KR200156410Y1 - Air venting hole of hemi-spherical bearing - Google Patents

Abstract

The present invention relates to a hemispherical bearing vent, its purpose is to provide a hemispherical bearing vent having a freely adjustable size by forming the vent inside the support shaft, the hemisphere groove 31 is formed in communication with each other in a direction opposite to each other formed Hemisphere bush 30, a pair of hemispheres 40 to be inserted into the hemisphere groove 31 so as to form a clearance between the hemisphere groove 31, hemisphere 40 to connect the hemispheres 40 provided on both sides Installed on the outer side of the support shaft 60, the circumferential groove 61 provided with a diameter smaller than the support shaft 60 on the axially middle side of the support shaft 60 is installed through the central side of the circumferential groove 61 Spacer 50 is provided, the spacer groove 51 is provided so as to communicate the outer circumferential groove 61 and the outer space of the spacer 50 on the outer circumferential side of the spacer 50, the hemispherical bush so as to communicate with the outside of the hemisphere bush 30 ( Support at one end of the support shaft 60 extending out of 30 The inner vent 100b connected to the outer vent 100a and the outer vent 100a which extends through the inside of the 60 and extends to both sides of the circumferential groove 61 to communicate with the interior of the circumferential groove 61. It is a configuration having.

Description

Hemisphere Bearing Aeration

The present invention relates to a hemisphere bearing vent, and more particularly, to a hemisphere bearing vent to communicate between the hemisphere groove and the outside so as to prevent the concentration of pressure between the hemisphere groove formed to correspond to both sides of the hemisphere bush.

In general, hemispherical bearings are a type of dynamic pressure bearings in which the hemisphere bush eccentrically coupled to the support rotates to generate the maximum pressure in the smallest gap therebetween and is spaced between them. Since it does not need a separate bearing in each direction, it can reduce the volume. When the fluid is used as air, it is suitable for use in the internal motor of electronic products because it does not need a lubricant and its sealing member.

1 is a cross-sectional view showing a motor in which a hemisphere bearing is installed. As shown in the figure, a multi-faceted mirror (10) reflects a laser beam scanned by a semiconductor laser (not shown) and sends it to a photosensitive drum (not shown) in a laser printer or a hard disk, a scanner, and a video player of a computer (10). ) Is installed. The multi-faceted mirror 10 is connected to the multi-faceted mirror guard 11 and the hemisphere bush 30 provided to the lower side, and the hemisphere 40 and the support shaft 60 to serve as a shaft inside the hemisphere bush 30. Is combined. The rotor 12 is coupled to the outside of the hemisphere bush 30, and a stator 21 coupled to the housing 20 is installed outside the rotor 12.

As shown in Figure 2, the hemisphere bush 30 is connected to the multi-faceted mirror 10 and the multi-faceted mirror guard 11, there is provided a hemisphere groove 31 recessed to correspond to each other in the upper and lower sides, Communication holes 32 are formed between the hemisphere grooves 31 so that the upper and lower hemisphere grooves 31 communicate with each other. And the hemisphere groove 31 is finely eccentrically coupled to the hemisphere 40 provided in a shape corresponding to the hemisphere groove 31, the hollow coupling hole 42 is formed in the interior of the hemisphere 40, The support shaft 60 is inserted into the coupling hole 42 to connect the hemispheres 40 provided at both sides. In addition, a spiral spiral groove (see FIG. 1) is formed on the outer surface of the hemisphere 40. In addition, between the hemispheres 40 is provided with a spacer 50 is formed as a hollow park pipe coupled to the outside of the support shaft (60). The spacer 50 adjusts the thickness of itself to adjust the distance between the upper hemisphere 40a and the lower hemisphere 40b and at the same time adjusts the clearance between the hemisphere 40 and the hemisphere bush 30.

On the other hand, such a hemisphere bearing is supported by the support shaft 60 and the hemisphere 40 connected to the stator 21 side due to the magnetic field generated between the stator 21 and the rotor 12 and the rotor 12 side. Rotor 12, hemisphere bush 30, the multi-faceted mirror guard 11, the multi-faceted mirror 10 is connected to the rotation, this time due to the eccentric coupling between the hemisphere 40 and hemisphere bush 30 The maximum pressure distribution is made by the smallest gap that is formed between the hemisphere 40 and the hemisphere bush 30 is spaced apart by a few microns interval so that the hemisphere bush 30 rises.

