112 that can adjust these two stator blocks 11.Stator winding 2 is wrapped on stator tooth 112 through stator slot 113.

When coiling stator winding 2, such as, as shown in Figure 3, stator winding 2 can be wound on respectively on the stator tooth 112 of each stator block 11, after coiling, multiple stator block 11 circumferentially be connected successively; Certainly, as shown in Figure 2, also can first multiple stator block 11 be connected successively, then the relative position between two adjacent stator blocks 11 is adjusted by pivot structure, expand the area of stator slot 113, now can easily stator winding 2 be wound on stator tooth 112, after coiling, then two free ends of multiple stator block 11 be connected.Thus, eliminating in traditional motor is the space that wire winding needle stays in stator slot 113, adds the copper factor of stator slot 113, thus improves the efficiency of motor.

According to the stator 100 for motor of the utility model embodiment, the structure of stator 100 is simple.When stator 100 is applied to motor, improves the utilance of the groove area of the stator slot 113 of motor, thus improve the efficiency of motor.

According to an embodiment of the present utility model, as shown in Figure 9 and Figure 10, pivoting hole 1111 is for being formed in the arc-shaped hole of one end of the body 111 of one of them in above-mentioned two adjacent stator blocks 11, and pivot protrusion 1112 is for being located at the arc-shaped convex of one end of another the body 111 in above-mentioned two adjacent stator blocks 11.Thus, by pivoting hole 1111 and pivot protrusion 1112 are set to circular shape respectively, facilitate the processing and manufacturing of stator block 11, thus reduce cost.

Multiple stator block 11 above-mentioned at least partly in each stator block 11 body 111 one end (such as, right-hand member in Figure 10) be formed with pivoting hole 1111 and the other end of body 111 (left end such as, in Figure 10) is provided with pivot protrusion 1112.Such as, with reference to Figure 10, pivoting hole 1111 and pivot protrusion 1112 lay respectively at the length direction of the body 111 of stator block 11 (such as, left and right directions in Figure 10) two ends, pivoting hole 1111 is formed by a part for the right-hand member end face of body 111 is recessed left, and pivot protrusion 1112 is protruded left from the left end end face of body 111 and formed.Wherein, pivot protrusion 1112 is preferred and body 111 is one-body molded, to save the processing and manufacturing time.

The central angle of pivoting hole 1111 is greater than 180 °, now the circumferential lengths of the inwall of pivoting hole 1111 is greater than half full circle, ensure that pivot protrusion 1112 inserts pivoting hole 1111 along the axis of stator 100, and pivot protrusion 1112 vertical with the axial direction of stator 100 on can not deviate from from pivoting hole 1111, thus effectively ensure that the reliability of connection between two adjacent stator blocks 11.

The central angle of pivot protrusion 1112 is greater than the central angle of pivoting hole 1111, now the periphery circumferential lengths of pivot protrusion 1112 is greater than the circumferential lengths of the inwall of pivoting hole 1111, make pivot protrusion 1112 can rotate in pivoting hole 1111 like this, and the amplitude of rotating is the difference of the circumferential lengths of the periphery circumferential lengths of pivot protrusion 1112 and the inwall of pivoting hole 1111.

As shown in Figure 10, become angle α between the line at the center of the line at the center of circle of pivoting hole 1111 and the center of stator core 1 and the center of circle of pivot protrusion 1112 and stator core 1, angle α meets:

α＝360°/Q

Wherein, Q is the sum of stator block 11.

Preferably, the centerline bisects angle α of stator tooth 112.

As shown in Figure 9, the difference of the central angle of pivot protrusion 1112 and the central angle of pivoting hole 1111 is that β, β meet:

β＝360°/Q

Wherein, Q is the sum of stator block 11.Such as, as Q=9, β=40 °.Thus, 360 °/Q is set to by the difference β of the central angle by the central angle of pivot protrusion 1112 and pivoting hole 1111, can guarantee that pivot structure roughly becomes straight line after launching like this, stator winding 2 can be wrapped on stator tooth 112 through stator slot 113 more easily.

