A device for removing a tread from a wheel (e.g., a closing wheel of a planter, a gauge wheel of a planter, a gauge wheel of a cultivator, a gauge wheel of seed drill etc.) includes a body configured to support the wheel, and a fastener coupled to the body. The fastener is configured to engage the wheel when the wheel is supported by the body, and position the wheel on the body, and then compress the wheel against the body to thereby allow removal of a tread from the wheel.

A device used for cutting a pipe from an inside. The device has a spindle arranged to be rotated. The device further has protrusions fastened to the spindle and arranged to position the device or a part of the device inside the pipe. The protrusions have at least one blade arranged to machine material off the inner surface of the pipe to cut the pipe while the spindle is being rotated.

A method for preparing a portion of a tire for repair includes the steps of providing a template having a pair of guide edges, securing the template to an interior surface of the tire, providing a tool for forming a discontinuity in the interior surface of the tire, forming a discontinuity in the interior surface of the tire, with the tool, along the guide edges of the template, and removing the template from the tire.

A method of measuring wear rate in an actual rubber tire. A section of rubber is cut out of an actual tire below the surface of the tire. The cut out section is attached to the surface of a first wheel. An abrasive substance is attached to the surface of a second wheel. The two wheels are rotated for a predetermined time, in opposite directions, in contact with each other, at uneven rates resulting in some slippage between the surfaces of the two wheels. The wear rate of the rubber tire is measured based on the changes in the cut section over time, in much less time and using less resources than required by conventional wear measurement methods.

A material-removing machine for removing material from a cone section of a medical balloon includes a material-removing element operatively connected to a prime mover such that operation of the prime mover imparts rotation to the material-removing element about a rotational axis. The material-removing element includes an interior surface defining a generally conical-shaped cavity extending along the rotational axis and adapted to receive at least a longitudinal portion of a cone section of an expanded medical balloon for removing material from the longitudinal portion of the cone section to reduce a wall thickness of the cone section. Material may be removed continuously around a 360-degree exterior perimeter of the longitudinal portion of the cone section of the medical balloon to reduce the thickness of the balloon wall defining the cone section.

A material-removing machine for removing material from a cone section of a medical balloon includes a material-removing element operatively connected to a prime mover such that operation of the prime mover imparts rotation to the material-removing element about a rotational axis. The material-removing element includes an interior surface defining a generally conical-shaped cavity extending along the rotational axis and adapted to receive at least a longitudinal portion of a cone section of an expanded medical balloon for removing material from the longitudinal portion of the cone section to reduce a wall thickness of the cone section. Material may be removed continuously around a 360-degree exterior perimeter of the longitudinal portion of the cone section of the medical balloon to reduce the thickness of the balloon wall defining the cone section.

Grinding a rod-shaped welding electrode includes forming a contact line at a contact surface region of a rotating grinding tool, moving the rotating grinding tool and the welding electrode relative to one another in order to grind a surface of the welding electrode, pressing the welding electrode in an axial direction against an abrasive contact surface region of the rotating grinding tool, and, during relative movement between the rotating grinding tool and the welding electrode, moving the rotating grinding tool along a curved path in a plane of movement which extends transversely to the contact line and which includes a longitudinal axis of the welding electrode. A holder for the rotating grinding tool is arranged on a coupler mechanism which is provided with two actuating drives enabling the holder to be moved to any point within an operating range of a plane of movement.

Grinding a rod-shaped welding electrode includes forming a contact line at a contact surface region of a rotating grinding tool, moving the rotating grinding tool and the welding electrode relative to one another in order to grind a surface of the welding electrode, pressing the welding electrode in an axial direction against an abrasive contact surface region of the rotating grinding tool, and, during relative movement between the rotating grinding tool and the welding electrode, moving the rotating grinding tool along a curved path in a plane of movement which extends transversely to the contact line and which includes a longitudinal axis of the welding electrode. A holder for the rotating grinding tool is arranged on a coupler mechanism which is provided with two actuating drives enabling the holder to be moved to any point within an operating range of a plane of movement.

Provided are a method for manufacturing a sliding member, a method for manufacturing a shock absorber, a sliding member, a shock absorber, and a method for adjusting ride comfort capable of improving retention of lubricating oil between sliding members while increasing operability and capable of sustaining smooth sliding of the sliding members. A method for manufacturing a sliding member that performs a sliding operation in a presence of a lubricating oil, the method having a first polishing step of polishing a surface of the sliding member in a circumferential direction of the sliding member by using a polishing tape having a first whetstone to form a plurality of grooves disposed around the sliding member in the circumferential direction; and a second polishing step of polishing the sliding member after the first polishing step to form a surface cross section in a longitudinal direction of the sliding member in a plateau shape.

Provided are a method for manufacturing a sliding member, a method for manufacturing a shock absorber, a sliding member, a shock absorber, and a method for adjusting ride comfort capable of improving retention of lubricating oil between sliding members while increasing operability and capable of sustaining smooth sliding of the sliding members. A method for manufacturing a sliding member that performs a sliding operation in a presence of a lubricating oil, the method having a first polishing step of polishing a surface of the sliding member in a circumferential direction of the sliding member by using a polishing tape having a first whetstone to form a plurality of grooves disposed around the sliding member in the circumferential direction; and a second polishing step of polishing the sliding member after the first polishing step to form a surface cross section in a longitudinal direction of the sliding member in a plateau shape.