In addition, in the support shaft 60 and the spacer 50, pressure is concentrated on the spacer 50 side during the operation of the hemisphere bearing so that the rotation of the hemisphere bush 30 can be prevented from becoming unstable. A circumferential groove 61 and a vent 62 are provided to allow the outer space of the bush 30 to communicate with each other, and the circumferential groove 61 is formed to have a diameter that is reduced in the axial middle side of the support shaft 60. The ventilation hole 62 is formed between the coupling hole 42 provided as a cylinder by forming one side of the circumference of the support shaft 60 in a D cut.

As shown in FIG. 3, the circumferential groove 61 is a circumferential groove recessed toward the center in the axial middle side of the support shaft 60, and a spacer 50 provided as a hollow park tube is coupled thereon. . Spacer grooves 51 are provided on both sides of the spacer 50, and the outer grooves of the spacer grooves 51 communicate with the inner surface of the hemisphere bush 30, and the inner circumferential sides of the spacer grooves 51. Communicating. And the support shaft 60 is formed on one side of the circumference cutting portion 63 is a portion of the circumference cut by the D cut (D cut). As a result, when the support shaft 60 is coupled to the coupling hole 42, the cutting portion 63 and the coupling hole 42 communicate with each other toward the spacer 50 side where the pressure is concentrated and the hemisphere bush 30. A vent 62 for lowering the pressure to be formed is formed (see Fig. 2).

However, such a hemispherical bearing vent is formed outside the support shaft, so it is not easy to adjust the size of the vent. That is, in order to enlarge the vent, it is necessary to enlarge the cutting surface, but when the cutting surface is enlarged, there is a problem in that the size of the vent is limited because the coupling precision between the support shaft and the hemisphere decreases.

The present invention is to solve such a problem, an object of the present invention is to provide a hemispherical bearing air vent freely sized by forming a vent inside the support shaft.

1 is a cross-sectional view showing the inside of a motor in which a hemisphere bearing is embedded.

2 is a cross-sectional view showing a typical hemisphere bearing.

3 is a perspective view of the support shaft and the spacer shown in FIG.

Figure 4 is a cross-sectional view showing a hemisphere bearing in accordance with the present invention.

FIG. 5 is a perspective view of the support shaft and the spacer shown in FIG.

* Explanation of symbols for main parts of the drawings

30: hemisphere bush 31: hemisphere groove

32: communication hole 40: hemisphere

42: coupling hole 50: spacer

51: spacer groove 60: support shaft

61: circumferential groove 100: vent

The present invention for achieving the above object, a hemisphere bush provided in the communication with each other is provided in a direction opposite to each other, a pair of hemispheres inserted into the hemisphere groove so that a clearance is formed between the hemisphere groove A support shaft installed through the center side of the hemisphere so as to connect the hemispheres provided at both sides, a circumferential groove provided with a diameter smaller than the support shaft at an axial middle side of the support shaft, and a spacer installed outside the circumferential groove. In the hemispherical bearing having a spacer groove provided on the outer circumferential side of the spacer to communicate with the outer circumference of the spacer, one end of the support shaft extending to the outside of the hemisphere bush so as to communicate with the outside of the hemisphere bush An outer vent extending through the inside of the support shaft and the outer vent Connection is characterized in that the circumferential grooves extend in the inner opposite sides equipped with a communication hole communicating with the inside of the inner circumferential grooves.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment according to the present invention in detail.

The hemispherical bearing of the present invention is the same as the hemispherical bearing shown in Figure 1 except for the vent hole, and briefly described with reference to Figure 1 using the same name and the same reference numerals. Hemispherical bushes 30 having hemispherical grooves 31 are formed on the lower side of the multi-faceted mirror 10 and the multi-faceted mirror guard 11, and the communication holes 32 between the hemisphere grooves 31. ) Is formed. And the hemisphere groove 31 is a pair of hemispheres 40 are eccentrically coupled, the support shaft 60 is inserted into the coupling hole 42 inside the hemisphere 40, the spiral groove (Spiral Groove) outside the hemisphere 40 , 41). In addition, a spacer 50 for adjusting the distance between the hemispheres 40 is provided between the hemispheres 40, and the clearance of the hemisphere 40 and the hemisphere bush 30 is adjusted by adjusting the thickness of the spacer 50. Adjust

