CN110165849A - A kind of novel electric machine winding method - Google Patents

Abstract

The invention discloses a kind of novel electric machine winding methods, include the following steps: S1: A1 inlet wires since 1 slot of label of line packet, if outlet after leap main slot, line packet, which is cut, is used as A1 tail；S2: line packet A2 is from labelSlot starts inlet wire, if outlet after leap main slot, line packet, which is cut, is used as A2 tail；S3: B1 inlet wires since label M slot of line packet, if outlet after leap main slot, line packet, which is cut, is used as B1 tail；S4: line packet B2 is from labelSlot starts inlet wire, if outlet after leap main slot, line packet, which is cut, is used as B2 tail；S5: C1 inlet wires since label N slot of line packet, if outlet after leap main slot, line packet, which is cut, is used as C1 tail；S6: line packet C2 is from labelSlot starts inlet wire, if outlet after leap main slot, line packet, which is cut, is used as C2 tail；S7: each line packet is connected end to end.

Description

A kind of novel electric machine winding method

Technical field

The present invention relates to technical field of motors, particularly relate to a kind of novel electric machine winding method.

Background technique

With the development of national economy, motor has been widely applied in every field.But motor in the prior art, Especially magneto, winding (A phase, B phase, C phase) is typically all that disposable winding is uninterrupted, so that the winding harmonic wave of motor Higher with winding resistance, whole efficiency is lower, and the comprehensive energy consumption in use process is higher, it is difficult to meet the present market demand.

Therefore, the present inventor needs to conceive a kind of new technology to improve its problem.

Summary of the invention

In order to solve the above technical problems, the present invention provides a kind of novel electric machine winding methods.

The technical scheme is that

A kind of novel electric machine winding method, includes the following steps:

S1: A1 inlet wires since 1 slot of label of line packet, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as A1 tail；Wherein the first direction is direction clockwise or counter-clockwise；

S2: line packet A2 is from labelSlot starts inlet wire, if going out after crossing over main slot along a first direction in the circumferential Line, line packet, which is cut, is used as A2 tail, and wherein Z is number of slots；

S3: B1 inlet wires since label M slot of line packet, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as B1 tail；

S4: line packet B2 is from labelSlot starts inlet wire, if after crossing over main slot along a first direction in the circumferential Outlet, line packet, which is cut, is used as B2 tail；

S5: C1 inlet wires since label N slot of line packet, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as C1 tail；

S6: line packet C2 is from labelSlot starts inlet wire, if after crossing over main slot along a first direction in the circumferential Outlet, line packet, which is cut, is used as C2 tail, wherein

S7: each line packet is connected end to end.

Preferably, the step S7 is specifically included:

S711: A1 and A2 are linked together, A1 tail and A2 tail are linked together；

S712: B1 and B2 are linked together, B1 tail and B2 tail are linked together；

S713: C1 and C2 are linked together, C1 tail and C2 tail are linked together；

S714: A1 tail, A2 tail, B1 tail, B2 tail, C1 tail and C2 tail are linked together；

S715: A1, B2, C1 are drawn as lead-out wire.

Preferably, the step S7 is specifically included:

S721: A1 tail and A2 are linked together；

S722: B1 tail and B2 are linked together；

S723: C1 tail and C2 are linked together；

S724: A2 tail, B2 tail and C2 tail are linked together；

S725: A1, B2, C1 are drawn as lead-out wire.

Preferably, the connection type in the step S7 is welding.

Preferably, the integral multiple that the number of slots Z is 6.

Preferably, Z=48, M=5, N=13.

By adopting the above technical scheme, the present invention include at least it is following the utility model has the advantages that

1. novel electric machine winding method of the present invention can reduce winding electricity on existing Process ba- sis Resistance obtains bigger torque, reduces machine winding harmonic wave, improves efficiency.

2. novel electric machine winding method of the present invention realizes the change of no-load speed on the basis of a power supply Change, motor obtains two base rpms, so that its comprehensive energy consumption in total power use process reduces.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of novel electric machine winding method of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

The novel electric machine winding method of one kind of the present invention, includes the following steps:

S1: A1 inlet wires since 1 slot of label of line packet, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as A1 tail；Wherein the first direction is direction clockwise or counter-clockwise；

S2: line packet A2 is from labelSlot starts inlet wire, if going out after crossing over main slot along a first direction in the circumferential Line, line packet, which is cut, is used as A2 tail, and wherein Z is number of slots；

S3: B1 inlet wires since label M slot of line packet, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as B1 tail；

S4: line packet B2 is from labelSlot starts inlet wire, if after crossing over main slot along a first direction in the circumferential Outlet, line packet, which is cut, is used as B2 tail；

S5: C1 inlet wires since label N slot of line packet, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as C1 tail；

S6: line packet C2 is from labelSlot starts inlet wire, if after crossing over main slot along a first direction in the circumferential Outlet, line packet, which is cut, is used as C2 tail, wherein

S7: each line packet is connected end to end.

The present invention does not limit the sequence of above-mentioned steps S1-S6, i.e., it not only can successively be carried out in the order described above, also Sequence can be upset to be operated, those skilled in the art can carry out necessary adjustment according to actual use demand completely.

Preferably, the step S7 is specifically included:

S711: A1 and A2 are linked together, A1 tail and A2 tail are linked together；

S712: B1 and B2 are linked together, B1 tail and B2 tail are linked together；

S713: C1 and C2 are linked together, C1 tail and C2 tail are linked together；

S714: A1 tail, A2 tail, B1 tail, B2 tail, C1 tail and C2 tail are linked together；

S715: A1, B2, C1 are drawn as lead-out wire.

