KR20070113732A - Rotator for a motor and balance weight thereof - Google Patents

Abstract

A rotator for a motor and a balance weight thereof are provided to improve productivity and reduce a manufacturing cost by simplifying a process. A rotator for a motor includes a plurality of circular cores(110), end rings(120'), and balance weights(130'). The plurality of circular cores are thin plates and are laminated on each other for forming a cylindrical shape. The end rings are manufactured by a die casting and are coupled to upper and lower ends of laminated cores. The balance weights are coupled to the each end ring. The balance weights have a rotary shaft hole(132') corresponding to a rotary shaft holes(110a,120a') of the cores and the end rings.

Description

ROTATOR FOR A MOTOR AND BALANCE WEIGHT THEREOF

1 is a schematic perspective view showing a coupling method of a conventional rotator for a motor,

2 is a cross-sectional view of a main part showing a state in which a balance weight is coupled on an end ring in a conventional rotator for a motor;

3 is a schematic perspective view showing a coupling method of a rotator for a motor according to the present invention;

4 is a schematic perspective view showing a balance weight according to another embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

100, 100 ': Rotator 110: Core

110a: rotating shaft hole 120, 120 ': end ring

120a, 120a ': rotating shaft hole 122: lug

130, 130 ', 130' ': Balance weight 130a' ': Thin plate part

130b '': heavy plate 132: coupling hole

132 ', 132' ': rotating shaft 140: rotating shaft

The present invention relates to a motor rotator and a balance weight thereof, and more particularly, to form a balance weight in a fan shape having a rotating shaft hole in the center angle portion, and to record a single shrinkage of the rotating shaft together with the core on which the balance weight is laminated. The present invention relates to a motor rotator and a balance weight thereof, which can be assembled by means of the assembly, thereby simplifying the process.

In general, a compressor for reducing a refrigerant to a liquid phase is provided inside a cooling device such as an air conditioner or a refrigerator, and one side of the compressor has a large torque due to the characteristics of a compressor that requires a strong compression force, and enables high-speed rotation. The motor will be used.

In a typical motor including such a high-power compressor motor, a rotator, which is a rotor, is rotatably provided therein, and a balance weight is coupled to an upper side and / or a lower side of the rotator. Thus, by correcting the weight deviation generated during the rotation action, it is possible to prevent the occurrence of vibration due to the weight deviation.

1 is a schematic perspective view showing a coupling method of a conventional rotator for a motor.

The rotator 100 is formed by stacking a plurality of circular cores 110 made of a thin plate to form a circumferential shape as a whole, and die casting on the upper side and the lower side of the circumferential core 110. Circular end rings 120 are manufactured by the respective coupling, the balance weight 130 is coupled to each of the end rings 120.

In addition, since the rotary shaft holes 110a and 120a are formed at the centers of the cylindrical core 110 and the circular end ring 120, the rotary shaft 140 penetrates the rotary shaft holes 110a and 120a. Are inserted into a bond.

Here, the end ring 120 serves as a secondary conductor while fixing both ends of the stacked core 110, and is usually made of aluminum (Al).

In addition, the balance weight 130 is provided to offset the eccentric load of the rotary shaft 140 during rotation to achieve a rotational equilibrium, and has an arc shape to add an eccentric weight. It is easy to cast and is made of brass, which is heavier than aluminum.

In order to couple the balance weight 130, one or more lugs 122 are integrally formed on the upper surface of the end ring 120 so as to protrude upwards, and the upper and lower surfaces of the balance weight 130 are corresponding to each other. The through holes 132 are formed, so that the lugs 122 on the end rings 120 are inserted into the coupling holes 132 on the balance weight 130 so as to be penetrated thereafter. By pressing and pressing the upper end of the protruding lug 122 by using a press to achieve mutual coupling through riveting (riveting) to expand the upper end of the corresponding lug 122 (see Fig. 2).

Here, when the assembly process of the entire rotator 100 will be described in more detail, a plurality of circular cores 110 made of thin plates are stacked, and then end rings 120 are integrally formed on the upper and lower end sides thereof through a die casting process. After forming, the balance weight 130 is bonded to each end ring 120 through riveting to the lug 122, and the core assembly is then heated in a heating furnace for several hours to form the core of the core assembly. 110 and the rotary shaft holes 110a and 120a at the center of the end ring 120 are forced to press through the rotary shaft 140 from one side in a state of thermal expansion, and the core assembly is cooled to cool the rotary shaft hole 110a. By retracting, 120a, the core assembly and the rotating shaft 140 are firmly coupled to each other.

In this case, a method of forcibly pressing the rotary shaft 140 in a state in which the core assembly is heated to thermally expand the rotary shaft holes 110a and 120a is generally referred to as a “shrink fit”.

However, the above-described conventional assembly method of the rotator 100 has the following problems.

