This application is a National Stage of International Application No. PCT/JP2016/065566, filed May 26, 2016 (now WO 2016/190385A1), which claims priority to Japanese Application No. 2015-108511, filed May 28, 2015. The entire disclosures of each of the above applications are incorporated herein by reference.
The present disclosure relates to a ball joint provided in various apparatuses such as a vehicle.
Conventionally, various apparatuses such as a vehicle are provided with a ball joint. For example, in a suspension of an automobile, a ball joint is fitted to a knuckle provided in a vehicle body. A dust cover is used on the ball joint in order to prevent water, dust, and the like from entering a joint section and to prevent grease from flowing out from the joint section. A ball joint according to a conventional example will now be described with reference to
A ball joint 600 includes a ball stud 610 having a spherical section 612 at one end of a shaft section 611, a socket 620 which rotatably and swingably supports the ball stud 610, and a dust cover 630 which suppresses dust from entering the socket 620. In addition, the dust cover 630 has a seal main body which is made of an elastic body and which integrally includes a deformable film-like body section 631, a fixed section 632 which is provided at one end of the body section 631 and which is fixed to the socket 620, and an inner circumferential seal section 634 and a dust seal section 635 which are provided at another end of the body section 631. Moreover, the inner circumferential seal section 634 slides with respect to the shaft section 611 of the ball stud 610 and the dust seal section 635 slides with respect to the knuckle (not shown) described earlier.
The ball joint 600 configured as described above is shipped to vehicle manufacturers and the like in a state where the ball joint 600 is unitized by the ball stud 610, the socket 620, and the dust cover 630. Subsequently, at a shipping destination, the ball joint 600 is fitted to a knuckle (not shown) provided in a vehicle body. Specifically, the ball joint 600 is fitted to the knuckle by inserting the shaft section 611 into an insertion hole provided on the knuckle and fastening the shaft section 611 by a nut. In the process of the shaft section 611 being inserted into the insertion hole, the dust cover 630 is pushed by the knuckle in a direction of an arrow P in
If the ball joint 600 is fitted to the knuckle in a state where the body section 631 bulges outward, the body section 631 deforms effortlessly when the ball stud 610 swings or rotates. However, there may be cases where a part of the body section 631 deforms so as to buckle inward when the ball joint 600 is fitted to the knuckle. A dotted line 631X in
When the dust cover 630 is pushed in the direction of the arrow P from a state where the body section 631 is at its natural length, a buckling deformation as described above is unlikely to occur. However, there may be cases where the dust cover 630 is stretched longer than its natural length at the time of shipping or the like.
[PTL 1] Japanese Patent No. 3412480
An object of the present disclosure is to provide a ball joint capable of stabilizing a posture of a dust cover.
In order to solve the problem described above, the present disclosure adopts the following means.
Specifically, a ball joint according to the present disclosure is a ball joint to be fitted to a fitted member, the ball joint including: a ball stud which has a shaft, the shaft being provided with a spherical section on one end side thereof; a socket which has a bearing for the spherical section and which rotatably and swingably supports the ball stud; and a dust cover which suppresses dust from entering the socket, wherein the shaft section has an annular projection, the dust cover has a seal main body which is made of an elastic body and which integrally includes: a deformable body section; a fixed section which is provided in the body section on the one end side and which is fixed to the socket; an inner circumferential seal section which is provided in the body section on another end side and which is configured to be slidable on an outer circumferential surface of the shaft section (in the present disclosure, in addition to the shaft section itself of the ball stud, includes a shaft section of a different member provided on a side of an outer circumferential surface of the shaft section of the ball stud; the same applies hereinafter); and a dust seal section which is provided in the body section on the other end side and which stretches toward the other end side, and the ball joint is provided with a positioning member which is mounted to the shaft section in advance before the ball joint is fitted to the fitted member and which positions an end of the dust cover on the other end side with respect to the shaft section so that the inner circumferential seal section is positioned at an opposite side of the spherical section across the annular projection in a state where the body section bulges outward.
According to the present disclosure, before the ball joint is fitted to the fitted member, the dust cover on the other end side is positioned by the positioning member in a state where the body section bulges. Therefore, when the ball joint is fitted to the fitted member, a deformation of a part the body section of the dust cover so as to buckle inward is suppressed. In this manner, the posture of the dust cover can be stabilized.