With reference to Fig. 9, when coiling stator winding 2, adjacent two stator blocks 11 can be relatively rotated to the position of two stator blocks 11 on right side, stator block 11 now and the stator block 11 on right side are roughly located along the same line, the groove area of the stator slot 113 limited between the stator tooth 112 of these two stator blocks 11 is larger, this stator slot 113 has the space being greater than wire winding needle width, and stator winding 2 can facilitate and successfully be wrapped on stator tooth 112 through stator slot 113; Stator winding 2 is wound on after on stator tooth 112, two stator blocks 11 can be relatively rotated to the position of two stator blocks 11 in left side, the groove area of the stator slot 113 limited between the stator tooth 112 of the stator block 11 now and the stator block 11 of centre is relatively little, thus improve the copper factor of stator slot 113, and then the efficiency of motor can be improved.

Preferably, as shown in Figure 10, the radius of pivot protrusion 1112 is R, and the distance between the center of circle of pivot protrusion 1112 and the periphery wall of stator core 1 is L, and wherein R/L meets: 0.5≤R/L≤0.8.The concrete numerical value of R/L specifically can be arranged according to actual requirement, and the utility model does not do concrete restriction to this.When the ratio of R and L excessive close to 1 time, exterior mechanical intensity is more weak, and the bonding strength between stator block 11 is not enough, after synthesis full circle stator core 1 circularity and beat and cannot ensure; When the ratio of R and L is too small, the loss of body 111 size is comparatively large, is unfavorable for the lifting of motor performance.Thus, while ensureing the bonding strength between stator block 11, the circularity of stator core 1 and beat and can obtain more effective accurate control, and be conducive to the performance of lifting motor.

Alternatively, have gap x between pivot protrusion 1112 and pivoting hole 1111, now the arc radius of pivot protrusion 1112 is slightly less than the arc radius of pivoting hole 1111, is matched in clearance between pivot protrusion 1112 and pivoting hole 1111, and its intermediate gap x meets:

x≤0.1mm

Thus, by the gap x between pivot protrusion 1112 and pivoting hole 1111 is set to be less than or equal to 0.1mm, pivot protrusion 1112 can be inserted in pivoting hole 1111 along the axis of stator 100, can around the center rotating of pivot structure between stator block 11, and due to the gap x between pivot protrusion 1112 and pivoting hole 1111 less, thus can ensure further between two adjacent stator blocks 11 connect reliability.

With reference to Fig. 7 and Fig. 8 composition graphs 11-Figure 13, stator block 11 is N number of, N number of stator block 11 comprises N-2 the first stator block 12,1 the second stator block 13 and 1 the 3rd stator block 14, connected successively by described pivot structure between N-2 the first stator block 12, second stator block 13 is connected to one end of N-2 the first stator block 12 (such as by pivot structure, right-hand member in Fig. 8), 3rd stator block 14 is connected to the other end (left end such as, in Fig. 8) of N-2 the first stator block 12 by pivot structure.Wherein, N be more than or equal to 3 positive integer.

The free end of the body 111 of the second stator block 13 (such as, right-hand member in Fig. 8 and Figure 12) and the 3rd stator block 14 body 111 free end in one of them on be formed with mating holes 131, another in the free end (left end such as, in Fig. 8 and Figure 13) of the free end of the body 111 of the second stator block 13 and the body 111 of the 3rd stator block 14 is provided with the fitting projection 141 coordinated with mating holes 131.Here, comprise following two kinds of situations: the free end of the body 111 of first, second stator block 13 is formed with mating holes 131, the free end of the body 111 of the 3rd stator block 14 is provided with the fitting projection 141 coordinated with mating holes 131; The second, the free end of the body 111 of the second stator block 13 is provided with fitting projection 141, and the free end of the body 111 of the 3rd stator block 14 is formed with the mating holes 131 coordinated with fitting projection 141.

As shown in Fig. 8, Figure 12 and Figure 13, mating holes 131 is formed in the right-hand member of the body 111 of the second stator block 13, mating holes 131 is formed from a part for the right-hand member end face of the body 111 of the second stator block 13 is recessed left, fitting projection 141 is located at the left end of the body 111 of the 3rd stator block 14, and fitting projection 141 extends left from the left end end face of the body 111 of the 3rd stator block 14.Thus, by coordinating of mating holes 131 and fitting projection 141, multiple stator block 11 can be surrounded a complete ring-type.

