KR20230113476A - ring type motor - Google Patents

Abstract

The present invention relates to an annular motor. A power device can mount a rotation object by extending a rotation shaft in an electric device. The power device has an annular space. Therefore, the present invention can minimize energy consumption generated between the electric device and a device to which it is applied.

Description

Ring type motor {ring type motor}

The present invention relates to a device that converts electrical energy into rotational motion. More specifically, it is to move the rotor with magnetic flux by current and use the rotational force in devices necessary for life.

Therefore, in addition to general blowers, it is a technology that can be applied to technical fields such as fans, circulators, ventilators, vacuum cleaners, hair dryers, humidifiers, air purifiers, dust collectors, dryers, fan heaters, propeller devices, ship screws, liquid transfer devices, and washing machines.

In electric motors applied throughout the industry, the rotational force of the motor installed outside is generally transmitted through a shaft or power transmission device. The background technology is to eliminate the loss of rotational force, minimize noise and vibration, and minimize space loss.

An embodiment of the present invention removes the energy loss factor caused by transmitting rotational force through a power transmission device such as a rotating shaft, gear, or belt in a separated state between an existing electric motor and a rotating device, minimizes vibration and noise, and damages durability accordingly What you want to solve is the task.

According to one aspect of the present invention, the embodiment of the present invention solves the separation between the existing motor and the rotating device, expands the rotation axis of the motor, places the rotating body inside the motor, and directly transfers energy to the extreme end of the rotation radius. It is intended as a solution to provide a device that transmits torque without loss to minimize vibration and noise and eliminates durability damage caused by the vibration.

It is possible to minimize energy consumption generated between the transmission device according to an embodiment of the present invention and a device applying the same. In addition, noise and vibration generated in the process of power transmission are minimized, and rotational force is generated at the position where the distance from the rotation center is the greatest and transmitted directly from the generation position, so an efficient device without loss of torque is realized. In addition, there is an effect of integrating the motor and the target device.

Representation: Appearance perspective view according to an embodiment of the present invention
1 is an exploded perspective view according to an embodiment of the present invention
2 is a rear perspective view according to an embodiment of the present invention
3 is a cross-sectional view according to an embodiment of the present invention
Figure 4 is an exploded perspective view of a general electric motor, which is an element technology of the present invention
Figure 5 is an example of a circuit diagram for adjusting the rotational speed of the rotary tube of the present invention
6 is an embodiment in which the present invention is applied to a washing machine

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

As shown in Figures 1 and 2, the transmission device according to an embodiment of the present invention

Main Body (A1): An annular space of a certain size into which the end of the rotary pipe (D1) can be inserted is provided on one side, and a space of a certain size into which the stator (B1) can be mounted is provided on the other inner diameter.

Stator (B1): Like the stator of the conventional motor in FIG. 4, it is inserted and mounted on one side of the inner diameter of the main body (A1) to generate a rotating magnetic flux. In order to generate the magnetic flux, a connection line E1 that transmits control information of a constant current and rotational speed is coupled. However, when the rotor (C1) is a winding type, the connection line (E1) may be connected to the winding of the rotor (C1) in a certain form.

Connection line E1: At least one connection line is provided as a device for supplying current from a power source to the stator B1 and rotor C1 or transmitting and receiving control information for controlling the rotational speed of the rotor C1.

Rotor (C1): coupled to the outer diameter of the rotating pipe (D1) in the annular space where the magnetic flux of the stator (B1) reaches, and interacting with the stator (B1) to generate a rotating magnetic flux in a certain direction, the rotating pipe ( It transmits rotational force to D1). In addition, according to the type of motor (eg, rotor winding type), it may be connected or connected to the connection line E1 in the predetermined method.

Rotary tube (D1): The rotor (C1) is coaxially coupled to the inner diameter position corresponding to the stator (B1) on one side of the outer diameter of the rotary tube, and the magnetic flux formed in the stator (B1) as shown in the example of FIG. It is provided to respond to changes in At one end of the inside of the pipe, a space of a certain size in which a rotating object as shown in FIG. 6 can be located is provided. It rotates integrally with the rotor C1, and simultaneously implements the role of the exemplary motor rotational shaft of FIG. 4 and the role of a rotating object (eg, a laundry tub) of FIG. 6.

Two or more sets of the stator (B1) and the rotor (C1) may be applied to the rotary tube (D1) in one device, if necessary.

In the present invention, the rotating tube (D1) may be a rotating object itself.

Body 2 (A2): It is coupled to one side of the body (A1) to form a rotational space of the rotary tube (D1) and is provided with a certain cross section for fixing the stator (B1).

Operation: The conventional motor stator of FIG. 4 corresponds to the same function as the stator B1, and the rotor corresponds to the same function as the rotor C1. The rotating shaft expands its diameter to a certain size to correspond to the function of the rotating pipe (D1) and operates on the same principle as the existing motor. And the annular space inside the rotary pipe (D1) is provided with a space for inserting the rotary body as shown in the example of FIG. The rotational speed of the rotating pipe (D1) can be adjusted by a speed controller composed of the exemplary circuit of FIG.

A1: body 1, A1-1: gasket, A2: body 2, B1: stator, C1: rotor,
D1: rotary tube, D1-1: gasket 2, D2: bearing, E1: connection line,

Claims (1)

In a transmission device that generates rotational power using electrical energy
Body (A1) having an annular space in the center: An annular space of a certain shape is formed on one side, and a space of a certain size in which the stator (B1) can be placed is provided on the other inner diameter,
Stator (B1): It is fixedly mounted on a certain portion of the main body (A1) and generates a rotor flux corresponding to the rotor (C1).
Rotor (C1): coupled to a certain position where the magnetic flux of the stator (B1) on the outside of the rotary tube (D1) generates rotational force.
Rotary pipe (D1): It is coupled to the inside of the rotor (C1) is provided with a cylindrical space into which an object of a certain size can be inserted.
Operation: When current is supplied to the device, magnetic flux is generated between the stator (B1) and the rotor (C1), and the rotor (C1) rotates under the influence of the magnetic flux, and the rotary tube (D1) coupled with the rotor rotates. A transmission device characterized in that for rotating a rotating object provided inside the tube