DE2046779A1 - Motor stator winding - Google Patents

Description

96I West 32nd Street, 531 West 29th Street,

Erie, Pennsylvania Erie, Pennsylvania

(V. St. v. A.)

Motor - stator winding.

For this registration, the priority is derived from the corresponding one U.S. Registration Serial No. .860 553 of September 24, 1969 claimed.

The invention relates to electric motors and, more particularly, to an improved motor stator winding in which the motor speed can be increased by switching the 4e * windings from a series star connection to a parallel star connection can be changed.

The invention has the object to provide an improved motor winding which at both high and at low speed, a substantially constant engine power e ^- rgibt.

The proposed motor stator winding for a motor, consisting of a stator made of an annular iron body with slots formed on its inner circumference, as well as a plurality arranged in the form of coils

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Windings in the slots is characterized according to the invention by means for the mutual connection of the Coils in a series star connection, in which a first number of poles can be formed and the motor with a first Speed can be put into operation, and by means of connecting the coils in a parallel star connection which a second number of poles can be formed and the motor ^ can be put into operation at a second speed.

Several embodiments of the invention will be based on the drawings explained in more detail, in which shows:

1 shows a schematic wiring diagram, FIG. 2 shows a schematic representation of the in a

Series star connection connected stator winding of the motor,
Fig. 3 is a schematic representation of the in a

Parallel star connection connected stator winding of the motor,

Fig. 4 is a representation of the magnetic flux around the

Coils of the motor stator, Figures 5, 6, 7 and 8 are schematic representations of the

Stator winding connections of the motor, FIG. 9 is a schematic wiring diagram of a

further embodiment of a motor winding, and Figures 10 and 11 the arrangement of the coils in the

Stator slots.

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Newly manufactured or newly wound electric motors for two different speeds and with one winding, which give full power at high speed and half power at low speed, develop at the high speed their full torque and the full breakdown torque for the high performance. For the low performance Corresponding polarity is required at low speed. The overturning moment can be slightly lower than at an electric motor of the same power, which has a normal set of windings for the relevant power and speed having. The coils of the motor are then connected in series for low power at low speed. at In a three-phase motor, the coil groups are connected in a single star connection. The coil groups for the high power and high speed are in parallel star connection switched.

However, since a motor develops a reverse voltage, twice as many windings are required for the low speed as for the high speed. For double the power at high speed, the number of windings for high speed is the same as for low speed, but in two circuits or in a parallel connection.

The coils for each phase or for a single phase are wound so that a slot is open on each side of each coil group. This open slot and core laminations form when shifting for low speed

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another pole. Approximately $ 20 additional coils are provided for compensation.

As Fig. 10 shows, an electromagnetic field of opposite polarity results at the end of each coil group, so that there are double the number of poles.

The motor must have enough slots so that each coil group can accommodate the same number of turns can. When the coil groups balance each other or there are enough slots in the core are, the motor can be wound with reduced slot widths, so that at the end of each group in one and the same Phase a slot remains open. Then you need $ 10 to $ 15 more windings in the winding slots be introduced in order to compensate for the windings not present in the empty slots. That applies to any speed or power. For example, a six pole motor has 54 slots in a group three evenly distributed coils, whereby the motor with 6 coils in a group has 2 open slots. That The principle of not leaving any slots open can also be implemented, but is not as effective as when in the above-described way slots remain open.

If the number of slots is so large that no groups can be formed with the same number of coils per phase, then each coil must have 20 to 25 $ more turns.

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For example, a six-pole motor with 48 slots has three coils in one group and three coils in another group two coils on.

As Fig. 1 shows, a three-phase motor for a single Voltage and two speeds can be connected in the manner described below if phase A has six poles or groups per phase:

The line Ll must be connected to the beginning S of the first group of phase A or group 1, which belongs to phase A. The end P of group 1 of phase A is connected to the beginning of group 7 of phase A. The end of group 7 of phase A is connected to the beginning of group 13 of phase A. The end of the group 13 of the A phase is 16, the phase A and also connected to the beginning of the group to the line L ¹ J. The end of group 16 of phase A is connected to the beginning of group Io of phase A.

The end of the group Io of the phase A is connected to the beginning of the \ Group 4 of phase A. The end of group 4 of phase A is connected to the end of group 2 of phase B and the end of group 6 of phase C, so that the inner star circuit 1 is formed.

