KR200387956Y1 - AC Induction Motor with 16slots and 6poles - Google Patents

Abstract

         The present invention relates to an AC induction motor of a 16-slot and 6-pole structure, and more particularly, to provide an induction motor of 16 slits and a 6-pole stator using a single-phase AC power source. I would like to.

         In the past, many manufacturers have been required to apply 6-pole motor in 16Slot, but due to the lack of research and development, it is impossible to apply it, and 4-pole motor is used to produce set products with various problems. The synchronous speed of the 6 pole motor is 1200rpm, and the 4 pole motor is 400 ~ 1150 rpm in the 1800rpm set product.If the 6 pole motor is applied, it is in safe operation band compared to the 4 pole motor. In terms of noise, vibration, etc., the motor achieves superior performance compared to a 4-pole motor.

         The 16-slot and 6-pole AC induction motors of the present invention are in the safe operation band compared to the 4-pole motors, and thus compared to the 4-pole motors in terms of current, voltage, noise, and vibration. It can improve the quality and save energy.

Description

AC Induction Motor with 16slots and 6poles}

         The present invention relates to an AC induction motor of a 16-slot and 6-pole structure, and more particularly, to provide an induction motor of 16 slits and a 6-pole stator using a single-phase AC power source. I would like to.

         In the AC motor, in which the rotor coupled with the shaft is inserted and installed inside the center of the core where the coil is wound, the AC current flows through the coil on the core, and a rotating magnetic field (N pole, S pole) is formed. Induction electrons are generated in the electrons (rotor) and power is generated in the existing motor. The strength of the magnetic field is formed according to the intensity (quantity) of the current, and corresponding induction electricity is generated and corresponding kinetic energy is generated. will be.

         In the past, many manufacturers have been required to apply 6-pole motor in 16Slot, but due to the lack of research and development, it is impossible to apply it, and 4-pole motor is used to produce set products with various problems. The synchronous speed of the 6 pole motor is 1200rpm, and the 4 pole motor is 400 ~ 1150 rpm in the 1800rpm set product.If the 6 pole motor is applied, it is in safe operation band compared to the 4 pole motor. In terms of noise, vibration, etc., it is a structure having superior motor performance compared to a 4-pole motor.

         Therefore, it is urgently needed to develop a six-pole motor that can start the motor more stably.

         The present invention has been made to solve the above problems, and relates to an AC induction motor of a six-slot and six-pole structure, in the induction motor, regular coil insertion The aim is to provide an AC induction motor consisting of 16 slots wound in a pattern and a 6 pole rotor.

         In addition, the coil insertion pattern is an AC induction motor in which the main coil or the auxiliary coil is connected in the order of 1-4-6-4-6-9-12-9-12-14-1-14. To provide a different purpose.

         In addition, the coil insertion pattern is an AC induction motor in which the main coil or the auxiliary coil is connected in the order of 3-5-7-5-8-10-13-11-13-15-2-16. To provide a different purpose.

         The present invention relates to an AC induction motor of a 16-slot and 6-pole structure, and has a regular coil insertion pattern in an AC induction motor and an AC induction motor. Consisting of a coiled 16 slot (stator) and a 6 pole rotor; It is characterized in that the AC induction motor comprising a condenser 32 and the temperature protector 40,

         The coil insertion pattern is characterized in that the main coil or auxiliary coil is connected in the order of 1-4-6-4-6-9-12-9-12-14-1-14,

         The coil insertion pattern is characterized in that the main coil or auxiliary coil is connected in the order of 3-5-7-5-8-10-13-11-13-15-2-16.

         Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

         1 is a cross-sectional view of the stator of the present invention, Figure 2 is a wiring structure of the present invention, Figure 3 is another embodiment of the present invention, Figure 4 shows a circuit diagram of the present invention.

         Figure 1 shows a cross-sectional view of the stator 60 of the present invention and put the numbers 1 to 16 at the position where the connection is formed is shown to facilitate the connection diagram. Depending on how the wiring is done to the stator, the characteristics of the motor can be changed. The wiring drawings will be described in the following drawings.