As shown in Figure 4, there is provided a hemisphere groove 31 recessed to correspond to each other in the upper, lower side, and the communication hole 32 is formed between the hemisphere groove 31, the upper and lower hemispheres The grooves 31 communicate with each other. And the hemisphere groove 31 is finely eccentrically coupled to the hemisphere 40 provided in a shape corresponding to the hemisphere groove 31, the hollow coupling hole 42 is formed in the interior of the hemisphere 40, The support shaft 60 is inserted into the coupling hole 42 to connect the hemispheres 40 provided at both sides. In addition, a spiral spiral groove (see FIG. 1) is formed on the outer surface of the hemisphere 40. In addition, between the hemispheres 40 is provided with a spacer 50 is formed as a hollow park pipe coupled to the outside of the support shaft (60). The spacer 50 adjusts the thickness of itself to adjust the distance between the upper hemisphere 40a and the lower hemisphere 40b and at the same time adjusts the clearance between the hemisphere 40 and the hemisphere bush 30.

Meanwhile, semicircular spacer grooves 51 are provided on both sides of the lower surface of the outer circumferential side of the spacer 50, and the outer circumferential side of the spacer groove 51 communicates with the inner surface of the hemisphere bush 30, and the inner circumferential side is the circumference to be recessed. It communicates with the groove 61.

In addition, in the support shaft 60 and the spacer 50, pressure is concentrated on the spacer 50 side during the operation of the hemisphere bearing so that the rotation of the hemisphere bush 30 can be prevented from becoming unstable. A circumferential groove 61 and a vent hole 100 are provided to communicate the external space of the bush 30.

As shown in Figure 5, the interior of the support shaft 60 is formed with a vent 100, which is a characteristic component of the present invention. The vent 100 is formed inside the support shaft 60 so as to communicate both the inner side of the circumferential groove 61 and the outside of the hemisphere bush 30, the outside communicated with the outside of the hemisphere bush 30 It is divided into the air vent 100a and the internal air vent 100b communicating with the inside of the hemisphere groove 31. First, the outer vent 100a extends through the inside of the support shaft 60 at one end of the support shaft 60 extending out of the hemisphere bush 30 so as to communicate with the outside of the hemisphere bush 30, and the inside The vent 100b is connected to the outer vent 100a and extends in both sides of the circumferential groove 61 to communicate with the inside of the circumferential groove 61. That is, the support shaft 60 penetrates the circumferential groove 61 and is formed with a vent 100 that is perpendicular to the lower side from the middle of the support shaft 60, where the outside air flows in, and the introduced air is The vent 100 extends and moves to the circumferential groove 61 communicating with each other, and flows into the hemisphere bush 30 through the spacer groove 51 formed on the outer circumferential surface of the circumferential groove 61. In this way, the air introduced into the hemisphere bush 30 lowers the pressure concentrated on the spacer 50 during the operation of the hemisphere bush 30 so as to evenly distribute the pressure on the front surface of the hemisphere bush 30.

As described in detail above, the hemispherical bearing vent according to the present invention can freely adjust the size of the vent due to the vent formed in the inner center of the support shaft, and can increase the adhesion and coupling precision between the support shaft and the coupling hole. There is an advantage.

Claims (1)

A pair of hemispherical grooves 31 provided in communication with each other and facing in a direction opposite to each other are inserted into the hemisphere grooves 31 so that clearance is formed between the hemisphere bushes 30 and the hemisphere grooves 31. Support shaft 60 is installed through the center side of the hemisphere 40 to connect the hemisphere 40, the hemisphere 40 provided on both sides, the support shaft on the axially middle side of the support shaft 60 A circumferential groove 61 having a smaller diameter than 60, a spacer 50 installed outside the circumferential groove 61, and the circumferential groove 61 and the spacer 50 on the outer circumferential side of the spacer 50. In the hemispherical bearing provided with a spacer groove 51 provided to communicate the outside of the support shaft 60 extending to the outside of the hemisphere bush 30 so as to communicate with the outside of the hemisphere bush 30 External vent 100 extending through the inside of the support shaft 60 at one end a), and the hemispherical bearing vent hole is connected to the outer vent hole (100a) and extending to both sides of the circumferential groove (61) to communicate with the inside of the circumferential groove (61). .