Alternatively, mating holes 131 is formed as triangular shaped substantially, and fitting projection 141 is formed as the shape suitable with the shape of mating holes 131, and now fitting projection 141 is also roughly triangle.Certainly, mating holes 131 and fitting projection 141 can also be arbitrary shapes, such as semicircle, half elliptic, half Long Circle or other polygon etc. in addition to the triangular.Be appreciated that the concrete shape of mating holes 131 and fitting projection 141 can require specific design according to practical set, the utility model does not do concrete restriction to this.

After mating holes 131 and fitting projection 141 are in place, can be fixed between the second stator block 13 and the 3rd stator block 14 by welding, bonding or alternate manner etc.

Wherein, N meets further:

N＝3n

Wherein, the positive integer for being more than or equal to 2.

As shown in figs. 4 and 7, n=3, now N=9.Be appreciated that stator block 11 number can according to the difference of the type of the motor of reality adaptive change, to meet actual requirement better.

According to another embodiment of the present utility model, pivoting hole 1111 is for being formed in the arc-shaped hole of one end of the body 111 of one of them in above-mentioned two adjacent stator blocks 11, and pivot protrusion 1112 is for being located at the ellipse arc projection (scheming not shown) of one end of another the body 111 in above-mentioned two adjacent stator blocks 11.Thus, by pivot protrusion 1112 is set to ellipse arc projection, ellipse arc projection can be rotated in arc-shaped hole, thus makes can relatively rotate between two stator blocks 11 being connected by pivot structure.

Motor synthesizes after a full circle and stator 100 be seated, and stator slot 113 is closed slot, and one end (lower end such as, in Fig. 8) of the body 111 away from correspondence of two now adjacent stator tooths 112 is contact.Thus, by stator slot 113 is set to closed slot, the vibrating noise of motor can be reduced.

Certainly, stator slot 113 can also be open slot, and the width of the opening of stator slot 113 is less than 2mm, and this opening is the distance between one end (lower end such as, in Fig. 8) of the body 111 away from correspondence of two adjacent stator tooths 112.Thus, the effect of the vibrating noise reducing motor can be played equally.

According to the stator 100 for motor of the utility model embodiment, effectively eliminating in stator slot 113 is the space that wire winding needle stays, and improves the utilance of the groove area of the stator slot 113 of motor, thus improves the efficiency of motor.And motor has easily manufactured, the full circle degree of motor internal-and external diameter side and beat and can obtain the advantage of more effective accurate control.

According to the motor of the utility model second aspect embodiment, comprise the stator 100 for motor according to the above-mentioned first aspect embodiment of the utility model.Such as, when motor is inner rotor motor, rotor is located in stator 100 rotationally.

According to the motor of the utility model embodiment, by adopting the stator 100 for motor of above-mentioned first aspect embodiment, motor manufacturing is simple, and efficiency is higher, and noise is less.

According to the manufacture process of the stator 100 for motor of the utility model third aspect embodiment, comprise the following steps:

S1, prepare N number of stator block 11 and insulating part, wherein N number of stator block 11 comprises N-2 the first stator block 12,1 the second stator block 13 and 1 the 3rd stator block 14, each stator block 11 comprises body 111 and is connected to the stator tooth 112 of body 111 side, wherein, N be more than or equal to 3 positive integer;

S2, to be connected between N-2 the first stator block 12 pivotly by pivot structure, second stator block 13 is connected to pivotly one end of N-2 the first stator block 12 by pivot structure, and the 3rd stator block 14 is connected to pivotly the other end of N-2 the first stator block 12 by pivot structure, wherein pivot structure comprises the pivoting hole 1111 of the one end being formed in body 111 and is located at the other end of body 111 and the pivot protrusion 1112 coordinated with pivoting hole 1111;

S3, installed after on stator block 11 in step s 2 by insulating part, be wrapped in by stator winding 2 on stator tooth 112, wherein insulating part is for isolating stator core 1 and stator winding 2; And

S4, the free end of the free end of the second stator block 13 and the 3rd stator block 14 to be fixed.

The shape of N-2 the first stator block 12 can be all identical.Alternatively, in step S1, stator block 11 is that stator 100 punching by being pressed into by steel plate stamping is stacked.Wherein, steel plate can be electromagnetic steel plate, and the thickness of stator 100 punching is below 0.5mm (comprising 0.5mm).