         Figure 2 shows the wiring structure of the present invention, Ss means that the wiring of the auxiliary coil starts, Ms means that the wiring of the main coil starts, SL means the last part of the auxiliary wiring, ML Means the end of the main wiring. The auxiliary wiring and the main wiring are wound on the stator at the same time. The winding sequence is made in the order of 1-4-6-4-6-9-12-9-12-14-1-14. The number ① means that the coil from the 14th slit is connected to the 1st slit, and the number② means that the coil from the 1st slit is connected to the 14th slit.

         Figure 3 shows a wiring diagram showing another embodiment of the present invention, Ss means that the wiring of the auxiliary coil starts, Ms means that the wiring of the main coil starts, SL is the last part of the auxiliary wiring ML means the end of the main wiring. The auxiliary wiring and the main wiring are wound on the stator at the same time, and the winding sequence is made in the order of 3-5-7-5-8-10-13-11-13-15-2-16. The number ① means that the coil from the 15 slit is connected to the slit 2, and the number ② indicates that the coil from the slit 2 is connected to the slit 16.

         4 is a circuit diagram of the present invention, in which a connection diagram 10 of an AC induction motor having a 16-slot and a six-pole structure is shown in the red connection 20 and the brown connection 25. In order to protect the motor from an abnormal phenomenon in which the temperature rises rapidly when overloaded or used excessively for a long time, a thermal protector (TP) 40 is connected, and the temperature protector 40 is Celsius When the temperature rises above 135 degrees, the wiring is disconnected to protect the motor, and when the temperature falls below that temperature, normal operation is possible again. When the motor is stopped, the cause can be analyzed and treated.

         The white connection 30 and the yellow connection 35 represent the connection to the condenser 32, and the auxiliary connection 44 and the main connection 42 wound in a predetermined pattern on the rotating rotor 50 and the stator. It is a circuit diagram comprised. According to the wiring diagram, the rotor rotates counterclockwise.

         The rotor 50 is composed of a rotating shaft made of a metal iron core and takes a commonly used form called a cage induction armature.

The home appliance and the mechanical device applying the 16-slot and the six-pole AC induction motor of the present invention are more effective than the four-pole structure. Energy saving due to the effect and power consumption can be reduced and quality improvement due to stable operation of the product can be obtained, and the present invention is applied to the actual production set (4 poles => 6 poles). The power consumption was reduced by%.

         As described above, although an AC induction motor of a six-slot and six-pole structure according to the present invention has been described by way of example, the scope of the present invention is not limited thereto, and is described in the claims. It will be said that it is crazy about all technical ideas that are equal to the matter.

As such, the 16-slot and 6-pole AC induction motors of the present invention are in a safe operation band compared to the 4-pole motors, and thus, compared to the 4-pole motors in terms of current, voltage, noise, and vibration. The improvement of the quality and the energy saving were achieved, and the home appliance and the mechanical device using the 16-slot and 6-pole AC induction motor of the present invention are more effective than the 4-pole structure. With the optimal design, it is possible to achieve the effect of noise reduction of the set and the mechanical device and the energy saving due to the reduction of power consumption and the improvement of the quality due to the stable operation of the product. 6 pole change) It shows the effect of reducing noise and vibration and reducing power consumption by about 15%.

1 is a cross-sectional view of the stator of the present invention,

2 is a wiring structure of the present invention,

3 is another embodiment of the present invention,

4 is a circuit diagram of the present invention.

** Explanation of symbols for the main parts of the drawings

10: connection diagram 20: red connection 25: brown connection

30: white connection 32: condenser 35: yellow connection

40: temperature protector 42: main coil 44: auxiliary coil

50: rotor 60: stator

Claims (3)

In an induction motor, 16 slots (stator) and 6 pole rotors wound in a regular coil insertion pattern; An AC induction motor having a six-slot and six-pole structure, characterized in that it is an AC induction motor comprising a condenser 32 and a temperature protector 40. The method of claim 1, The coil insertion pattern has 16 slots and 6, wherein the main coil or the auxiliary coil is connected in the order of 1-4-6-4-6-9-12-9-12-14-1-14. Polar AC induction motors. The method of claim 1, The coil insertion pattern has 16 slots and 6, characterized in that the main coil or auxiliary coil is connected in the order of 3-5-7-5-8-10-13-11-13-15-2-16. Polar AC induction motors.