The line L2 is with the first group of phase C or group 3 of phase C connected. The end of group 3 phase C becomes phase C with the beginning of group 9 tied together. The end of group 9 of phase C is connected to the beginning of group 15 of phase C. The end of

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Group 15 of phase C is connected to the beginning of group 18 of phase C and also to line L5. The end of group 18 of phase C is connected to the beginning of group 12 of phase C. The end of group 12 phase C becomes phase C with the beginning of group 6, and the end of Group 6 becomes Phase C with the end of Group 4 becomes Phase A and the end of Group 2 becomes Phase B connected, so that the already mentioned indoor star connection 1 is formed.

The line L3 is now connected to the beginning S of the second group of phase B or group 5 of phase B. The end P of group 5 of phase B is connected to the beginning of group 11 of phase B. The end of group 11 of phase B is connected to the beginning of group 17 of phase B. The end of group 17 of phase B is connected to line L6 and also to the beginning of group 14 of phase B. The end of group 14 of phase B is connected to the beginning of group 8 of phase B. The end of group 8 of phase B is connected to the beginning of group 2 of phase B. The end of group 2 of phase B is connected to the end of group * i of phase A and the end of group 6 of phase C, so that the already mentioned inner star connection 1 is formed. Fig. 2 shows a somewhat simpler arrangement of the groups.

To achieve full power at high speed and full torque, Ll, L2 and L3 are connected to one another

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and wrapped. The lines L4, L5 and L6 are supplied with a three-phase current fed. This results in two circuits in the form of a parallel connection. The stream runs through the coil groups in each phase in opposite directions so that opposite poles are formed will.

For low speed L4, L5 and L6 are left open, and the current is fed to lines Ll, L2 and L3. The current runs through each phase group in the same direction, whereby however, different electromagnetic fields exist at the ends of each group so that two poles are formed one for the end of a group of the phase in question and one for the beginning of the next group of same phase, as shown in Fig. 6 for group 1, so that twice as many poles result.

The construction of the machine is based on the consideration of a powerful motor with high speed and normal power because the engine is most heavily loaded at this speed. The same work that does high speed is carried out, can also be done by means of the low speed.

The wiring in FIG. 9 is based on the same principle, but with nine lines leading out of the winding so this motor is standard wound as a nine terminal high and low voltage motor

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20AB779

can, and there is also the peculiarity that the motor is also designed for two speeds. In order to For low voltage there is a parallel-delta connection for high speed and a series-delta connection for low speed.

For high voltage and high speed, the motor is in a parallel star connection or a series delta connection ". For high voltage and low speed, the windings are connected in a series star connection. It has been shown that a series delta connection and a parallel star connection in an electric motor are technically seen lead to the same results.

■ The nine lines must be connected as shown in FIG by connecting the line Ll to the beginning S of phase A or group 1. The end of F the Group 1 is connected to the beginning of group 7 of phase A. The end of group 7 is phase A with the beginning of group 13 of phase A connected. The end of group 13 of phase A is connected to line L4 and to the Beginning of group 16 of phase A connected. The end of group 16 of phase A becomes the beginning of group Io of Phase A connected. The end of group Io of phase A will be reached connected to the beginning of group 4 of phase A. The end of group 4 of phase A is connected to line L7.

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Line L2 becomes phase C with the beginning of group 3 tied together. The end of group 3 of phase C is connected to the beginning of group 9 of phase C. The end of Group 9 of phase C connects to the beginning of group 15 of phase C. The end of group 15 of phase C will be connected to L5 and to the beginning of group 18 of phase C.

The end of group 18 of phase C is connected to the beginning of group 12 of phase C. The end of group 12 of the Phase C is connected to the beginning of group 6 of phase C ( the. The end of group 6 of phase C is connected to L8.

Line L3 becomes phase B with the beginning of group 5 tied together. The end of group 5 of phase B is connected to the beginning of group 11 of phase B. The end of Group 11 of phase B is connected to the beginning of group 17 of phase B. The end of group 17 of phase B will be connected to L6 and to the beginning of group 8 of phase B.

The end of group 8 of phase B is connected to the beginning of group 2 of phase B. The end of group 2 of the " Phase B is connected to line L9.

The wiring diagram shown in Fig 8. And consisting of nine lines refers to a Sechspolmotor which is changed for a low speed to twelve poles.

The connection of the nine lines takes place in the following way: For low speed and low voltage a delta connection is used, in which the power supply 1 is connected to the lines Ll and L9 of the motor. The electricity

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feeder 2 is connected to L2 and L7, while the Power supply 3 is connected to L 3 and L8. The motor lines L4, L5 and L6 are not connected. At high Speed and low voltage, the nine lines are switched in the following way: The power supply 3 is with L3j L4 and L9 of the engine connected. The power supply 2 is connected to L2, L6 and L8 of the motor. The power supply 1 is connected to Ll, L5 and L7 of the motor. on ■ This results in a parallel-delta connection.

