(!)Due to Microsoft's end of support for Internet Explorer 11 on 15/06/2022, this site does not support the recommended environment.
Miniature Cam Followers - Thrust disc, with cage.
IKO
Miniature cam follower equipped with a thrust disk made of special synthetic resin with excellent resistance to abrasion and heat. This product receives an axial load from the outer ring caused by a mounting error to reduce friction and abrasion of the sliding surface. These bearings have special resin thrust disc washers with superior wear and heat resistance between the sliding contact area of the outer ring shoulders, stud head and side plate. These disc washers reduce friction and wear due to axial loads caused by misalignment, etc.
Days to Ship: | 8 Days |
---|
Miniature Cam Followers - CFSV Series.
IKO
IKO Cam Followers are bearings with a stud incorporating needle rollers in a thick walled outer ring. These bearings are designed for outer ring rotation,and have superior rotational performance with asmall coefficient of friction. Also, they are designed to have minimal radial internal clearance to increase the loading zone, reducing the effect of shock loads and ensure stable long life.
·Miniature Type
·CFSV Series
Days to Ship: | 5 Days or more |
---|
Miniature Cam Followers - Pusher disc, with cage, CFSW series.
IKO
IKO Cam Followers are bearings with a stud incorporating needle rollers in a thick walled outer ring.These bearings are designed for outer ring rotation,and have superior rotational performance with asmall coefficient of friction.Also, they are designed to have minimal radial internal clearance to increase the loading zone, and thusreduce the effect of shock loads and ensure stablelong life.
·Thrust Disk.
·with Cage
·with Hexagon Hole
·Stainless Steel
·CFSW Series
Days to Ship: | 8 Days |
---|
Miniature Cam Followers - Stainless steel, CFSFV series.
IKO
IKO Cam Followers are bearings with a stud incorporating needle rollers in a thick walled outer ring. These bearings are designed for outer ring rotation,and have superior rotational performance with asmall coefficient of friction. Also, they are designed to have minimal radial internal clearance to increase the loading zone, reducing the effect of shock loads and ensure stable long life.
·Miniature Type.
·Stainless Steel
·CFSFV Series
Days to Ship: | 5 Days or more |
---|
Brand |
---|
Product Series |
CAD |
Days to Ship |
Category |
Roller Type |
Roller O.D. D(Ø) |
Roller Width B(mm) |
Roller Follower ID(mm) |
Thread Size on Cam Follower (M)(mm) |
Tightening Method |
Cam Follower: Stud Screw (Fine Thread)(mm) |
Material |
Roller Lining |
Cam Follower Type |
Roller Follower Type |
Shaft |
Unit |
Roller Guiding Method |
Inner Ring |
Brand | IKO | IKO | IKO | IKO |
---|---|---|---|---|
Product Series | Miniature Cam Followers - Pusher disc, with cage, CFSW series. | |||
CAD |
|
|
|
|
Days to Ship | 8 Days | 5 Days or more | 8 Days | 5 Days or more |
Category | Cam Followers | Cam Followers | Cam Followers | Cam Followers |
Roller Type | Cylindrical Outer Ring | Cylindrical Outer Ring | Cylindrical Outer Ring | Cylindrical Outer Ring |
Roller O.D. D(Ø) | 4 ~ 10 | 4.5 ~ 12 | 4.5 ~ 10 | 4.5 ~ 12 |
Roller Width B(mm) | 1.7 ~ 6 | 2.5 ~ 7 | 2.5 ~ 6 | 2.5 ~ 7 |
Roller Follower ID(mm) | - | - | - | - |
Thread Size on Cam Follower (M)(mm) | M1.4x0.3 ~ M5 x0.8 | M2 x0.4 ~ M6x1 | M2 x0.4 ~ M5 x0.8 | M2x0.4 ~ M6x1 |
Tightening Method | Hex Socket on Head | Hex Socket on Head | Hex Socket on Head | Hex Socket on Head |
Cam Follower: Stud Screw (Fine Thread)(mm) | - | - | - | - |
Material | Carbon Steel | Carbon Steel | Stainless Steel | Stainless Steel |
Roller Lining | None | None | None | None |
Cam Follower Type | Miniature | Miniature | Miniature | Miniature |
Roller Follower Type | - | - | - | - |
Shaft | Provided | Provided | Provided | Provided |
Unit | Metric Series | Metric Series | Metric Series | Metric Series |
Roller Guiding Method | Retainer Type / Full Roller Type | Retainer Type / Full Roller Type | Retainer Type | Retainer Type / Full Roller Type |
Inner Ring | - | - | - | - |
Loading...
How can we improve?
How can we improve?
While we are not able to respond directly to comments submitted in this form, the information will be reviewed for future improvement.
Customer Privacy Policy
Thank you for your cooperation.
While we are not able to respond directly to comments submitted in this form, the information will be reviewed for future improvement.
Please use the inquiry form.
Customer Privacy Policy