CN111864929A - Combined stator core, motor, compressor and air conditioner - Google Patents

Abstract

The invention provides a combined stator core, a motor, a compressor and an air conditioner, wherein the stator core comprises a first core punching sheet group and a second core punching sheet group which are arranged along the axial direction of the stator core, the first core punching sheet group comprises a plurality of spliced first punching sheets, the second core punching sheet group comprises a plurality of spliced second punching sheets, the first punching sheets and the second punching sheets are connected through a hinge point, the stator core after hinge combination is provided with an annular yoke part and a tooth part, a yoke part area corresponding to the tooth part is arranged on the annular yoke part along the radial outward direction of the stator core, and the hinge point is arranged in the yoke part area. According to the invention, the hinge point of the punching sheet is arranged in the annular yoke part region corresponding to the tooth part, so that the structural strength of the hinged combined stator core is improved, the magnetic circuit influence on the stator yoke part is reduced, the coaxiality of the stator core is favorably improved, the air gap magnetic field harmonic wave is reduced, the motor noise is reduced, and the motor efficiency is improved.

Description

Combined stator core, motor, compressor and air conditioner

Technical Field

The invention belongs to the technical field of motor manufacturing, and particularly relates to a combined stator core, a motor, a compressor and an air conditioner.

Background

Environmental protection and energy conservation are important concerns for social sustainable development. Along with the improvement of the quality of life, the popularity of the refrigeration air conditioner is increased, the power consumption of the refrigeration air conditioner accounts for 20% of the annual power consumption on the national scale according to statistics, and the compressor is used as an important component of the refrigeration air conditioner, the power consumption proportion is the largest, so that the reduction of the loss of the motor in the compressor and the improvement of the efficiency become key problems. Further promote the full rate of motor groove, help reducing winding resistance, and then reduce motor copper loss, improve motor efficiency.

For a conventional stator core with a full-circle structure, a concentrated winding stator is adopted, and a winding nozzle needs to extend into a stator slot for winding during winding, so that the winding nozzle needs to occupy a part of the slot area, and the slot fullness rate of winding is limited. At present, the form of a stator core block is commonly adopted in the industry, each iron core block is spliced into a whole circle after being wound with wires, and the groove area occupied by a winding nozzle is eliminated. But the current blocking iron core structure also has a lot of problems, for example, the magnetic field loss at the splicing part is large, so that the motor efficiency is reduced to a certain extent, meanwhile, the rigidity at the splicing part is low, the vibration noise of the stator is deteriorated, the coaxiality of inner circles of the spliced stator is poor, the air gap magnetic field harmonic wave is increased, and the vibration noise of the motor is deteriorated.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to provide a combined stator core, a motor, a compressor, and an air conditioner, wherein the hinge point of the punching sheet is arranged in the annular yoke region corresponding to the tooth portion, so as to improve the structural strength of the hinged combined stator core, reduce the magnetic circuit influence on the stator yoke portion, facilitate the improvement of the coaxiality of the stator core, reduce the air gap magnetic field harmonic, reduce the motor noise, and improve the motor efficiency.

In order to solve the problems, the invention provides a combined stator core, which comprises a first core punching sheet group and a second core punching sheet group which are arranged along the axial direction of the stator core, wherein the first core punching sheet group comprises a plurality of spliced first punching sheets, the second core punching sheet group comprises a plurality of spliced second punching sheets, the first punching sheets and the second punching sheets are connected through a hinge point, the stator core after hinge combination is provided with an annular yoke part and a tooth part, a yoke part area corresponding to the tooth part is arranged on the annular yoke part along the radial outward direction of the stator core, and the hinge point is arranged in the yoke part area.

Preferably, the diameter of the outer circle of the stator core is D1, the hinge point is a circular groove or a circular through hole, the center of the hinge point is located on a distribution circle, the diameter of the distribution circle is D2, a circle passing through the junction of the tooth portion and the annular yoke portion is a tooth portion boundary circle, the diameter of the tooth portion boundary circle is D5, the distribution circle, the tooth portion boundary circle and the outer circle of the stator core are concentric, and D5 < D2 < D1.

Preferably, the center of the hinge point is located on the central symmetry line of the tooth portion.

Preferably, a second splicing line between any two adjacent second laminations in the second iron core lamination group comprises a second splicing arc-shaped line segment, the curvature center of the second splicing arc-shaped line segment is overlapped with the circle center of the hinge point, the curvature radius of the second splicing arc-shaped line segment is D4/2, and D2-D4/2 is greater than D5.