Favorably, the positioning member includes: a metal plate which has an insertion hole through which the shaft section is inserted; and an elastic member which is provided along an inner circumferential surface of the insertion hole in the metal plate and which comes into close contact with an outer circumferential surface of the shaft section.
Accordingly, due to elastic repulsion of the elastic member, the positioning member can be readily mounted to the shaft section. In addition, a sealing function is also exhibited by the elastic member.
Favorably, a force by which the elastic member is fixed to the shaft section by elastic repulsion of the elastic member is greater than a force by which the dust cover in a deflected state is facilitated to return to an original state.
Accordingly, the inner circumferential seal section of the dust cover can be readily positioned to a desired position.
Favorably, the dust seal section is configured to be slidable on a surface of the metal plate.
Favorably, in a state where the ball joint is fitted to the fitted member, the inner circumferential seal section is positioned between the positioning member and the annular projection.
In this manner, since the inner circumferential seal section is positioned at a position on an opposite side of the spherical section across the annular projection, the inner circumferential seal section is not adversely affected by the annular projection when the ball joint is fitted to the fitted member. In addition, since the annular projection functions as a stopper, movement of the dust cover on the other end side toward a side of the spherical section can be restricted.
Moreover, the respective configurations described above can be adopted in combination with each other to the extent feasible.
As described above, according to the present disclosure, the posture of the dust cover can be stabilized.
Hereinafter, a mode for implementing the present disclosure will be described in detail by way of example of an embodiment with reference to the drawings. However, it is to be understood that dimensions, materials, shapes, relative arrangements, and the like of components described in the embodiment are not intended to limit the scope of the disclosure thereto unless otherwise specifically noted. In the following embodiment, a ball joint to be fitted to a knuckle provided in a suspension of an automobile will be described as an example.
A ball joint according to an embodiment of the present disclosure will be described with reference to
<Ball Joint>
An example of a ball joint 100 according to the present embodiment will be described particularly with reference to
The socket 20 includes an annular case 21, a bottom plate 22 fixed to a bottom of the case 21, and a bearing 23 for the spherical section 12. The bearing 23 has a bearing surface 23a constituted by a spherical surface with a same radius as a curvature radius of the spherical section 12. The dust cover 30 is configured to prevent water, dust, and the like from entering a joint section in the socket 20 and to prevent grease from flowing out from the joint section. The ball joint 100 according to the present embodiment is provided with a positioning member 40 which is mounted to the shaft section 11 in advance before the ball joint 100 is fitted to the knuckle 200 and which positions an end of the dust cover 30 on the other end side.
<Dust Cover>
An overall configuration of the dust cover 30 will now be described particularly with reference to
In the dust cover 30 configured as described above, when the ball stud 10 swings with respect to the socket 20, the body section 31 deforms (see
<Assembly Procedure of Ball Joint>
An assembly procedure of the ball joint according to the present embodiment will be described with reference to
As described above, the positioning member 40 is mounted in advance to the shaft section 11 before the ball joint 100 is fitted to the knuckle 200 which is a fitted member. The positioning member 40 is configured to position the other end of the dust cover 30 with respect to the shaft section 11 in a state where the body section 31 of the dust cover 30 bulges outward, so that the inner circumferential seal section 33 is positioned at an opposite side of the spherical section 12 across the annular projection 11a (see
<Fitting Procedure of Ball Joint to Fitted Member (Knuckle)>
A fitting procedure of the ball joint 100 to the knuckle 200 according to the present embodiment will be described particularly with reference to
In the present embodiment, a configuration is adopted in which only an end surface of one end of the elastic member 42 in the positioning member 40 abuts against the knuckle 200. In this case, depending on various conditions, a fixing force of the positioning member 40 to the shaft section 11 may become insufficient and, when the ball stud 10 rotates, the positioning member 40 may rotate together with the shaft section 11. In consideration thereof, as in a modification shown in
<Advantages of Ball Joint According to Present Embodiment>
With the ball joint 100 according to the present embodiment configured as described above, before the ball joint 100 is fitted to the knuckle 200, the other end of the dust cover 30 is positioned by the positioning member 40 in a state where the body section 31 bulges. Therefore, when the ball joint 100 is fitted to the knuckle 200, a deformation of bucking inward of a part of the body section 31 of the dust cover 30 is suppressed. In this manner, the posture of the dust cover 30 can be stabilized.