For high voltage and low speed, the nine lines are connected in the following way: The power supply 1 is connected to Ll _9, the power supply 2 is connected to L2, and the power supply 3 is connected to L3. L4, L5 and L6 are not connected. L7, L8 and L9 are connected to each other and wrapped around. This results in a series star connection.

|) For high speed and high voltage, the motor is in the following Connected way: The power supply 1 is connected to L4, the power supply 2 is connected to L5, and the power supply 3 is connected to L6. L7, L8 and L9 are connected to one another and wrapped. Ll, L2 and L3 are connected to one another and wrapped around. This results in a parallel star connection. L7, L8, L9, Ll, L2 and L3 can also be linked together, giving the same results let get.

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For high voltage and high speed, the motor can also be switched in a single triangular circuit. The main connections are then as follows: power supply to LHy power supply to L5 and power supply to L6. L2 is connected to L 7 and wrapped around it. Ll is connected to L9 and wrapped around it. L3 is connected to L8 and wrapped around. Although there are different ways to switch this motor in a triangle circuit, this circuit represents the basic circuit diagram.

The manner described, with which two speeds are obtained in a three-phase motor, can also be applied to single-phase motors. To do this, a slot must remain open in each group of the main fields. Then, depending on the desired quality, 5% to 2o # more windings have to be added. A parallel connection must be used for the high speed and the higher power. For the low speed, there must be twice as many windings as for the high speed so that half the speed results in half the power. This is due to the fact that the motor develops a reverse voltage. At low speed, the reverse voltage is much lower and the residual voltage is higher. Half as many windings can be present for the high speed as for the low speed, since the reverse voltage is higher.

- Patent claims: -

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Claims (5)

204B779 claims 1.) Motor stator winding for a motor, consisting of a stator made of an annular iron body with slots formed on its inner periphery, and a A plurality of windings arranged in the form of coils in the slots, characterized by means for mutual Connection of the coils in a series star connection, in which a first number of poles can be formed and the motor can be put into operation at a first speed, and by means for connecting the coils in a parallel star connection, in which a second number of poles can be formed and the motor can be put into operation at a second speed is. 2. Motor stator winding according to claim 1, characterized in that the windings are arranged in some slots fc and form the poles, and next to each coil a slot is left free. 3. Motor stator winding according to claim 2, characterized in that that in the slots containing the windings additional windings are arranged, which to compensate serve for the remaining winding points, 4. Motor stator winding according to one of the preceding Claims 1-3, characterized in that the slots - 13 -109814/1583 are punched out on the inner circumference of the iron body, each forming the coils from a plurality of coil groups Consist of wire windings, the wire windings are arranged within the slots, and each one slot, is open at one end of each coil group, has no windings and serves to form an additional pole. 5. Motor stator winding according to one of the preceding claims 1-4, consisting of a phase A, a phase B and a phase C ₃ and 18 coil groups and the power lines Ll, L2, L3, L4, L5 and L6, characterized in that phase A has six poles or groups per phase, line Ll with the beginning (S) of the first group or group 1 of phase A, the end (P) of group 1 of phase A with the beginning of group 7 of phase A. , the end of group 7 of phase A with the beginning of group 13 of phase A, the end of group 13 of phase A with the beginning of group 16 of phase A and with line L4, the end of group 16 " phase A with the beginning of group 10 of phase A, the end of group 10 of phase A with the beginning of group 4 phase A, the end of group 4 of phase A with the end of group 2 of phase A and the end of group 6 of phase C is connected to an inner star connection 1, the line L2 with the first group or group 3 of the phase C, the end of group 3 of phase C with the beginning of Group 9 of phase C, the end of group 9 of phase C with - 14 109814/1583 the beginning of group 15 of phase C, the end of group 15 of phase C with the beginning of group 18 of phase C and with line L5 _S the end of group 18 of phase C with the beginning of group 12 of phase C, the end of group 12 of phase C with the beginning of group 6 of phase C, the end of group 6 of phase C with the end of the group of phase A and with the end of group 2 of phase B to the inner star connection 1 is connected, the line L3 with the beginning of the second group or group 5 of phase B, the end of group 5 of phase B with the beginning of group 11 of phase B, the end of group 11 of phase B with the beginning of the group 17 of phase B, the end of group 17 of phase B with line L6 and the beginning of group 14 of phase B, the end of group 14 of phase B with the beginning of group 8 of phase B, the end of the group 8 of phase B with the beginning of group 2 of phase B, as well as the end of group 2 of phase B with the end of group 4 of Phase A and the end of group 6 of phase C is connected to the inner star circuit 1. 1 0 9 8 U / 1 5 8 3