Preferably, the tooth portion includes a winding post, any plane perpendicular to the axial line of the stator core is a first projection plane, the projection circumferential width of the winding post on the first projection plane is L1, and D4 ≤ L1.

Preferably, the annular yoke part between two adjacent tooth parts has a concave groove recessed towards the outside of the stator core in the radial direction of the stator core, the minimum thickness between the groove bottom wall of the concave groove and the outer peripheral wall of the stator core is L2, and L2 is more than or equal to 0.75-L1.

Preferably, the diameter of the hinge point is D3, and D3 is not less than 1mm and not more than 0.5. L2.

Preferably, on the first projection plane, the projection of the concave groove is a first straight line segment and a second straight line segment which are intersected, the first straight line segment and the second straight line segment are mirror images of each other, and an included angle a3 is formed between the first straight line segment and/or the second straight line segment and the circumferential side wall of the winding post which is adjacent to the first straight line segment, and 80 degrees < a3<100 degrees.

Preferably, the second splicing line further includes a second splicing straight line segment, one end of the second splicing straight line segment, which is opposite to the outer side of the stator core, is tangent to the second splicing arc line segment, and one end of the second splicing straight line segment, which is opposite to the inner side of the stator core, is located on the tooth part boundary circle.

Preferably, the second straight splicing line segment forms an included angle a1 with the central symmetry line, 90 ° < a1<180 °.

Preferably, a first splicing line between any two adjacent first punching sheets in the first iron core punching sheet group comprises a first splicing arc line segment, and a curvature center of the first splicing arc line segment coincides with a circle center of the hinge point.

Preferably, the first splicing line further comprises a first splicing straight line segment, and the second splicing straight line segment forms an included angle a2 with the central symmetry line, 90 degrees < a2<180 degrees and a1< a 2.

Preferably, the first punching sheet is provided with a first yoke part split corresponding to the annular yoke and a first tooth part, the first tooth part and the first yoke part split form a reverse 7 shape, the second punching sheet is provided with a first yoke part split corresponding to the annular yoke and a second tooth part, the second tooth part and the second yoke part split form a 7 shape, and the first punching sheet and the second punching sheet are mirror images of each other.

The invention further provides a motor which comprises the stator core, and the stator core is the combined stator core.

The invention also provides a compressor which comprises the motor.

The invention also provides an air conditioner which comprises the compressor.

According to the combined stator core, the motor, the compressor and the air conditioner, the hinge point is arranged in the yoke part region corresponding to the tooth part, so that the adverse effect of the hinge point on a magnetic circuit of the stator yoke part can be avoided to the greatest extent, meanwhile, the hinge point is arranged in the region, the structural strength of the combined stator core can be improved, particularly, the radial small-size position of the yoke part between the two tooth parts can be avoided, when the stator core and an external shell are assembled in an interference fit mode, the deformation of the stator core after stress is reduced due to the improvement of the structural strength, the coaxiality of the stator core is improved, the air gap magnetic field harmonic wave is reduced, the motor noise is reduced, and the motor efficiency is improved.

Drawings

Fig. 1 is a schematic perspective view of a combined stator core according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first core punching sheet set in fig. 1;

fig. 3 is a schematic structural diagram of the first stamped steel in fig. 2;

fig. 4 is a schematic structural diagram of a second core punching sheet set in fig. 1;

FIG. 5 is a schematic view of a portion of the enlarged structure at A in FIG. 4;

fig. 6 is a schematic structural diagram of the second stamped steel in fig. 4;

fig. 7 is a schematic structural diagram of the first iron core punching set in fig. 2 in a rotationally unfolded state;

fig. 8 is a schematic structural view of the second core punching sheet set in fig. 4 in a rotating and unfolding state;

FIG. 9 is a comparison of motor efficiency at different rotational speeds (operating frequencies) for a motor employing the present invention versus a prior art motor;

fig. 10 is a comparison of the noise in 1000Hz at different rotational speeds (operating frequencies) of a compressor using the solution of the invention and a compressor of the prior art.

The reference numerals are represented as:

1. a first iron core punching sheet group; 11. a first punching sheet; 2. a second iron core punching sheet group; 21. a second punching sheet; 3. a hinge point; 41. a second spliced arc segment; 42. a second splicing straight line section; 51. a first splicing arc segment; 52. a first splicing straight line section; 100. an annular yoke; 1001. a recessed groove; 101. a tooth portion; 1011. and (4) winding the wire column.