Such as, the manufacture process of stator 100 is as follows: first adopt ordinary electromagnetic steel plate stamping to be pressed into stator 100 punching, then stator 100 punching lamination is become stator block 11, as shown in Figure 6; Then an entirety is in turn connected between multiple stator block 11 by pivot structure, wherein, connected successively by described pivot structure between N-2 the first stator block 12, second stator block 13 is connected to one end of N-2 the first stator block 12 (such as by pivot structure, right-hand member in Fig. 8), 3rd stator block 14 is connected to the other end of N-2 the first stator block 12 (such as by pivot structure, left end in Fig. 8), as shown in Figure 5 and Figure 8, can be now that axle rotates relative to the center of circle of pivot structure between stator block 11, form hinge arrangement; Then on the multiple stator blocks 11 being in turn connected into one, coiling is carried out after installing insulating part, as shown in Figure 2; Finally the mating holes 131 of the second stator block 13 is coordinated to synthesize a full circle with the fitting projection 141 of the 3rd stator block 14, as shown in Figure 1.Firm in order to make the second stator block 13 be connected with the 3rd stator block 14, can also be fixed between the second stator block 13 and the 3rd stator block 14 by welding, bonding or alternate manner etc.

According to the manufacture process of the stator 100 for motor of the utility model embodiment, stator 100 manufactures simply, easy for installation.And, when the stator 100 after manufacture is applied to motor, improves the copper factor of stator slot 113, thus improve the efficiency of motor.

According to the manufacture process of the stator 100 for motor of the utility model fourth aspect embodiment, comprise the following steps:

S1, prepare N number of stator block 11 and insulating part, wherein N number of stator block 11 comprises N-2 the first stator block 12,1 the second stator block 13 and 1 the 3rd stator block 14, each stator block 11 comprises body 111 and is connected to the stator tooth 112 of body 111 side, wherein, N be more than or equal to 3 positive integer;

S2, be arranged on by insulating part after on stator block 11, be wrapped in by stator winding 2 on stator tooth 112, wherein insulating part is for isolating stator core 1 and stator winding 2;

S3, to be connected between the first stator block 12 of the N-2 in step S2 pivotly by pivot structure, second stator block 13 is connected to pivotly one end of N-2 the first stator block 12 by pivot structure, and the 3rd stator block 14 is connected to pivotly the other end of N-2 the first stator block 12 by pivot structure, wherein pivot structure comprises the pivoting hole 1111 of the one end being formed in body 111 and is located at the other end of body 111 and the pivot protrusion 1112 coordinated with pivoting hole 1111; And

S4, the free end of the free end of the second stator block 13 and the 3rd stator block 14 to be fixed.

The shape of N-2 the first stator block 12 can be all identical.Alternatively, in step S1, stator block 11 is that stator 100 punching by being pressed into by steel plate stamping is stacked.Wherein, steel plate can be electromagnetic steel plate, and the thickness of stator 100 punching is below 0.5mm (comprising 0.5mm).

Such as, the manufacture process of stator 100 is as follows: first adopt ordinary electromagnetic steel plate stamping to be pressed into stator 100 punching, then stator 100 punching lamination is become stator block 11, as shown in Figure 6, then on stator block 11, carry out coiling after installing insulating part, form the stator block 11 being wound with stator winding 2, as shown in Figure 3, then an entirety is in turn connected between the multiple stator blocks 11 being wound with stator winding 2 by pivot structure, wherein, connected successively by described pivot structure between N-2 the first stator block 12, second stator block 13 is connected to one end of N-2 the first stator block 12 (such as by pivot structure, right-hand member in Fig. 2), 3rd stator block 14 is connected to the other end of N-2 the first stator block 12 (such as by pivot structure, left end in Fig. 2), as shown in Figure 2, can be that axle rotates relative to the center of circle of pivot structure between the stator block 11 being now wound with stator winding 2, form hinge arrangement, finally the mating holes 131 of the second stator block 13 is coordinated to synthesize a full circle with the fitting projection 141 of the 3rd stator block 14, as shown in Figure 1.Firm in order to make the second stator block 13 be connected with the 3rd stator block 14, can also be fixed between the second stator block 13 and the 3rd stator block 14 by welding, bonding or alternate manner etc.

