KR200145641Y1 - Unbalance Rotator - Google Patents

Abstract

In order to prevent problems such as deterioration of durability and noise caused by unbalanced rotation of the rotating shaft, the rotating shaft is located at the center of the bracket forming the outer shape and the rotor is magnetized through the power supplied to the rotating shaft. In the rotating machine, when used after mounting in consideration of the action of the constant load (F) according to the coupling with other parts of the fixed shaft in a direction opposite to the direction of action of the constant load (F) to the rotating shaft coupled to the rotor An imbalance preventing rotor, characterized by providing a load inclination angle α.

Description

Unbalance Rotator

1 is a schematic diagram showing the durability relief of a typical rotor.

(b) is a side cross-sectional view of (a).

2 is a schematic diagram showing an unbalanced motion of a rotor according to the prior art.

Figure 3 is a schematic diagram showing the internal structure of the imbalance preventing rotor according to the present invention.

* Explanation of symbols for main parts of the drawings

10: bracket 20: stator

30: rotation axis 40: rotor

50: bearing part

The present invention relates to a rotor, in particular, in a rotor that operates by rotating at a constant speed, such as an electric motor or a generator, occurs when a rotary shaft located at the center of the rotor is subjected to a constant load in relation to other components that are mounted or coupled The present invention relates to an imbalance preventing rotor that prevents problems such as reduced durability and noise caused by rotation of an unbalanced rotating shaft.

In general, the electric motor (motor) to generate a rotational force by receiving power, and the generator (generator) to generate power through the rotational movement in the formed magnetic field are all a rotor that performs a constant operation using the rotational force, As shown in the bar having a common structure, a bracket 10 forming an external shape, a rotating shaft 30 located in the center of the bracket 10 to rotate, and the rotating shaft for smooth rotation A bearing portion 50 supporting the 30, a rotor 40 magnetized by a power supply installed in a central portion of the rotary shaft 30, and installed inside the bracket 10; A stator 20 which forms a magnetic field circuit together with 40 is basically provided.

As shown in FIG. 1 (b), all of the above components are positioned to match concentric circles, and the center of the parts is relatively accurately manufactured to reduce vibration and noise during rotation of the outer front shaft 30. However, as shown in FIG. 2, the rotating machine according to the prior art is produced in accordance with concentric circles as shown in FIG. 1 (b). A constant load (F) acts on the rotating shaft 30 in a predetermined direction, and thus a load inclination angle α is generated, so even if a small load inclination angle α is generated, the influence on the entire rotating machine is large and unbalanced. Vibration caused by the rotation of the rotary shaft 30 in the unbalance state and noise caused by the vibration cause the user to be offended by noise and vibration between parts as well as durability of the rotor. A problem occurs.

Therefore, the present invention was devised to solve the above problems, and given a constant load inclination angle to the gray shaft during the manufacture of the rotor in consideration of the constant load acting when combined with other parts, the rotation of the unbalanced rotation shaft It is an object of the present invention to provide a rotor for preventing imbalance that prevents problems such as reduced durability and noise.

The object is a rotor having a rotating shaft located in the center of the bracket forming the outer appearance, and a rotor that is magnetized through the power supplied to the central portion of the rotating shaft, the fixed according to the coupling with other components when used after mounting In consideration of the action of the load (F) by the imbalance preventing rotor characterized in that to give a certain amount of load inclination angle (α) in the direction opposite to the action direction of the constant load (F) coupled to the rotor Can be achieved.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. Figure 3 is a schematic diagram showing the internal structure of the imbalance preventing rotor according to the present invention, the rotating shaft 30 is located in the center of the bracket 10 and the bearing portion for supporting the rotating shaft 30 for smooth rotation A stator for forming a magnetic field circuit together with the rotor 40 and a rotor 40 which is magnetized by the power supplied and installed in the center of the rotating shaft 30, and the inside of the bracket 10. In the rotating rotor, in consideration of the action of the constant load due to the coupling with other components when used after mounting to give a certain amount of load inclination angle to the rotating shaft 30 is coupled to the rotor 40 A structure is made.

Rotor for preventing imbalance according to the present invention constituting the structure as described above in the vertical direction as shown in Figure 2 on the rotating shaft 30 to perform the process of power transmission, as shown in Figure 3 When the load (F) is applied to the rotating shaft 30 and the rotor 40 is inclined at a constant load inclination angle (α) to balance the force bar to solve the problem caused by rotating in an unbalanced state To this end, in consideration of the vertical load acting on the rotary shaft 30 after the actual mounting of the rotor, deflection is given to the rotary shaft 30 by a load inclination angle α in a direction opposite to the direction of the load. And to produce the power in combination with the other parts of the rotor is produced in an unbalanced state in a single state, the rotary shaft 30, the rotor 40 and the switch by a constant load applied Since the eater 20 is located on a concentric circle and performs a balanced rotational movement, problems such as vibration and noise caused by unbalanced rotational movement and performance degradation due to electromagnetic influences on the rotor 40 and the stator 20 are eliminated. There is an advantage.

Claims (1)

In the rotor having a rotating shaft 30 is located in the center of the bracket 10 to form an outer rotation, and the rotor 40 is magnetized through the power supplied to the center of the rotating shaft 30: after mounting When considering the action of the constant load (F) according to the other parts and the coupling when the load inclination angle of the predetermined amount in the direction opposite to the action direction of the constant load (F) on the rotary shaft 30 is coupled to the rotor ( A rotor for preventing imbalance, characterized by imparting α).