JPH0620911Y2 - Centering bush - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of use] The present invention relates to an improvement of a centering bush mounted on a connecting portion between a propeller shaft and an output shaft of a transmission.

[Conventional technology]

Conventionally, as shown in FIG. 3, at a connecting portion between a propeller shaft a and an output shaft c of a transmission, a yoke b fixed to an end portion of the propeller shaft a and a yoke spline-fitted to an end portion of the output shaft c. A flexible coupling f and a centering bush g formed by elastically coupling e are mounted.

The centering bush g slides on the outer sleeve 1 fitted and fixed to the inner circumference of the yoke b at the end of the propeller shaft a and the centering shaft d at the end of the output shaft c on the inner circumference of the outer sleeve 1. It is composed of an inner sleeve 2 that is freely fitted outside, and an elastomer 3 that is bonded between the outer sleeve 1 and the inner sleeve 2,
The inner cavity 2 of the outer sleeve 1 is filled with grease (not shown) for lubrication between the sliding surface of the inner sleeve 2 and the centering shaft d.

A seal lip 4 is formed at the end of the elastomer 3 on the side opposite to the cavity 10 and prevents foreign matter from entering between the sliding surfaces and grease from the sliding surface to the outside.
Is a partition wall for preventing the grease from flowing out from the cavity portion 10, and has a vent hole 12 at the center for allowing the flow of air accompanying the axial displacement of the centering shaft d.

Further, the elastomer 3 needs a high spring constant in the radial direction in order to secure the centering accuracy at the time of high rotation. Therefore, conventionally, the protrusion 13 is formed on the outer peripheral surface of the inner sleeve 2, and the thickness of the elastomer 3 is thinned at the outer peripheral position of the protrusion 13, so that the required spring constant is secured. There is.

[Problems to be solved by the device]

However, the centering bush g of the above-described conventional structure has the protrusion 13 formed on the outer peripheral surface of the inner sleeve 2 in response to the input of the torsional load from the propeller shaft a.
As a result, the elastomer 3 is subjected to concentrated stress in the vicinity of the protrusion 13, so that there is a problem in durability.

Therefore, the present invention has been made in view of the above problems, and an object thereof is to improve the durability of the propeller shaft against twisting input.

[Means for Solving the Problems]

In order to solve the above-mentioned problems, the centering bush of the present invention comprises one or a plurality of elastomers between an outer sleeve and an inner sleeve that is slidably inserted through the inner sleeve of the outer sleeve. A plurality of annular members are embedded, the annular members are arranged with respect to the outer sleeve and the inner sleeve via the elastomer, the outer peripheral surface of the annular member is cylindrical, and the inner periphery of the annular member is The surface and the outer peripheral surface of the inner sleeve are characterized by a spherical shape or an approximate spherical shape centered on a point on the axis.

[Action]

In the configuration of the present invention, when a torsional load is input from the shaft, the elastomer between the annular member and the opposing surface of the inner sleeve, which is relatively displaced along with this, receives the load in the shearing direction, so that the localized concentrated stress is applied. It is hard to receive. Forming the facing surfaces in a substantially spherical shape corresponding to each other is effective in alleviating the concentrated stress at the time of this twisting input.

Further, by providing the annular member, the elastomer between the outer sleeve and the inner sleeve becomes thinner than that of the conventional structure, and the spring constant in the radial direction is significantly increased.

〔Example〕

Hereinafter, the centering bush of the present invention will be described with reference to an embodiment shown in FIGS. 1 and 2. In addition,
In the illustrated embodiment, the same or corresponding parts as those of the conventional centering bush g of FIG. 3 described above are designated by the same reference numerals, and the description thereof will be omitted.

That is, the centering bush of the present embodiment has the elastomer 3 between the outer sleeve 1 and the inner sleeve 2.
Inside, two annular members 5, which are lined up with a slight distance in the axial direction,
5, each annular member 5 is arranged with respect to the outer sleeve 1 and the inner sleeve 2 via an elastomer 3, and the outer peripheral surface of each annular member 5 has a cylindrical shape. The opposing surfaces 5a, 2a of the annular member 5 and the inner circumference of the inner sleeve 2 are relatively displaced when the annular member 5 and the inner sleeve 2 are relatively displaced by a prying input due to the deflection of the propeller shaft (reference numeral A in FIG. 3). The portion 3a between the facing surfaces 5a and 2a of the elastomer 3 is formed in a spherical shape centering on a point P on the axis O of the centering bush so as to be sheared.

According to the above-mentioned configuration, as shown in FIG. 2, the elastomer 3 receives the shearing at the portion 3a between the facing surfaces 5a and 2a corresponding to each other in the spherical shape with respect to the input of the twisting load F ₁ . Its spring constant is relatively low and it is unlikely to receive localized concentrated stress. Therefore, the durability of the elastomer 3 is excellent.

Further, the elastomer 3 receives the input of the radial load F ₂ ,
The portion 3a between the opposed surfaces 5a and 2a and the portion between the annular member 5 and the opposed surface of the outer sleeve 1 on the outer periphery of the annular member 5 are compressed, and the annular member 5 intervenes between the outer sleeve 1 and the inner sleeve 2. Since the thickness of the elastomer 3 is thin, the radial compression spring constant is large and the eccentricity amount can be kept small (high centering accuracy).

When a plurality of annular members 5 are provided in the axial direction as in the illustrated embodiment, the facing surface 5a of each annular member 5 facing the inner sleeve 2 has a rounded shape approximate to a spherical surface centered on the point P. Alternatively, it is also effective to form a taper corresponding to the facing surface 2a of the inner sleeve 2, and only one annular member 5 may be provided.

[Effect of device]

As is clear from the above description, the centering bush of the present invention can remarkably reduce the concentrated stress of the elastomer between the outer sleeve and the inner sleeve due to the input of the torsional load from the shaft and improve the durability. In addition to the above, it is possible to significantly improve the centering accuracy with respect to the input of the radial load, which is an excellent effect.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of the centering bush of the present invention, FIG. 2 is an explanatory view of the operation, and FIG. 3 is a sectional view showing a mounted state of a conventional centering bush. 1 outer sleeve, 2 inner sleeve 2a, 5a facing surface, 3 elastomer 3a part between facing surfaces, 4 seal lip 5 annular member, O axis core

Claims (1)

[Scope of utility model registration request] 1. An outer sleeve (1) which is concentrically fixed to one shaft, and an inner sleeve (2) which is slidably inserted in the inner circumference of the outer sleeve (1) and the other shaft. )
And an elastomer adhered between the sleeves (1) and (2)
In the centering bush including (3), the elastomer (3) is located between the sleeves (1) and (2).
One or a plurality of annular members (5) are embedded therein, and the annular members (5) are arranged with respect to the outer sleeve (1) and the inner sleeve (2) via the elastomer (3). The outer peripheral surface of the annular member (5) is cylindrical, and the inner peripheral surface of the annular member (5) and the outer peripheral surface of the inner sleeve (2) are one point (P) on the axis (O). A centering bush having a spherical shape or an approximate spherical shape centered on.