According to the manufacture process of the stator 100 for motor of the utility model embodiment, stator 100 manufactures simply, easy for installation.And, when the stator 100 after manufacture is applied to motor, improves the copper factor of stator slot 113, thus improve the efficiency of motor.

Be all known according to other configuration examples of the motor of the utility model embodiment to those skilled in the art as rotor etc. and operation, be not described in detail here.

In the description of this specification, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (13)

1. for a stator for motor, it is characterized in that, comprising:

Stator core, described stator core comprises multiple stator blocks that circumference is connected successively, each described stator block comprises body and is connected to the stator tooth of described body side, stator slot is limited between two adjacent described stator tooths, connected pivotly by pivot structure between two adjacent at least partly described stator blocks in wherein said multiple stator block, the pivot protrusion that described pivot structure comprises pivoting hole and coordinates with described pivoting hole, described pivoting hole is formed in one of them in described two adjacent described stator blocks, described pivot protrusion is located on another in described two adjacent described stator blocks, with

Stator winding, described stator winding is wrapped on described stator tooth through described stator slot.

2. the stator for motor according to claim 1, is characterized in that, described pivoting hole is the arc-shaped hole of the one end of the described body of one of them be formed in described two adjacent described stator blocks,

Described pivot protrusion is the arc-shaped convex of the one end of another the described body be located in described two adjacent described stator blocks, and the central angle of wherein said pivoting hole is greater than 180 °, and the central angle of described pivot protrusion is greater than the central angle of described pivoting hole.

3. the stator for motor according to claim 2, it is characterized in that, described multiple stator block described at least partly in one end of described body of each described stator block be formed with described pivoting hole and the other end is provided with described pivot protrusion, become angle α between the line at the center of the line at the center of circle of wherein said pivoting hole and the center of described stator core and the center of circle of described pivot protrusion and described stator core, described angle α meets:

α＝360°/Q

Wherein, described Q is the sum of described stator block.

4. the stator for motor according to claim 3, is characterized in that, angle α described in the centerline bisects of described stator tooth.

5. the stator for motor according to claim 2, is characterized in that, the difference of the central angle of described pivot protrusion and the central angle of described pivoting hole is β, and described β meets:

β＝360°/Q

Wherein, described Q is the sum of described stator block.

6. the stator for motor according to claim 2, is characterized in that, the radius of described pivot protrusion is R, and the distance between the center of circle of described pivot protrusion and the periphery wall of described stator core is L, and described R/L meets: 0.5≤R/L≤0.8.

7. the stator for motor according to claim 2, is characterized in that, has gap x between described pivot protrusion and described pivoting hole, and described gap x meets: x≤0.1mm.

8. the stator for motor according to claim 1, it is characterized in that, described stator block is N number of, described N number of stator block comprises N-2 the first stator block connected successively by described pivot structure, second stator block of one end of described N-2 the first stator block is connected to by described pivot structure, with the 3rd stator block of the other end being connected to described N-2 the first stator block by described pivot structure, one of them in the free end of the free end of the described body of wherein said second stator block and the described body of described 3rd stator block is formed with mating holes, another in the free end of the free end of the described body of described second stator block and the described body of described 3rd stator block is provided with the fitting projection coordinated with described mating holes, wherein, described N be more than or equal to 3 positive integer.

9. the stator for motor according to claim 8, is characterized in that, described N meets further: N=3n, wherein, n be more than or equal to 2 positive integer.

10. the stator for motor according to claim 1, it is characterized in that, described pivoting hole is the arc-shaped hole of the one end of the described body of one of them be formed in described two adjacent described stator blocks, and described pivot protrusion is that the ellipse arc of the one end of another the described body be located in described two adjacent described stator blocks is protruding.

11. stators for motor according to any one of claim 1-10, it is characterized in that, described stator slot is closed slot.

12. stators for motor according to any one of claim 1-10, it is characterized in that, described stator slot is open slot, and the width of the opening of described stator slot is less than 2mm.

13. 1 kinds of motors, is characterized in that, comprise the stator for motor according to any one of claim 1-12.