Detailed Description

With reference to fig. 1 to 10 in combination, according to an embodiment of the present invention, a combined stator core is provided, which includes a first core punch set 1 and a second core punch set 2 that are arranged along an axial direction of the stator core, where the first core punch set 1 includes a plurality of spliced first punch pieces 11, the second core punch set 2 includes a plurality of spliced second punch pieces 21, the first punch pieces 11 and the second punch pieces 22 are connected through a hinge point 3, the stator core after being hinged and combined has an annular yoke portion 100 and a tooth portion 101, a yoke portion area corresponding to the tooth portion 101 is formed on the annular yoke portion 100 along a radial outward direction of the stator core, and the hinge point 3 is disposed in the yoke portion area. It can be understood that the first core segment groups 1 and the second core segment groups 2 are alternately arranged in the axial direction of the stator core to form a stack, so as to form the stator core, the formed stator core integrally has the annular yoke 100 and the tooth 101, the first segment 11 has a first yoke part division body 111 and a first tooth 112 corresponding to the annular yoke 100, the first tooth 112 and the first yoke part division body 111 form a reverse 7 shape, the second segment 21 has a first yoke part division body 211 and a second tooth 212 corresponding to the annular yoke 100, the second tooth 212 and the second yoke part division body 211 form a 7 shape, and the first segment 11 and the second segment 21 are mirror images of each other. The yoke region corresponding to the tooth 101 is specifically a corresponding region of the annular yoke 100 corresponding to the tooth root of the winding post 1011 as shown in fig. 2 and 4, where the magnetic flux is relatively small when there is magnetic force lines in the stator core, and the arrangement of the hinge point 3 in this region can maximally avoid the adverse effect on the magnetic circuit of the stator yoke due to the arrangement of the hinge point, and meanwhile, the arrangement of the hinge point 3 in this region can also improve the structural strength of the hinge combined stator core, specifically because this region can avoid the radial small-size position of the yoke between two teeth, when the stator core is assembled with the outer housing by interference fit, the deformation of the stator core after being stressed is smaller due to the improvement of the structural strength, which is favorable for improving the coaxiality of the stator core and reducing air-gap magnetic field harmonics, reduce motor noise and promote motor efficiency.

Further, the diameter of the outer circle of the stator core is D1, the hinge point 3 is a circular groove or a circular through hole, the center of the hinge point 3 is located on a distribution circle, the diameter of the distribution circle is D2, a circle passing through the boundary between the tooth 101 and the annular yoke 100 is a tooth boundary circle, the diameter of the tooth boundary circle is D5, the distribution circle and the tooth boundary circle are concentric with the outer circle of the stator core, D5 < D2 < D1, the setting position of the hinge point 3 is limited outside the tooth root position of the tooth 101, even if the hinge point is completely located on the annular yoke 100 and does not occupy the tooth 101, the adverse effect on the magnetic circuit is prevented. Preferably, the center of the hinge point 3 is located on the central symmetry line of the tooth portion 101, so that the laminations of the first core lamination group 1 and/or the second core lamination group 2 are more stackable, and the stator core is more symmetrical in structure after assembly.

As shown in fig. 4, a second splicing line between any two adjacent second laminations 21 in the second core lamination group 2 includes a second splicing arc segment 41, a curvature center of the second splicing arc segment 41 coincides with a circle center of the hinge point 3, a curvature radius of the second splicing arc segment 41 is D4/2, D2-D4/2 > D5, the second splicing line is essentially defined by an outline shape of an adjacent position of the two second laminations 21, and by defining a size relationship of D2, D4, and D5, the position of the second splicing arc segment 41 intruding into the tooth portion 101 can be prevented, and adverse effects of a splicing line gap on magnetic flux can be reduced. Meanwhile, it can be understood that the second splicing arc segment 41 can ensure smooth hinging and can ensure the minimum splicing gap. Specifically, the tooth 101 (including the winding post 1011, and any plane perpendicular to the axial line of the stator core is a first projection plane, and the circumferential width of the projection of the winding post 1011 on the first projection plane is L1, and D4 is not less than L1.

