KR0128760Y1 - Bush for supporting a shaft - Google Patents

Abstract

The present invention is for the shaft support bush, the main purpose of the invention is to ensure that there is no change in the inner diameter of the bush possible to assemble the bush into the inner diameter of the housing, and to go further to ensure good operation of the shaft and long life. It is to

A characteristic means for this is in the bush to be inserted into the inner diameter of the housing to support the shaft, the outer diameter is the boundary portion of the middle point, the upper side is formed of a large diameter portion, the lower side is formed of a small diameter portion, The inner diameter is to form a tapered shape so that the upper inner diameter is the largest and the lower inner diameter is the smallest.

Description

Shaft Support Bush

1 is a cross-sectional view showing a conventional bush.

2 is a cross-sectional view of the bush of the present invention.

3 is a cross-sectional view showing a state of use of the present invention.

* Explanation of symbols for main parts of the drawings

2: housing 3: bush

4: shaft 21: housing inner diameter

34: boundary part 35: taper part

D1: large diameter part D2: small diameter part

D3: Upper inner diameter D4: Lower inner diameter

P1: step difference P2: slope

The present invention relates to a shaft support bush, and more particularly, when assembling the bush with the inner diameter of the housing, the compression force acts from the outer diameter of the bush, which affects the inner diameter, thereby reducing the effect. It is.

In general, in order to support the shaft of the various devices through the bush (1) through the inner diameter of the shaft housing (2), such a conventional bush can be seen in FIG.

The bush 1 of FIG. 1 has the same dimension as the outer diameter d2 from the upper end to the lower end, and the inner diameter d1 also has the same dimension from the upper end to the lower end. In the case of the inner diameter, the bush 1 slides with the outer diameter of the shaft in close contact. They are machined to within precision tolerances (mostly H ₇ tolerances).

Since the conventional bush has the same dimensions from the upper end to the lower end, when the bush 1 is inserted into the inner diameter 21 of the housing 2 by a force fitting method, pressure is applied from the outer diameter to the inner diameter side to the inner diameter (d1). Changes in dimensions.

That is, the inner diameter (d1) of the bush (1) should be machined to be within the range of the precision tolerance, but it is out of the range of the precision tolerance due to the pressure exerted from the outer diameter side. In addition, abrasion is severe and the life of the bush or shaft is shortened, and in some cases, the inner diameter of the bush is reworked.

Therefore, the present invention has been devised to solve the conventional problems as described above. The main purpose of the present invention is to ensure that there is no change in the inner diameter of the bush, even if the bush is fitted to the inner diameter of the housing. It is to make this last long.

A characteristic means for this is in the bush which can be inserted into the housing inner diameter in a force-fitting manner to support the shaft, the outer diameter of which is the boundary of the middle point, the upper side is formed with a large diameter portion, the lower side is formed with a small diameter portion, the inner diameter Will be in the tapered shape so that the largest inner diameter and the smallest inner diameter are the smallest.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing the bush (3) of the present invention, the characteristics of the outer diameter portion and the inner diameter portion can be seen well.

The outer diameter portion is formed by the boundary 34 of the middle portion as a point, and the upper end portion is formed by the large diameter portion D1, and the lower end portion is formed by the small diameter portion D2.

In addition, the dimensions of the upper inner diameter portion D3 of the inner diameter portion and the lower inner diameter portion D4 are such that the upper inner diameter portion D3 is larger than the lower inner diameter portion D4, and the tapered portion 35 therebetween is It has a slope P2 which is reduced from the dimension of the upper inner diameter part D3 to the dimension of the lower inner diameter part D4.

The diameter difference between the large diameter portion D1 and the small diameter portion D2 of the outer diameter portion as described above is in the range of about 0.1 mm to 0.2 mm, so that the one-side step P1 is in the range of about 0.5 mm to 0.1 mm. It is in

In addition, the diameter difference between the upper inner diameter portion D3 and the lower inner diameter portion D4 of the inner diameter portion is also in the range of 0.1 mm to 0.2 mm, so that the slope P2 of the tapered portion 35 is about 0.05 mm to 0.1 mm. It is in the range of.

When the bush 3 of the present invention formed as described above is forcibly inserted into the housing 2 as shown in FIG. 3, the large diameter portion D1 of the outer diameter portion is initially in close contact with the inner diameter 21 of the housing 2. And the small diameter portion D2 is not in close contact.

Therefore, the upper inner diameter portion D3, which is the inner side of the large diameter portion D1, is deformed inward within the range of about 0.1 mm to 0.2 mm, which is the dimension tolerance range under the influence of the compressive force.

Subsequently, when the shaft is inserted into the inner diameter of the bush 3, the tip of the shaft is inserted while contacting the tapered portion 35, and this time, a pressure is applied to expand the small diameter portion D2 of the shaft.

That is, the small diameter portion D2 extends about 0.1 mm to 0.2 mm in the tolerance range so that the small diameter portion D2 also contacts the inner diameter of the housing 2.

In this way, when the bush 3 is pressed into the inner diameter of the housing 2 and the shaft 4 is inserted into the inner diameter of the bush 3, the bush 3 receives a compressive force inward and outward as shown in the arrow direction of FIG. Only when the large diameter portion D1 and the small diameter portion D2 of the outer diameter portion are in contact with the housing inner diameter 21 can support the shaft, it is possible to maintain a range of ideal precision tolerances.

The present invention as described in detail above, the outer diameter portion of the bush (3) is formed with a large diameter portion (D1) and a small diameter portion (D2) having different dimensions, and the inner diameter portion is formed by a tapered portion (35) bush ( 3) is pressed against the inner diameter of the housing 2, and when the shaft 4 is inserted into the inner diameter portion of the bush 3, the large diameter portion D1 is inward and the small diameter portion D2 is outward. The pressure is applied to the upper and lower ends, so that both the upper and lower ends are within the range of normal precision tolerances, which ensures smooth operation of the shaft, prevents the wear of the shaft, and extends the life.

Claims (1)

In the bush 3, which can support the insertion shaft 4 in an interference fit manner to the inner diameter of the housing 2, the outer diameter portion has a diameter portion D1 at the upper end side with the boundary 34 of the middle point as a point. ), And the lower end side is formed of a small diameter portion (D2), the inner diameter portion is formed in the order of the upper inner diameter portion (D3), the tapered portion 35, and the lower inner diameter portion (D4), the upper inner diameter portion Axial support, characterized in that (D3) is larger than the lower inner diameter portion (D4), and the tapered portion 35 is tapered to be reduced from the dimension of the upper inner diameter portion (D3) to the dimension of the lower inner diameter portion (D4). Dragon bush.