WIRING TERMINAL AND MOTOR COMPRISING THE SAME

Abstract

A wiring terminal and a motor including the wiring terminal are provided. The wiring terminal includes: a mounting subassembly adapted to embed in a slot of an end insulator of a motor, a connection subassembly configured to support a wire stock having a lead wire, and a winding subassembly configure to receive an enameled wire wound on the winding subassembly. The connection subassembly and the winding subassembly are disposed on the top surface of the mounting subassembly. The lead wire of the wire stock is electrically connected to the enameled wire wound on the winding subassembly.

Claims

1. A wiring terminal, comprising: a mounting subassembly, being adapted to embed in a slot of an end insulator of a motor; a connection subassembly, being configured to support a wire stock having a lead wire; and a winding subassembly, being configure to receive an enameled wire wound on the winding subassembly; wherein the connection subassembly and the winding subassembly are disposed on a top surface of the mounting subassembly; and the lead wire of the wire stock is electrically connected to the enameled wire wound on the winding subassembly.

2. The wiring terminal of claim 1, wherein the connection subassembly comprises at least one connecting sheet; the at least one connecting sheet protrudes outwards from the top surface of the mounting subassembly; the at least one connecting sheet comprises a notch formed by bending upwards and inwards a free end of the at least one connecting sheet; and the notch is adapted to clamp and squeeze the wire stock.

3. The wiring terminal of claim 2, wherein the winding subassembly comprises a winding post protruding from the top surface of the mounting subassembly.

4. The wiring terminal of claim 3, wherein the at least one connecting sheet is two in number; two connecting sheets are disposed side-by-side on the top surface of the mounting subassembly, and protrude in the same direction; and the winding post is located between the two connecting sheets, and protrudes in a direction away from the two connecting sheets.

5. The wiring terminal of claim 4, wherein a lower part of the winding post is bent inwards and forms a fixing member adapted to squeeze and fix the wire stock in the notch.

6. The wiring terminal of claim 3, wherein two sides of a free end of the winding post protrude to form a lug boss, and the winding post is T-shaped.

7. The wiring terminal of claim 4, wherein two sides of a free end of the winding post protrude to form a lug boss, and the winding post is T-shaped.

8. The wiring terminal of claim 5, wherein two sides of a free end of the winding post protrude to form a lug boss, and the winding post is T-shaped.

9. The wiring terminal of claim 1, wherein the mounting subassembly comprises a mounting sheet; one surface of the mounting sheet comprises a convex part, and the other surface of the mounting sheet is provided with a concave part; and the convex part is corresponding to the concave part.

10. The wiring terminal of claim 2, wherein the mounting subassembly comprises a mounting sheet; one surface of the mounting sheet comprises a convex part, and the other surface of the mounting sheet is provided with a concave part; and the convex part is corresponding to the concave part.

11. The wiring terminal of claim 3, wherein the mounting subassembly comprises a mounting sheet; one surface of the mounting sheet comprises a convex part, and the other surface of the mounting sheet is provided with a concave part; and the convex part is corresponding to the concave part.

12. The wiring terminal of claim 4, wherein the mounting subassembly comprises a mounting sheet; one surface of the mounting sheet comprises a convex part, and the other surface of the mounting sheet is provided with a concave part; and the convex part is corresponding to the concave part.

13. The wiring terminal of claim 5, wherein the mounting subassembly comprises a mounting sheet; one surface of the mounting sheet comprises a convex part, and the other surface of the mounting sheet is provided with a concave part; and the convex part is corresponding to the concave part.

14. A motor, comprising a wiring terminal of claim 1.

15. The motor of claim 14, comprising: a rotary shaft; a plastic-packaged stator, the plastic-packaged stator comprising a sleeve base, a stator core, an end insulator, coil windings, and a plastic-packaged body; and an external rotor comprising a chamber; wherein the plastic-packaged stator is disposed in the chamber of the external rotor; the end insulator is disposed on one end surface of the stator core; the coil windings are wound on the end insulator; the sleeve base is disposed in a shaft hole of the stator core; bearing housings are disposed on two ends of the sleeve base; a bearing is disposed in each bearing housing; the rotary shaft is disposed in the sleeve base, and two ends of the rotary shaft are supported by the bearing; the sleeve base, the stator core, the end insulator, and the coil windings are disposed in the plastic-packaged body; one end of the rotary shaft protrudes out from the sleeve base and is connected to the external rotor; and the end insulator is provided with a slot, and the wiring terminal is embedded in the slot.

16. The motor of claim 14, wherein the connection subassembly comprises at least one connecting sheet; the at least one connecting sheet protrudes outwards from the top surface of the mounting subassembly; the at least one connecting sheet comprises a notch formed by bending upwards and inwards a free end of the at least one connecting sheet; and the notch is adapted to clamp and squeeze the wire stock.

17. The motor of claim 16, wherein the winding subassembly comprises a winding post protruding from the top surface of the mounting subassembly.

18. The motor of claim 17, wherein the at least one connecting sheet is two in number; two connecting sheets are disposed side-by-side on the top surface of the mounting subassembly, and protrude in the same direction; and the winding post is located between the two connecting sheets, and protrudes in a direction away from the two connecting sheets.

