To provide a ball transfer and a seal member for a ball transfer, a seal member is employed which is characterized in that it has a seal member employing pile fiber that, at a ball transfer having a main body which has a socket, an inner surface of which is a hemispherical concave surface, a plurality of ball bearings arranged at the main exterior socket, a primary ball, diameter of which is greater than that of said ball bearings and which is rotatably supported by the socket by way of the ball bearings, and a housing-like case which surrounds the main body socket and rotatably supports the ball bearings and the primary ball at a bearing portion thereof and which has a hole from which a portion of the primary ball is made to protrude at an upper surface of the primary ball socket.

Provided is an apparatus for treating containers, having a treatment device for treating the containers, and a carrier which is arranged such that it can move linearly with respect to a holder, wherein a plurality of rolling elements being arranged between the carrier and the holder and guiding the movement of the treatment device, wherein these rolling elements at least temporarily contact both a running surface of the carrier and a running surface of the holder, wherein the rolling elements are arranged in a rolling elements cage and move in the direction of movement, wherein this rolling element cage extends in the direction of movement and has a greater length than the holder.

A conveyance roller 3 including a support shaft 31, a main rotating portion 34, and a sub rotating portion 35, and a driving body 50 that is in contact with the main rotating portion 34 and the sub rotating portion 35 and that supplies a rotational force to the main rotating portion 34 and the sub rotating portion 35 are provided, wherein the main rotating portion 34 and the sub rotating portion 35 are attached along the support shaft 31 and are rotatable independently of each other around the support shaft 31, the sub rotating portion 35 is not configured to contact an object to be conveyed but the main rotating portion 34 is configured to contact the object to be conveyed and bias the object to be conveyed, the driving body 50 is rotated by power around a rotation shaft 51 in a direction intersecting with the support shaft 31, the support shaft 31 is configured to change an orientation of the support shaft 31 by rotating around the rotation shaft 51, and the driving body 50 is in contact with the main rotating portion 34 and the sub rotating portion 35 regardless of the orientation of the support shaft 31.

A roller platform apparatus includes a rigid plate, a set of bearings mounted on the rigid plate, and a set of one or more bars attached to the rigid plate. The set of bars is configured to restrict movement of a load into a space between the set of bearings and lower than the height of the one of more bars, and the height of the one or more bars is lower than the height of the first set of bearings and higher than the rigid plate. At least one advantage in this approach is that an equipment rack can be transported without the use of casters that are permanently attached to the equipment rack.

A roller ball assembly is provided. The assembly includes a primary roller ball supported by a support element that is composed of a superhard material. The assembly includes a cup defining a cavity within which the support clement is positioned. A cap is coupled with the cup and positioned to retain the primary roller ball within the cavity. Also, a cup is disclosed for supporting roller halls. Additionally, disclosed are system and apparatus incorporating the assembly, as well as to methods of making and using the same.

An objective is to develop a conveyor device capable of conveying a conveyance object in a plurality of directions. The conveyor device includes a roller portion (rotating body) 30 and a driving body 50. The rotating body 30 is rotatable around at least a first rotation axis 60, and the rotating body is rotatable around a second rotation axis 61 in a direction intersecting with the first rotation axis 60, and changes an attitude by rotating to change a direction of the first rotation axis 60. The driving body 50 is rotated by power around a third rotation axis 62, and the third rotation axis 62 extends in a direction intersecting with the first rotation axis 60. The driving body 50 is in contact with the rotating body at a position eccentric to one end in the direction of the first rotation axis 60 relative to the second rotation axis 61 regardless of attitude-changing of the rotating body.

A roller ball assembly is provided. The assembly includes a primary roller ball supported by a support element that is composed of a superhard material. The assembly includes a cup defining a cavity within which the support element is positioned. A cap is coupled with the cup and positioned to retain the primary roller ball within the cavity. Also, a cup is disclosed for supporting roller balls. Additionally, disclosed are system and apparatus incorporating the assembly, as well as to methods of making and using the same.

A conveyance roller 3 including a support shaft 31, a main rotating portion 34, and a sub rotating portion 35, and a driving body 50 that is in contact with the main rotating portion 34 and the sub rotating portion 35 and that supplies a rotational force to the main rotating portion 34 and the sub rotating portion 35 are provided, wherein the main rotating portion 34 and the sub rotating portion 35 are attached along the support shaft 31 and are rotatable independently of each other around the support shaft 31, the sub rotating portion 35 is not configured to contact an object to be conveyed but the main rotating portion 34 is configured to contact the object to be conveyed and bias the object to be conveyed, the driving body 50 is rotated by power around a rotation shaft 51 in a direction intersecting with the support shaft 31, the support shaft 31 is configured to change an orientation of the support shaft 31 by rotating around the rotation shaft 51, and the driving body 50 is in contact with the main rotating portion 34 and the sub rotating portion 35 regardless of the orientation of the support shaft 31.

A multi-directional ball rotation apparatus designed to maneuver an item in a plurality of directions is provided. The ball rotation apparatus includes a main housing, a first motor coupled to the main housing and having a first rotatable spindle, a shaft rotatably mounted to the main housing and operably connected to the first spindle of the motor, and a spherical member coupled to the shaft and designed to engage the item. The first spindle of the first motor is designed to rotate in a first direction to rotate the spherical member and item in a first direction. The first spindle of the first motor is designed to rotate in a second direction to rotate the spherical member and item in a second direction.

A railcar loading system utilizing roller ball track assemblies, or the like, in the center to enable cargo to be moved thereover in any direction (moving cargo in/out and within the railcar). Powered movement devices (e.g., rollers, conveyors) are utilized in the center to assist in movement of cargo in/out or within the railcar. Roller track assemblies, or the like, are utilized on sides of railcar to move cargo to/from the sides. Airbags may be utilized in track assemblies and powered movement devices to raise devices up when activated. Railcar may include an air connector on each side to provide air to solenoid valve that routes air to appropriate airbags. Cargo table is used to move cargo from cargo bay to railcar. Wireless controller may be used to control railcar and table including what tracks are raised and direction cargo is to be moved (what powered movements devices are operational).