The positioning member 40 according to the present embodiment is constituted by: the metal plate 41; and the elastic member 42 which is provided along an inner circumferential surface of an insertion hole in the metal plate 41 and which comes into close contact with an outer circumferential surface of the shaft section 11. Accordingly, due to elastic repulsion of the elastic member 42, the positioning member 40 can be readily mounted to the shaft section 11. A sealing function is also exhibited by the elastic member 42. In the present embodiment, a force by which the elastic member 42 is fixed to the shaft section 11 by the elastic repulsion of the elastic member 42 is set greater than a force by which the dust cover 30 in a deflected state is facilitated to return to an original state. Accordingly, the inner circumferential seal section 33 of the dust cover 30 can be readily positioned to a desired position.
In the present embodiment, the inner circumferential seal section 33 is configured such that, in a state where the ball joint 100 is fitted to the knuckle 200, the inner circumferential seal section 33 is positioned between the positioning member 40 and the annular projection 11a. In this manner, the inner circumferential seal section 33 is positioned at an opposite side of the spherical section 12 across the annular projection 11a. Therefore, the annular projection 11a is not an obstacle for the inner circumferential seal section 33 when the ball joint 100 is fitted to the knuckle 200. Since the annular projection 11a functions as a stopper, movement of the other end of the dust cover 30 toward a side of the spherical section 12 can be restricted.
(Other)
In the embodiment described above, a case where the inner circumferential seal section 33 slides with respect to an outer circumferential surface of the shaft section 11 itself of the ball stud 10 has been presented. However, the present disclosure can also be applied to a case where an inner circumferential seal section is slidably configured with respect to an outer circumferential surface of a different member provided on an outer circumferential surface of the shaft section 11 of the ball stud 10. For example, as in the case of a technique disclosed in Japanese Patent Application Laid-open No. H11-63245, the present disclosure can also be applied to a configuration provided with a ferrule when an inner circumferential seal section slides with respect to the ferrule. As in the case of a technique disclosed in Japanese Utility Model Application Laid-open No. H03-32211, the present disclosure can also be applied to a configuration provided with a retaining member (a retainer) including a flange when an inner circumferential seal section slides with respect to the retainer.
Number | Date | Country | Kind |
---|---|---|---|
2015-108511 | May 2015 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2016/065566 | 5/26/2016 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2016/190385 | 12/1/2016 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
2456546 | Venditty | Dec 1948 | A |
3208779 | Sullivan, Jr. | Sep 1965 | A |
4220418 | Kondo | Sep 1980 | A |
5100254 | Wasada | Mar 1992 | A |
6814521 | Suzuki | Nov 2004 | B2 |
6866441 | Yokoyama | Mar 2005 | B2 |
7040833 | Kondoh | May 2006 | B2 |
7441979 | Heidemann | Oct 2008 | B2 |
8714861 | Bernhardt | May 2014 | B2 |
20030156894 | Suzuki | Aug 2003 | A1 |
20030156895 | Yokoyama | Aug 2003 | A1 |
20050105961 | Kondoh | May 2005 | A1 |
20100260538 | Brunneke | Oct 2010 | A1 |
Number | Date | Country |
---|---|---|
4113569 | Oct 1991 | DE |
10207779 | Oct 2003 | DE |
102011085543 | May 2013 | DE |
949966 | Feb 1964 | GB |
1318307 | May 1973 | GB |
S54-054769 | Apr 1979 | JP |
H11-063245 | Mar 1999 | JP |
2000-230540 | Aug 2000 | JP |
3412480 | Jun 2003 | JP |
2003-247529 | Sep 2003 | JP |
2014181672 | Nov 2014 | WO |
Entry |
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Extended European Search Report dated Oct. 8, 2018 (corresponding to EP16800089.1). |
Number | Date | Country | |
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20180149192 A1 | May 2018 | US |