In the radial direction of the stator core, the annular yoke part 100 between two adjacent tooth parts 101 is provided with a concave groove 1001 which is concave towards the outer side of the stator core, the minimum thickness between the groove bottom wall of the concave groove 1001 and the outer peripheral wall of the stator core is L2, and L2 is not less than 0.75-L1, so that the yoke part magnetic density is prevented from being excessively saturated to influence the torque output of the motor. At this time, the diameter of the corresponding hinge point 3 is D3, D3 is larger than or equal to 1mm and is smaller than or equal to 0.5. L2, so that the hinge point is ensured to have higher hinge strength, and the magnetic field is prevented from being greatly influenced by the overlarge hinge point.

On the first projection plane, the projections of the concave grooves 1001 are a first straight line segment and a second straight line segment which are intersected, the first straight line segment and the second straight line segment are mirror images of each other, an included angle a3 is formed between the first straight line segment and/or the second straight line segment and the circumferential side wall of the winding post 1011 which is adjacent to the first straight line segment, 80 degrees < a3<100 degrees are formed between the first straight line segment and/or the second straight line segment and the circumferential side wall of the winding post 1011, so that high-speed winding of the stator core in a spreading state can be guaranteed.

The second splicing line further comprises a second splicing straight line section 42, one end, opposite to the outer side of the stator core, of the second splicing straight line section 42 is tangent to the second splicing arc line section 41, and one end, opposite to the inner side of the stator core, of the second splicing straight line section 42 is located on the tooth part boundary circle, so that the second splicing line is guaranteed not to invade the tooth part 101 (winding post 1011) integrally, and adverse effects of the splicing line on a magnetic circuit are reduced to the maximum extent. Furthermore, an included angle a1 is formed between the second splicing straight line segment 42 and the central symmetry line, an included angle a1 is 90 degrees to 180 degrees, the second splicing line is not beyond the tooth part 101, the connecting part of the tooth part and the yoke part on each punching sheet is not too narrow, and the structural strength of each punching sheet is guaranteed.

Similar to the second iron core punching sheet group 2, a first splicing line between any two adjacent first punching sheets 11 in the first iron core punching sheet group 1 includes a first splicing arc line segment 51, and a curvature center of the first splicing arc line segment 51 coincides with a circle center of the hinge point 3. The first splicing line further comprises a first splicing straight line segment 52, one end of the first splicing straight line segment 52, which is opposite to the outer side of the stator core, is tangent to the first splicing arc line segment 51, one end of the first splicing straight line segment 52, which is opposite to the inner side of the stator core, is on the boundary circle of the teeth, and an included angle a2, 90 degrees < a2<180 degrees and a1< a2, is formed between the second splicing straight line segment 42 and the central symmetry line.

The first iron core punching sheet group 1 and the second iron core punching sheet group can be stacked and pressed into a plurality of pieces along the axial direction of the stator iron core, the axial thickness t of each single punching sheet is less than or equal to 0.5mm, and the preferable punching sheet material is non-oriented cold-rolled electrical steel.

The hinge point 3 can be, for example, a circular boss on the upper stamped sheet and a circular groove (actually, the circular boss is a convex point punched at a preset position of the stamped sheet) on the lower stamped sheet, the circular boss is embedded in the circular groove to form a rotatable structure, when the diameter of the hinge point 3 is large enough, the corresponding convex point can be directly punched and sheared to form uniform through holes, and at the moment, the through holes can be riveted through non-magnetic rivets.

In order to verify the practical effect of the combined stator core adopting the technical scheme of the invention, the inventor carries out experimental tests on the motor efficiency of the motor adopting the combined stator core and the noise in 1000Hz of the compressor adopting the combined stator core, and the results are respectively shown in figures 9 and 10. As can be seen from fig. 9, the motor efficiency of the motor adopting the technical scheme of the invention is obviously improved under the operating frequencies of 30Hz, 60Hz and 90 Hz; as can be seen from FIG. 10, the noise in the compressor at 30Hz, 60Hz and 90Hz within 1000Hz is significantly reduced.

According to an embodiment of the present invention, there is also provided a motor, including a stator core, where the stator core is the above-mentioned combined stator core.

According to an embodiment of the present invention, there is also provided a compressor including the motor described above.

According to an embodiment of the invention, an air conditioner is also provided, which comprises the compressor.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention. The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several improvements and modifications can be made without departing from the technical principle of the present invention, and these improvements and modifications should also be regarded as the protection scope of the present invention.