That is, as described above, since the balance weight 130 undergoes a relatively large number of processes, such as riveting the lug 122 and the rotating shaft 140 is assembled through shrinkage, the work time is excessive. There is a problem such that the productivity is lowered, the manufacturing cost is also increased.

The present invention was devised to solve the above problems, and the balance weight is configured in a fan shape having a rotation shaft hole in the center angle portion thereof, so that the balance weight is also assembled through one shrink fit of the rotation shaft together with the core. Thus, the object of the present invention is to provide a motor rotator and a balance weight thereof that can simplify the process by omitting the existing lug riveting process.

Motor rotator of the present invention for achieving the above object is made in a circular shape of a certain angle range having a rotating shaft hole in the center angle portion, and is heated to the rotating shaft hole in the state in which the rotating shaft hole is thermally expanded And a balance weight to be assembled by the shrinkage in which the rotary shaft is forcedly press-fitted.

In addition, the balance weight of the present invention for achieving the above object is a balance weight that is coupled to the upper side and / or lower side of the rotator core to correct the weight deviation generated during the rotation action, the rotation axis 140 in the center angle portion It is characterized in that it is made of a circular-shaped shape of a certain angle range having a rotating shaft hole is inserted and coupled.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

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

3 is a schematic perspective view showing a coupling method of a rotator for a motor according to the present invention.

Prior to the description, some of the detailed description of the same components as the prior art will be omitted.

The balance weight 130 ′ according to the present invention has a fan shape, and a central shaft portion of the fan shape has a rotating shaft hole corresponding to the rotating shaft holes 110a and 120a 'on the core 110 and the end ring 120'. 132 ') is formed.

In addition, the lug 122 previously provided for coupling the balance weight 130 'on the top surface of the end ring 120 is omitted.

As a result, the balance weight 130 'according to the present invention has the rotating shaft hole 132' integrally with its center portion, and thus the rotating shaft hole 110a and 120a together with the circular core 110 and the end ring 120 '. ', 132') can be assembled through a single shrinkage of the rotating shaft 140 at the same time, so that the process can be simplified, thereby increasing the productivity and reducing the manufacturing cost You can do it.

That is, the core 110 having the end ring 120 'coupled to both side ends and the balance weight 130' coupled to both side ends thereof are heated in a heating furnace for several hours, and their rotary shaft holes 132 'are thermally expanded. In the expanded state, the rotating shaft 140 is forced to press against the corresponding rotating shaft hole 132 ′, and then cooled to achieve a firm coupling with each other.

Furthermore, the balance weights 130 ′ and 130 ″ according to the present invention have a fan shape having rotating shaft holes 132 ′ and 132 ″ in the center angle portions thereof, and the balance weights 130 ′ and 130 ″ are provided. Since it is necessary to have a different weight according to the specifications of the motor or weight deviation generated in the rotator (100 '), and also because the outer portion is usually heavy than the center side can provide a large weight deviation correction effect, As shown in FIG. 4, the inner portion of the center side where the rotating shaft hole 132 ″ is formed is formed of a thin plate portion 130a ″, and the outer portion has a thick thick plate portion having a relatively thick weight ( 130b '') may be formed.

In the foregoing description, it should be understood that those skilled in the art can make modifications and changes to the present invention without changing the gist of the present invention as merely illustrative of a preferred embodiment of the present invention.

According to the present invention, since the balance weights can be assembled at the same time by shrinking the shrinkage of the rotating shaft with respect to the core, it is possible to achieve a process simplification, to achieve the effect of improving productivity and reducing manufacturing costs Can be.

Claims (5)

The rotating shaft is formed in a circular shape having a predetermined angular range having the rotating shaft holes 132 ′, 132 ″ in the central angle portion, and the rotating shaft in the state in which the rotating shaft holes 132 ′, 132 ″ are thermally expanded. And a balance weight (130 ', 130 &quot;) which is assembled by a shrinkage in which the rotating shaft (140) is forcedly pressed against the balls (132', 132 &quot;). The method of claim 1, The circular shape is, A motor rotator, characterized in that it has a fan shape. As the balance weights 130 ′ and 130 ″ coupled to the upper side and / or lower side of the rotator core 110 to correct the weight deviation generated during the rotation action, Balance weight, characterized in that formed in the shape of a circle of a certain angle range having a rotating shaft hole (132 ', 132' ') is inserted into and coupled to the central angle portion. The method of claim 3, wherein The circular shape is, A motor rotator, characterized in that it has a fan shape. The method of claim 3, wherein The inner portion of the center side where the rotating shaft holes 132 ′, 132 ″ are formed is formed of a thin plate portion 130a ″, Balanced weight, characterized in that the outer portion is formed of a heavy plate portion (130b ″) that is thick and relatively heavy.

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