KR200156389Y1 - Motor having two rotor core - Google Patents

Abstract

The present invention relates to a biaxial electric motor, comprising a cylindrical casing, a pair of stators continuously installed coaxially along the axial direction in the casing, and rotatably installed in the respective stators, in mutually opposite directions. It includes a two-axis electric motor, characterized in that it comprises a pair of rotors having a protruding extending shaft. As a result, the cooling efficiency of the refrigeration cycle is increased, thereby improving the cooling performance of the window type air conditioner.

Description

Double Axis Electric Motor

The present invention relates to a biaxial electric motor.

2 is a half sectional view of a conventional biaxial electric motor. As shown in this figure, the electric motor is accommodated in the stator 52 in which the coil is wound and installed along the axial direction of the casing 51 in the cylindrical casing 51, and accommodated in the stator 52 along the axial direction. It consists of a rotating rotor 53 and a rotating shaft 54 which is pressed into the rotor 53 and rotates integrally with the rotor 53. The rotating shafts 54 protrude from each other in opposite directions on the same axis line, and a rotor is provided on both of the protruding shafts of the rotating shaft 54. Such a biaxial electric motor is used in an electric machine having a rotor on both shafts, and may be used in a window air conditioner.

The window air conditioner has a compressor for compressing the refrigerant at a high temperature and a high pressure in the main body, a condenser for condensing the compressed refrigerant, and an evaporator for evaporating the condensed refrigerant to cool the surrounding air. A biaxial electric motor is provided in the center region of these evaporators and condensers, a propeller fan is provided at the condenser side end of the rotating shaft 54, and a blower fan is installed at the end of the evaporator side.

When power is applied to the electric motor of the window air conditioner, the rotor 53 and the rotating shaft 54 rotate integrally, and the blowing fan 62 and the cooling fan 61 provided on both shafts of the rotating shaft 54 also rotate. do. The blower fan 62 is installed at the rear of the evaporator to send air to the evaporator to blow cold air into the room, and the cooling fan 61 installed between the evaporator and the condenser is driven toward the condenser to discharge air to the outside.

By the way, the electric motor provided in the conventional window type air conditioner has the same rotational speed because the cooling fan 61 and the blowing fan 62 are formed on the same rotation shaft 54. Therefore, the blower fan 62 and the cooling fan 61 cannot be driven or adjusted differently in rotation speed, and thus there is a problem in that the refrigeration cycle cannot be efficiently operated according to the characteristics of the air conditioner.

Accordingly, an object of the present invention is to provide an electric motor that improves the cooling function of a window type air conditioner by increasing the efficiency of the refrigeration cycle.

1 is a half cross-sectional view of a biaxial electric motor according to the present invention,

2 is a half sectional view of a conventional biaxial electric motor.

* Explanation of symbols for main parts of the drawings

1: casing 2: first stator

3,23: Rotor 4,24: Rotating shaft

5: bearing 10: support bracket

11: cooling fan 12: blowing fan

22: second stator 30: the first motor unit

40: second motor unit

The object is a biaxial electric motor, comprising a cylindrical casing and a pair of stators coaxially and continuously installed in the casing along an axial direction, and rotatably provided in the respective stators, in mutually opposite directions. It is achieved by a biaxial electric motor, characterized in that it comprises a pair of rotors having a protrudingly extending rotational axis.

Here, it is preferable that a support bracket is interposed between the two stators, and a bearing for supporting rotation of the respective rotating shafts is provided on the support bracket.

Hereinafter, with reference to the accompanying drawings will be described in detail for the subject innovation.

1 is a cross-sectional view of a biaxial electric motor according to the present invention. As shown in this figure, the biaxial electric motor is composed of a first motor portion 30 and a second motor portion 40 having different rotational speeds in the cylindrical casing 1. The first motor unit 30 is press-fitted to the first stator 2 wound around the coil, the first rotor 3 accommodated in the first stator 2 and rotated, and the first rotor 3. It consists of a first rotary shaft 4 which is integrally rotated and protruded in the axial direction. The second motor part 40 includes a second stator 22 continuously installed coaxially with the first stator 2, a second rotor 23 accommodated in the second stator 22, and a second time. The second rotary shaft 24 is pressed into the electrons 23 and protrudes in the opposite direction on the same axis as the first rotary shaft 4.

The first motor part 30 and the second motor part 40 accommodated in the same casing 1 and having different rotational speeds are characterized by the characteristics of the first stator 2 and the second stator 22 in which the coils are wound. The rotational speed is determined accordingly, and the characteristics of each of the stators 2 and 22 are determined according to the number or the diameter of the coil wound around the stators 2 and 22. In the case of coils having the same wire diameter, the more the number of coils, the faster the rotational speed of the rotors 3 and 23. In the case of different wire diameters, if the coil wire diameters are different, the current flows in the stator with the thicker wire diameter, so that the rotor rotates. The speed can be different.

The protruding end portions of the first rotary shaft 4 and the second rotary shaft 24 are interposed with a rotor, and in the case of a window type air conditioner, a blower fan 12 for blowing cold air into the room is interposed therebetween. The other end is provided with a cooling fan 11 for cooling the condenser. Typically, the blowing fan 12 is provided with a blower fan, the cooling fan 11 is provided with a propeller fan.

Between the first stator 2 and the second stator 22 provided in the casing 1, the first motor part 30 and the second motor part 40 are separated and the respective rotation shafts 4 and 24 are separated. A supporting bracket 10 for supporting is provided. The support bracket 10 is formed in a disk shape so as to be fixed to the inner wall of the casing 1 and has a flange shape along the circumferential direction. In addition, a bearing 5 extending in the axial direction is provided at the center of the support bracket 10 on which the respective rotation shafts 4 and 24 are supported.

Unlike the conventional electric motor, the biaxial electric motor is provided with a first stator 2 and a second stator 22 having different number of coils or wire diameters, and thus the power supply unit 20 also has a first stator 2 and a second stator motor. All of the second stator 22 should be installed so that power can be applied. Thereby, the method of installing the power supply unit 20 includes a method of separately installing the power supply unit 20 in the first stator 2 and the second stator 22, and the single power supply unit 20. The branch of the end of the electric wire in the first stator (2) and the second stator (22), and the like. In the present invention, a method of branching the distal end of the wire in a single power supply unit 20 is shown.

By such a configuration, since the first stator 2 and the second stator 22 having different winding numbers or wire diameters are provided, the rotation speeds of the first motor part 30 and the second motor part 40 are differently provided. Rotational speed can be selected according to the characteristics and application of the former. In the window air conditioner, the rotational speed of the blower fan 12 that blows the evaporator and the cooling fan 11 that cools the condenser can be different. Therefore, the rotational speed can be adjusted according to the structure and characteristics of the air conditioner. Efficient refrigerant cycle can be operated.

In the above, the case where the support bracket 10 is installed in the casing 1 has been described in detail. For example, the support bracket 10 itself may be extended to form a pair of casings 1 which are in contact with each other, thereby obtaining the same effects as those described above.

As described above, according to the present invention, the cooling efficiency of the refrigeration cycle is increased, thereby providing an electric motor that improves the cooling performance of the window type air conditioner.

Claims (1)

In the double-axis electric motor of the blower fan blowing toward the evaporator and the window air conditioner to drive the cooling fan to condense the condenser, With a cylindrical casing, A pair of stators which are continuously installed coaxially along the axial direction in the casing; A pair of rotors rotatably installed in each of the stators, The two-axis electric motor of the window air conditioner, which is press-fitted in the rotor, protruding in mutually opposite directions and including a pair of rotary shafts to which the cooling fan and the blower fan are respectively coupled.