19. The motor of claim 18, wherein a lower part of the winding post is bent inwards and forms a fixing member adapted to squeeze and fix the wire stock in the notch.

20. The wiring terminal of claim 19, wherein two sides of a free end of the winding post protrude to form a lug boss, and the winding post is T-shaped.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] The invention is described hereinbelow with reference to the accompanying drawings, in which:

[0023] FIG. 1 is a first schematic diagram showing a wiring on a wiring terminal in accordance with one embodiment of the invention;

[0024] FIG. 2 is a second schematic diagram showing a wiring on a wiring terminal in accordance with one embodiment of the invention;

[0025] FIG. 3 is a stereogram of a wiring terminal in accordance with one embodiment of the invention;

[0026] FIG. 4 is a stereogram of an external rotor motor in accordance with one embodiment of the invention;

[0027] FIG. 5 is a schematic diagram of an external rotor motor in accordance with one embodiment of the invention;

[0028] FIG. 6 is a first stereogram of a plastic-packaged stator in accordance with one embodiment of the invention; and

[0029] FIG. 7 is a second stereogram of a plastic-packaged stator in accordance with one embodiment of the invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0030] For further illustrating the invention, experiments detailing a wiring terminal and a motor comprising the same are described below. It should be noted that the following examples are intended to describe and not to limit the invention.

Example 1

[0031] As shown in FIGS. 1-3, a wiring terminal comprises a mounting subassembly 1, a connection subassembly 2, and a winding subassembly 3. The connection subassembly and the winding subassembly are disposed on the top surface of the mounting subassembly 1. The connection subassembly is adapted to clamp and squeeze a wire stock. An enameled wire is wound on the winding subassembly. As shown in FIGS. 1-2, the wire stock is squeezed by a notch 210, and the enameled wire is wound on a winding post 31. The connection subassembly 2 comprises at least one connecting sheet 21. The at least one connecting sheet protrudes outwards from the top surface of the mounting subassembly 1. The at least one connecting sheet 21 is bent upwards to form the notch 210. The notch is adapted to clamp and squeeze the wire stock. The winding subassembly 3 comprises the winding post 31. The winding post protrudes from the top surface of the mounting subassembly 1. The at least one connecting sheet 21 is two in number. Two connecting sheets 21 are disposed side-by-side on the top surface of the mounting subassembly 1, and protrude in the same direction. The winding post 31 is located between the two connecting sheets 21, and the winding post 31 protrudes in a direction away from the two connecting sheets. The lower part of the winding post 31 is bent inwards and forms a fixing member 311. The fixing member is adapted to squeeze and fix the wire stock in the notch 210. Two sides of a free end of the winding post 31 protrude to form a lug boss 312, and the winding post is T-shaped. The mounting subassembly 1 comprises a mounting sheet 11. One surface of the mounting sheet 11 comprises a convex part 111, and the other surface of the mounting sheet is provided with a concave part 112. The convex part 111 is corresponding to the concave part 112.

Example 2

[0032] As shown in FIGS. 1-7, an external rotor motor comprises a rotary shaft 4, a plastic-packaged stator 5, and an external rotor 6. The plastic-packaged stator 5 is disposed in a chamber 60 of the external rotor 6. The plastic-packaged stator 5 comprises a sleeve base 51, a stator core 52, an end insulator 53, coil windings 54, and a plastic-packaged body 55. The end insulator 53 is disposed on one end surface of the stator core 52. The coil windings 54 are wound on the end insulator 53. The sleeve base 51 is disposed in a shaft hole of the stator core 52. Bearing housings 510 are disposed on two ends of the sleeve base 51. A bearing 7 is disposed in each bearing housing 510. The rotary shaft 4 is disposed in the sleeve base 51, and two ends of the rotary shaft are supported by the bearing 7. The sleeve base 51, the stator core 52, the end insulator 53, and the coil windings 54 are disposed in the plastic-packaged body 55. One end of the rotary shaft 4 protrudes out from the sleeve base 51 and is connected to the external rotor 6. The end insulator 53 is provided with a slot 530, and a wiring terminal is embedded in the slot 530. The wiring terminal comprises a mounting subassembly 1, a connection subassembly 2, and a winding subassembly 3. The connection subassembly and the winding subassembly are disposed on the top surface of the mounting subassembly 1. The connection subassembly is adapted to clamp and squeeze a wire stock having a lead wire. An enameled wire is wound on the winding subassembly. The lead wire of the wire stock is electrically connected to the enameled wire wound on the winding subassembly. The mounting subassembly 1 is embedded in the slot 530.

[0033] The above embodiments are preferred embodiments of the invention, and the invention is not limited by the above embodiments. For instance, the wiring terminal can also be applied to an internal rotor motor which comprises an end insulator; the end insulator of the internal rotor motor comprises a slot, and the wiring terminal is embedded in the slot.

[0034] While particular embodiments of the invention have been shown and described, it will be obvious to those skilled in the art that changes and modifications may be made without departing from the invention in its broader aspects, and therefore, the aim in the appended claims is to cover all such changes and modifications as fall within the true spirit and scope of the invention.