A cylinder device includes a cylinder that has one end from which a piston rod extends, a pipe-shaped cover member that has an extendable bellows portion and a small-diameter portion whose inner diameter is smaller than an inner diameter of the bellows portion, the cover member being configured to protect the piston rod, and a capping member fitted into the cylinder, the capping member having a convex portion to which the small-diameter portion of the cover member is locked, at an outer periphery, wherein at the small-diameter portion of the cover member, a bulge portion that bulges outside in a radial direction is formed.

A system for mixing content of a container comprises a container includes an interior mixing element, an exterior drive system and a mixing device comprising an exterior bearing for coupling the exterior drive system to the interior mixing element of the container. The exterior bearing provides a driven non-rotating, nutating motion that drives the interior mixing element of the container so that it performs a mixing motion inside the container.

A ball joint dust cover is provided. The ball joint dust cover is made of a rubbery elastic material and is provided with a small diameter opening part with which a hard ring is formed. The hard ring is sandwiched by a retainer having a three-sided box shape. The retainer includes a plurality of gaskets contacting the hard ring.

A ball joint dust cover is provided. The ball joint dust cover is made of a rubbery elastic material and is provided with a small diameter opening part with which a hard ring is formed. The hard ring is sandwiched by a retainer having a three-sided box shape. The retainer includes a plurality of gaskets contacting the hard ring.

Coupling (1) with a bellows-protected interlocking driving connection (2), at least comprising a hub (3) and a sleeve (4), wherein the driving connection (2) is arranged between the hub (3) and sleeve (4), wherein the driving connection (2) is protected by a bellows (5), wherein the bellows (5) is located in a recess (6) of the hub (3) and is fastened at one end to the sleeve end region (8) and at the other end opposite the sleeve end region (8) to the hub (3), wherein the annular recess (6) is bounded at least by an annular hub inner surface (16) directed towards the driving connection (2) and by an opposite hub outer surface (9) formed with respect to the end side (11) of the hub (3), wherein there is an annular gap (10) between the sleeve end region (8) and the hub outer surface (9) of the recess (6). The intention is to avoid dust and dirt penetrating the bellows section as wave troughs and face the hub outer surface, in the recess present with the hub in region bellows and hub outer surface.

Coupling (1) with a bellows-protected interlocking driving connection (2), at least comprising a hub (3) and a sleeve (4), wherein the driving connection (2) is arranged between the hub (3) and sleeve (4), wherein the driving connection (2) is protected by a bellows (5), wherein the bellows (5) is located in a recess (6) of the hub (3) and is fastened at one end to the sleeve end region (8) and at the other end opposite the sleeve end region (8) to the hub (3), wherein the annular recess (6) is bounded at least by an annular hub inner surface (16) directed towards the driving connection (2) and by an opposite hub outer surface (9) formed with respect to the end side (11) of the hub (3), wherein there is an annular gap (10) between the sleeve end region (8) and the hub outer surface (9) of the recess (6). The intention is to avoid dust and dirt penetrating the bellows section as wave troughs and face the hub outer surface, in the recess present with the hub in region bellows and hub outer surface.

A method for forming a seal boot includes forming a stack of discrete, non-intertwined layers by layering a sheet of elastomeric material with a fabric; rolling the stack to form a tube; installing the tube within a mold; closing the mold; and heating the mold and the installed tube.

Bellow of a flexible material for protecting a coupling comprising first and second connector end subject to vibration and torsion. The bellow comprises a material able to prevent material from entering or exiting the space between the connector ends. The bellow is arranged to be attached to the first connector end by a first clamp and to the second connector end by a second clamp. The bellow is provided with a zipper comprising a zipper slider and first and second zipper part attached to opposite ends of the sheet. Thus, the bellow can be wrapped around said first connector end and second connector end and closed by zipper.

Bellow of a flexible material for protecting a coupling comprising first and second connector end subject to vibration and torsion. The bellow comprises a material able to prevent material from entering or exiting the space between the connector ends. The bellow is arranged to be attached to the first connector end by a first clamp and to the second connector end by a second clamp. The bellow is provided with a zipper comprising a zipper slider and first and second zipper part attached to opposite ends of the sheet. Thus, the bellow can be wrapped around said first connector end and second connector end and closed by zipper.

A dust cover is configured to cover an outer side of a damper extending in a predetermined direction. The dust cover includes bellows portions and a flange portion. The bellows portions are inclined alternately toward a radially outer side and a radially inner side in an axial direction. The flange portion extends radially outward from a cylindrical portion of the dust cover. The flange portion protrudes radially outward from the cylindrical portion of the dust cover by a dimension larger than a height dimension in a radial direction between a radially inner end and a radially outer end of each of the bellows portions. A thickness of the flange portion is larger than a thickness of the radially outer end of each of the bellows portions.