Preferably, the step S7 is specifically included:

S721: A1 tail and A2 are linked together；

S722: B1 tail and B2 are linked together；

S723: C1 tail and C2 are linked together；

S724: A2 tail, B2 tail and C2 tail are linked together；

S725: A1, B2, C1 are drawn as lead-out wire.

Preferably, the connection type in the step S7 is welding.

Preferably, the integral multiple that the number of slots Z is 6, such as 24,36,48,54,72.

Preferably, Z=48, M=5, N=13.

It is specifically described by taking 48 slots as an example below, referring to Fig. 1, coiling process is as follows:

S1:A1 since 1 slot of label inlet wire be cross over 13 slot inlet wire of label from label 1+a slot outlet and go out from 17 slot of label Line, line packet, which is cut, is used as A1 tail；

S2:A2 since label Z/2+1 slot inlet wire be cross over 37 slot inlet wire of label from 41 slot of label from 29 slot outlet of label Outlet, line packet, which is cut, is used as A2 tail；

S3:B1 since label Z/12+1 slot inlet wire be cross over 17 slot inlet wire of label from 21 slot of label from 9 slot outlet of label Outlet, line packet, which is cut, is used as B1 tail；

S4:B2 since 29 slot of label inlet wire be cross over 41 slot inlet wire of label from 33 slot outlet of label and go out from 45 slot of label Line, line packet, which is cut, is used as B2 tail；

S5:C1 since 9 slot of label inlet wire be cross over 21 slot inlet wire of label from 13 slot outlet of label and go out from 25 slot of label Line, line packet, which is cut, is used as C1 tail；

S6:C2 since 33 slot of label inlet wire be cross over 45 slot inlet wire of label from 37 slot outlet of label and go out from 1 slot of label Line, line packet, which is cut, is used as C2 tail；

S7: each line packet is connected.

Wherein the step S7 includes two schemes, as follows.

In scheme 1, the step S7 is specifically included:

S711: A1 and A2 are welded together, A1 tail and A2 tail are welded together；

S712: B1 and B2 are welded together, B1 tail and B2 tail are welded together；

S713: C1 and C2 are welded together, C1 tail and C2 tail are welded together；

S714: A1 tail, A2 tail, B1 tail, B2 tail, C1 tail and C2 tail are welded together；

S715:A1, B2, C1 respectively as lead-out wire.

In scheme 2, the step S7 is specifically included:

S721: A1 tail and A2 are welded together；

S722: B1 tail and B2 are welded together；

S723: C1 tail and C2 are welded together；

S724: A2 tail, B2 tail and C2 tail are welded together；

S725: A1, B2, C1 are drawn as lead-out wire.

It is compared with prior art, the present invention has significant advantage.Scheme 1 is such as used, it can be existing Winding resistance (general to reduce by 5% or so) is reduced on Process ba- sis, obtains bigger torque (torque will increase 15-20%), motor Winding harmonic wave reduces, and efficiency improves.Scheme 2 is such as used, motor realizes the variation of no-load speed on the basis of a power supply, So that motor obtains two base rpms, comprehensive energy consumption is reduced in total power use process.

The foregoing description of the disclosed embodiments enables those skilled in the art to implement or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, as defined herein General Principle can be realized in other embodiments without departing from the spirit or scope of the present invention.Therefore, of the invention It is not intended to be limited to the embodiments shown herein, and is to fit to and the principles and novel features disclosed herein phase one The widest scope of cause.

Claims (6)

1. a kind of novel electric machine winding method, which comprises the steps of:

S1: A1 inlet wires since 1 slot of label of line packet, if in the circumferential along a first direction across outlet after main slot, line packet It cuts and is used as A1 tail；Wherein the first direction is direction clockwise or counter-clockwise；

S2: line packet A2 is from labelSlot starts inlet wire, if in the circumferential along a first direction across outlet after main slot, line Packet, which is cut, is used as A2 tail, and wherein Z is number of slots；

S3: B1 inlet wires since label M slot of line packet, if in the circumferential along a first direction across outlet after main slot, line packet It cuts and is used as B1 tail；

S4: line packet B2 is from labelSlot starts inlet wire, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as B2 tail；

S5: C1 inlet wires since label N slot of line packet, if in the circumferential along a first direction across outlet after main slot, line packet It cuts and is used as C1 tail；

S6: line packet C2 is from labelSlot starts inlet wire, if crossing over outlet after main slot along a first direction in the circumferential, Line packet, which is cut, is used as C2 tail, wherein

S7: each line packet is connected end to end.

2. novel electric machine winding method as described in claim 1, which is characterized in that the step S7 is specifically included:

S711: A1 and A2 are linked together, A1 tail and A2 tail are linked together；

S712: B1 and B2 are linked together, B1 tail and B2 tail are linked together；

S713: C1 and C2 are linked together, C1 tail and C2 tail are linked together；

S714: A1 tail, A2 tail, B1 tail, B2 tail, C1 tail and C2 tail are linked together；

S715: A1, B2, C1 are drawn as lead-out wire.

3. novel electric machine winding method as described in claim 1, which is characterized in that the step S7 is specifically included:

S721: A1 tail and A2 are linked together；

S722: B1 tail and B2 are linked together；

S723: C1 tail and C2 are linked together；

S724: A2 tail, B2 tail and C2 tail are linked together；

S725: A1, B2, C1 are drawn as lead-out wire.

4. novel electric machine winding method a method according to any one of claims 1-3, it is characterised in that: the connection in the step S7 Mode is welding.

5. the novel electric machine winding method as described in claim 1-4 is any, it is characterised in that: the number of slots Z is 6 Integral multiple.

6. novel electric machine winding method a method as claimed in any one of claims 1 to 5, it is characterised in that: Z=48, M=5, N=13.