Claims (16)

1. The utility model provides a modular stator core, its characterized in that includes the edge first iron core towards piece group (1), second iron core towards piece group (2) that the stator core axial was arranged, first iron core towards piece group (1) includes first towards piece (11) of a plurality of concatenations, second iron core towards piece group (2) include second towards piece (21) of a plurality of concatenations, first towards piece (11) with connect through pin joint (3) between second towards piece (22), stator core after the articulated combination has annular yoke portion (100) and tooth portion (101), follows stator core's radial outside direction, have on annular yoke portion (100) with the yoke portion region that tooth portion (101) correspond, pin joint (3) set up in the yoke portion region.

2. The stator core according to claim 1, wherein the diameter of the outer circle of the stator core is D1, the hinge point (3) is a circular groove or a circular through hole, the center of the hinge point (3) is located on a distribution circle, the diameter of the distribution circle is D2, a circle passing through the intersection of the tooth portion (101) and the annular yoke portion (100) is a tooth portion boundary circle, the diameter of the tooth portion boundary circle is D5, the distribution circle, the tooth portion boundary circle and the outer circle of the stator core are concentric, and D5 < D2 < D1.

3. Stator core according to claim 2, characterized in that the centre of the hinge point (3) is on the central symmetry line of the tooth (101).

4. The stator core according to claim 3, wherein a second splicing line between any two adjacent second laminations (21) in the second core lamination group (2) comprises a second splicing arc segment (41), the center of curvature of the second splicing arc segment (41) coincides with the center of the hinge point (3), and the radius of curvature of the second splicing arc segment (41) is D4/2, D2-D4/2 > D5.

5. The stator core according to claim 4, wherein the tooth (101) includes a winding post (1011), any plane perpendicular to the axial line of the stator core is a first projection plane, and the projection of the winding post (1011) on the first projection plane has a circumferential width of L1, D4 ≦ L1.

6. The stator core according to claim 5, characterized in that the annular yoke portion (100) between two adjacent teeth (101) has a recessed slot (1001) recessed toward the outside of the stator core in the radial direction of the stator core, and the minimum thickness between the slot bottom wall of the recessed slot (1001) and the outer peripheral wall of the stator core is L2, L2 ≧ 0.75-L1.

7. Stator core according to claim 6, characterized in that the diameter of the hinge point (3) is D3, 1 mm. ltoreq. D3. ltoreq.0.5-L2.

8. Stator core according to claim 6, characterized in that on the first projection plane, the recess slot (1001) is projected as intersecting first and second straight segments, which are mirror images of each other, and that the first and/or second straight segments form an angle a3 with the circumferential side wall of the winding leg (1011) immediately adjacent thereto, 80 ° < a3<100 °.

9. The stator core according to claim 4, wherein the second splicing line further comprises a second splicing straight line segment (42), the second splicing straight line segment (42) is tangent to the second splicing arc segment (41) relative to an outer end of the stator core, and the second splicing straight line segment (42) is on the tooth boundary circle relative to an inner end of the stator core.

10. The stator core according to claim 9, characterized in that the second segment (42) forms an angle a1 with the central symmetry line, 90 ° < a1<180 °.

11. The stator core according to claim 10, wherein a first splicing line between any two adjacent first tooth laminations (11) in the first core lamination group (1) comprises a first splicing arc segment (51), and a curvature center of the first splicing arc segment (51) coincides with a circle center of the hinge point (3).

12. The stator core of claim 11, wherein the first splicing line further comprises a first splicing straight line segment (52), and the second splicing straight line segment (42) forms an included angle a2 with the central symmetry line, 90 ° < a2<180 ° and a1< a 2.

13. The stator core according to claim 1, wherein the first punching sheet (11) has a first yoke part division body (111) corresponding to the annular yoke part (100) and a first tooth part (112), the first tooth part (112) forms a reverse 7 shape with the first yoke part division body (111), the second punching sheet (21) has a first yoke part division body (211) corresponding to the annular yoke part (100) and a second tooth part (212), the second tooth part (212) forms a 7 shape with the second yoke part division body (211), and the first punching sheet (11) and the second punching sheet (21) are mirror images of each other.

14. An electrical machine comprising a stator core, wherein the stator core is a composite stator core as claimed in any one of claims 1 to 13.

15. A compressor comprising an electric motor, wherein the electric motor is the electric motor of claim 14.

16. An air conditioner comprising a compressor, wherein said compressor is as recited in claim 15.

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